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BENZODIAZEPINES:
HOW THEY WORK • PROTOCOL FOR THE TREATMENT OF BENZODIAZEPINE
WITHDRAWAL Professor C Heather Ashton DM, FRCP |
CONTENTS PAGE
FOREWORD TO REVISED EDITION,
AUGUST 2002
ABOUT PROFESSOR C HEATHER
ASHTON, DM, FRCP
CHAPTER I. THE BENZODIAZEPINES:
WHAT THEY DO IN THE BODY
The benzodiazepines
Potency
Speed of elimination
Duration of effects
Therapeutic actions
of benzodiazepines
Mechanisms of action
Adverse effects of benzodiazepines
Oversedation
Drug interactions
Memory impairment
Paradoxical stimulant
effects
Depression, emotional
blunting
Adverse effects in
the elderly
Adverse effects in
pregnancy
Tolerance
Dependence
Therapeutic
dose dependence
Prescribed
high dose dependence
Recreational
benzodiazepine abuse
Socioeconomic costs of long-term
benzodiazepine use
Table 1. Benzodiazepines
and similar drugs
Table 2. Therapeutic
actions of benzodiazepines
Table 3. Some socioeconomic
costs of long-term benzodiazepine use
Fig. 1. Diagram of
mechanism of action of the natural neurotransmitter GABA (gamma aminobutyric
acid) and benzodiazepine on nerve cells (neurons) in the brain
CHAPTER II. HOW TO WITHDRAW
FROM BENZODIAZEPINES AFTER LONG-TERM USE
Why should you come off
benzodiazepines?
Before starting benzodiazepine
withdrawal
Consult
your doctor and pharmacist
Make
sure you have adequate psychological support
Get into
the right frame of mind
Be confident
Be patient
Choose your own way
The withdrawal
Dosage
tapering
Switching
to a long-acting benzodiazepine
Designing
and following the withdrawal schedule
Withdrawal
in older people
Withdrawal
of antidepressants
· 1. Withdrawal from high dose
(6mg) alprazolam (Xanax) daily with diazepam (Valium) substitution
· 2. Simple withdrawal from
diazepam (Valium) 40mg daily
· 3. Withdrawal from lorazepam
(Ativan) 6mg daily with diazepam (Valium) substitution
· 4. Withdrawal from nitrazepam
(Mogadon) 10mg at night with diazepam (Valium) substitution
· 5. Withdrawal from clonazepam
(Klonopin) 1.5mg daily with substitution of diazepam (Valium)
· 6. Withdrawal from clonazepam
(Klonopin) 3mg daily with substitution of diazepam (Valium)
· 7. Withdrawal from alprazolam
(Xanax) 4mg daily with diazepam (Valium) substitution
· 8. Withdrawal from lorazepam
(Ativan) 3mg daily with diazepam (Valium) substitution
· 9. Withdrawal from temazepam
(Restoril) 30mg nightly with diazepam (Valium) substitution
· 11. Withdrawal from chlordiazepoxide
(Librium) 25mg three times daily (75mg)
· 12. Withdrawal from zopiclone
(Zimovane) 15mg with diazepam (Valium) substitution
· 13. Antidepressant Withdrawal
Table
CHAPTER III. BENZODIAZEPINE
WITHDRAWAL SYMPTOMS, ACUTE AND PROTRACTED
Mechanisms of withdrawal reactions
Individual symptoms, their causes and how to deal with them
Insomnia,
nightmares, sleep disturbance
Intrusive
memories
Panic
attacks
Generalised
anxiety, panics and phobias
Psychological
techniques
Complementary
medicine techniques
Exercise
and other techniques
Sensory
hypersensitivity
Depersonalisation,
derealisation
Hallucinations,
illusions, perceptual distortions
Depression,
aggression, obsessions
Muscle
symptoms
Bodily
sensations
Heart
and lungs
Problems
with balance
Digestive
problems
Immune
system
Endocrine
problems
Fits,
convulsions
Extra medication during benzodiazepine
withdrawal
Antidepressants
Beta-blockers
Hypnotics
and sedatives
Other
drugs
Benzodiazepine use during
and after withdrawal
Diet, fluids and exercise
Smoking
Protracted withdrawal symptoms
Anxiety
Depression
Insomnia
Sensory
and motor disturbances
Possible
mechanisms of persisting sensory and motor symptoms
Poor
memory and cognition
Do benzodiazepines
cause structural brain damage?
Gastrointestinal
symptoms
Coping
with protracted symptoms
How
long do benzodiazepines stay in the body after withdrawal?
Epilogue
Education
Research
Treatment
methods
Provision
of facilities
Table 1. Benzodiazepine withdrawal
symptoms
Table 2. Antidepressant
withdrawal symptoms
Table 3. Some protracted
benzodiazepine withdrawal symptoms
Table 4. Some possible
causes of protracted benzodiazepine withdrawal symptoms
INTRODUCTION
FOREWORD 2001
These chapters were written
by request in 1999 for readers in the USA concerned about the problems associated
with long-term benzodiazepine use. Inquiries from Canada, Australia and the
UK have suggested that the advice in the manual might be of help to a wider
audience. Accordingly, some additions have now been made, particularly for
readers in the UK.
A limited list of benzodiazepines
that can be prescribed on the National Health Service was introduced in the
UK in 1985. These include diazepam, chlordiazepoxide, lorazepam and oxazepam
for anxiety; nitrazepam and temazepam for insomnia. Triazolam was originally
on the list but was later withdrawn. Other sleeping pills now available on
the NHS include the benzodiazepines loprazolam and lormetazepam and two drugs,
zopiclone and zolpidem, which although not benzodiazepines, act in the same
way and have the same adverse effects including dependence and withdrawal
reactions. Information about benzodiazepines not included in the first US
edition, and suggested withdrawal schedules for chlordiazepoxide, oxazepam
and zopiclone have been added here.
Unfortunately, the benzodiazepine
saga is far from over. Despite the fact that benzodiazepines are only recommended
for short-term use, there are still about half a million long-term benzodiazepine
users in the UK who have often been prescribed benzodiazepines for years.
Many of these people have problems with adverse effects including dependence
and withdrawal reactions, for which they receive little advice or support.
The problem is even greater in countries (Greece, India, South America and
others) where benzodiazepines are available over the counter. Because of widespread
prescribing and easy availability, benzodiazepines have now, in addition,
entered the "drug scene". They are taken illicitly in high doses
by 90% of polydrug abusers world-wide, unleashing new and dangerous effects
(AIDS, hepatitis, and risks to the next generation) which were undreamt of
when they were introduced into medicine as a harmless panacea nearly 50 years
ago.
I hope this booklet will
provide information of value to benzodiazepine users unable to find advice
elsewhere and perhaps raise awareness in the medical profession about the
dangers of excessive or long-term benzodiazepine prescribing. The main credit
for any use this monograph may be should go to Geraldine Burns in the USA, Rand
M Bard in Canada, and Ray Nimmo
and Carol Packer in the UK
for their energy, enthusiasm and expertise in producing and distributing this
booklet and making it available to people on the Internet throughout the world.
Heather Ashton
January 2001
FOREWORD TO REVISED
EDITION, AUGUST 2002
This edition contains
some new material which I have added in response to requests and queries from
readers in many countries including Europe, North America, Australia, New
Zealand, South Africa and India. Additions include further information about
withdrawal of antidepressant drugs, some advice for older or "elderly"
people, and a mention of complementary, non-drug, techniques helpful in benzodiazepine
withdrawal. There is also an epilogue outlining areas where further action
about benzodiazepines - education, research and facilities for long-term users
- is urgently needed. I am glad that this monograph has been helpful to people
all over the world and am grateful for the many thanks I have received. I
hope also that it will encourage professionals and others to undertake properly
controlled trials aimed at improving the management of benzodiazepine withdrawal.
This booklet is surely not the last word on the subject.
Heather Ashton
Newcastle upon Tyne
August 2002
ABOUT PROFESSOR C
HEATHER ASHTON, DM, FRCP
Chrystal Heather Ashton
DM, FRCP is Emeritus Professor of Clinical Psycho-pharmacology at the University
of Newcastle upon Tyne, England.
Professor Ashton is a
graduate of the University of Oxford and obtained a First Class Honours Degree
(BA) in Physiology in 1951. She qualified in Medicine (BM, BCh, MA) in 1954
and gained a postgraduate Doctor of Medicine (DM) in 1956. She qualified as
MRCP (Member of the Royal College of Physicians, London) in 1958 and was elected
FRCP (Fellow of the Royal College of Physicians, London) in 1975. She also
became National Health Service Consultant in Clinical Psychopharmacology in
1975 and National Health Service Consultant in Psychiatry in 1994.
She has worked at the
University of Newcastle upon Tyne as researcher (Lecturer, Senior Lecturer,
Reader and Professor) and clinician since 1965, first in the Department of
Pharmacology and latterly in the Department of Psychiatry. Her research has
centred, and continues, on the effects of psychotropic drugs (nicotine, cannabis,
benzodiazepines, antidepressants and others) on the brain and behaviour in
man. Her main clinical work was in running a benzodiazepine withdrawal clinic
for 12 years from 1982-1994.
She is at present involved
with the North East Council for Addictions (NECA) of which she is former Vice-Chairman
of the Executive Committee on which she still serves. She continues to give
advice on benzodiazepine problems to counsellors and is patron of the Bristol
& District Tranquilliser Project. She was generic expert in the UK benzodiazepine
litigation in the 1980s and has been involved with the UK organisation Victims
of Tranquillisers (VOT). She has submitted evidence about benzodiazepines
to the House of Commons Health Select Committee.
She has published approximately
250 papers in professional journals, books and chapters in books on psychotropic
drugs of which over 50 concern benzodiazepines. She has given evidence to
various Government committees on tobacco smoking, cannabis and benzodiazepines
and has given invited lectures on benzodiazepines in the UK, Australia, Sweden,
Switzerland and other countries.
Professor Ashton may
be contacted at:
Department of Psychiatry
Royal Victoria Infirmary
Newcastle upon Tyne
NE1 4LP
England UK
SUMMARY OF CONTENTS
This monograph contains
information about the effects that benzodiazepines have on the brain and body
and how these actions are exerted. Detailed suggestions on how to withdraw
after long-term use and individual tapering schedules for different benzodiazepines
are provided. Withdrawal symptoms, acute and protracted, are described along
with an explanation of why they may occur and how to cope with them. The overall
message is that most long-term benzodiazepine users who wish to can withdraw
successfully and become happier and healthier as a result.
MEDICAL DISCLAIMER
This medical disclaimer
should be read in conjunction with the Terms and Conditions of Use of
the site at www.benzo.org.uk.
The material published
in this online Manual is for general health information to the public. The
author and publisher are not engaged in rendering medical, health, psychological
advice or any other kind of personal or professional services on this site.
The material should not
be considered complete and does not cover all diseases, ailments, physical
conditions or their treatment. The information about drugs contained on this
site is general in nature. It does not cover all possible uses, actions, precautions,
side effects, or interactions of the medicines mentioned.
The material provided
on this site should not be used for diagnosing or treating a health problem
or disease. It is not a substitute for professional care nor should it be
used in place of a call or visit to a medical health or other competent professional,
nor is the information intended as medical advice for individual problems
or for making an evaluation as to the risks and benefits of taking a particular
drug.
The author and the operator
of this site do not assume responsibility for any inaccuracies or omissions
or for consequences from use of material obtained on this site and the author
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examination by a physician. In any event and before adopting any of the suggestions
in this Manual or drawing inferences from it, you should consult your professional
health care provider.
Elli Oxtoby (Solicitor)
Research & Innovation Services
University of Newcastle Medical School
Telephone: 0191 222 5508
CHAPTER I
THE BENZODIAZEPINES: WHAT THEY DO IN THE BODY
The benzodiazepines
Potency
Speed of elimination
Duration of effects
Therapeutic actions of benzodiazepines
Mechanisms of action
Adverse effects of benzodiazepines
Oversedation
Drug interactions
Memory impairment
Paradoxical stimulant effects
Depression, emotional blunting
Adverse effects in the elderly
Adverse effects in pregnancy
Tolerance
Dependence
Therapeutic dose
dependence
Prescribed high
dose dependence
Recreational benzodiazepine
abuse
Socioeconomic costs of long-term benzodiazepine
use
Table 1. Benzodiazepines and similar
drugs
Table 2. Therapeutic actions
of benzodiazepines
Table 3. Some socioeconomic costs
of long-term benzodiazepine use
Fig. 1. Diagram of mechanism
of action of the natural neurotransmitter GABA (gamma aminobutyric acid) and
benzodiazepine on nerve cells (neurons) in the brain
BACKGROUND
For twelve years (1982-1994)
I ran a Benzodiazepine Withdrawal Clinic for people wanting to come off their
tranquillisers and sleeping pills. Much of what I know about this subject
was taught to me by those brave and long-suffering men and women. By listening
to the histories of over 300 "patients" and by closely following
their progress (week-by-week and sometimes day-by-day), I gradually learned
what long-term benzodiazepine use and subsequent withdrawal entails.
Most of the people attending
the clinic had been taking benzodiazepines prescribed by their doctors for
many years, sometimes over 20 years. They wished to stop because they did
not feel well. They realised that the drugs, though effective when first prescribed,
might now be actually making them feel ill. They had many symptoms, both physical
and mental. Some were depressed and/or anxious; some had "irritable bowel",
cardiac or neurological complaints. Many had undergone hospital investigations
with full gastrointestinal, cardiological and neurological screens (nearly
always with negative results). A number had been told (wrongly) that they
had multiple sclerosis. Several had lost their jobs through recurrent illnesses.
The experiences of these
patients have since been confirmed in many studies, by thousands of patients
attending tranquilliser support groups in the UK and other parts of Europe,
and by individuals vainly seeking help in the US. It is interesting that the
patients themselves, and not the medical profession, were the first to realise
that long-term use of benzodiazepines can cause problems.
ABOUT THIS CHAPTER
Some readers may decide
to go directly to the chapter on benzodiazepine withdrawal (Chapter II). However, those
who wish to understand withdrawal symptoms and techniques (and therefore to
cope better with the withdrawal process) are advised to become acquainted
first with what benzodiazepines do in the body, how they work, how the body
adjusts to chronic use, and why withdrawal symptoms occur. These issues are
discussed in this chapter.
THE BENZODIAZEPINES
Potency. A large number of benzodiazepines
are available (Table 1).
There are major differences in potency between different benzodiazepines,
so that equivalent doses vary as much as 20-fold. For example, 0.5 milligrams
(mg) of alprazolam (Xanax) is approximately equivalent to 10mg of diazepam
(Valium). Thus a person on 6mg of alprazolam daily, a dose not uncommonly
prescribed in the US, is taking the equivalent of about 120mg of diazepam,
a very high dose. These differences in strength have not always been fully
appreciated by doctors, and some would not agree with the equivalents given
here. Nevertheless, people on potent benzodiazepines such as alprazolam, lorazepam
(Ativan) or clonazepam (Klonopin) tend to be using relatively large doses.
This difference in potency is important when switching from one benzodiazepine
to another, for example changing to diazepam during the withdrawal, as described
in the next chapter.
Speed of elimination.
Benzodiazepines also differ markedly in the speed at which they are metabolised
(in the liver) and eliminated from the body (in the urine) (Table 1). For example, the "half-life"
(time taken for the blood concentration to fall to half its initial value
after a single dose) for triazolam (Halcion) is only 2-5 hours, while the
half-life of diazepam is 20-100 hours, and that of an active metabolite of
diazepam (desmethyldiazepam) is 36-200 hours. This means that half the active
products of diazepam are still in the bloodstream up to 200 hours after a
single dose. Clearly, with repeated daily dosing accumulation occurs and high
concentrations can build up in the body (mainly in fatty tissues). As Table
1 shows, there is a considerable variation between individuals in the
rate at which they metabolise benzodiazepines.
Table 1. BENZODIAZEPINES AND SIMILAR DRUGS5
| Benzodiazepines5 |
Half-life (hrs)1 |
Market Aim2 |
Approximately Equivalent |
| Alprazolam
(Xanax) |
6-12 |
a |
0.5 |
| Bromazepam
(Lexotan, Lexomil) |
10-20 |
a |
5-6 |
| Chlordiazepoxide
(Librium) |
5-30 [36-200] |
a |
25 |
| Clobazam
(Frisium) |
12-60 |
a,e |
20 |
| Clonazepam
(Klonopin, Rivotril) |
18-50 |
a,e |
0.5 |
| Clorazepate
(Tranxene) |
[36-200] |
a |
15 |
| Diazepam
(Valium) |
20-100 [36-200] |
a |
10 |
| Estazolam
(ProSom) |
10-24 |
h |
1-2 |
| Flunitrazepam
(Rohypnol) |
18-26 [36-200] |
h |
1 |
| Flurazepam
(Dalmane) |
[40-250] |
h |
15-30 |
| Halazepam
(Paxipam) |
[30-100] |
a |
20 |
| Ketazolam
(Anxon) |
2 |
a |
15-30 |
| Loprazolam
(Dormonoct) |
6-12 |
h |
1-2 |
| Lorazepam
(Ativan) |
10-20 |
a |
1 |
| Lormetazepam
(Noctamid) |
10-12 |
h |
1-2 |
| Medazepam
(Nobrium) |
36-200 |
a |
10 |
| Nitrazepam
(Mogadon) |
15-38 |
h |
10 |
| Oxazepam
(Serax, Serenid, Serepax) |
4-15 |
a |
20 |
| Prazepam
(Centrax) |
[36-200] |
a |
10-20 |
| Quazepam
(Doral) |
25-100 |
h |
20 |
| Temazepam
(Restoril, Normison, Euhypnos) |
8-22 |
h |
20 |
| Triazolam
(Halcion) |
2 |
h |
0.5 |
| Non-benzodiazepines
with similar effects4,5 |
|
|
|
| Zaleplon
(Sonata) |
2 |
h |
20 |
| Zolpidem
(Ambien, Stilnoct) |
2 |
h |
20 |
| Zopiclone
(Zimovane, Imovane) |
5-6 |
h |
15 |
1.
Half-life: time taken for blood concentration
to fall to half its peak value after a single dose. Half-life of active metabolite
shown in square brackets. This time may vary considerably between individuals.
2.
Market aim: although all benzodiazepines
have similar actions, they are usually marketed as anxiolytics (a), hypnotics
(h) or anticonvulsants (e).
3.
These equivalents do not agree with
those used by some authors. They are firmly based on clinical experience but
may vary between individuals.
4.
These drugs are chemically different
from benzodiazepines but have the same effects on the body and act by the
same mechanisms.
5.
All these drugs are recommended for
short-term use only (2-4 weeks maximum).
Duration
of effects.
The speed of elimination of a benzodiazepine is obviously important in determining
the duration of its effects. However, the duration of apparent action is usually
considerably less than the half-life. With most benzodiazepines, noticeable
effects usually wear off within a few hours. Nevertheless the drugs, as long
as they are present, continue to exert subtle effects within the body. These
effects may become apparent during continued use or may appear as withdrawal
symptoms when dosage is reduced or the drug is stopped.
Therapeutic
actions of benzodiazepines. Regardless of their potency, speed of elimination or duration of effects,
the actions in the body are virtually the same for all benzodiazepines. This
is true whether they are marketed as anxiolytics, hypnotics or anti-convulsants
(Table 1). All benzodiazepines
exert five major effects which are used therapeutically: anxiolytic, hypnotic,
muscle relaxant, anticonvulsant and amnesic (impairment of memory) (Table
2).
Table
2. THERAPEUTIC ACTIONS OF BENZODIAZEPINES (IN SHORT-TERM USE)
| Action |
Clinical Use |
| Anxiolytic - relief of anxiety |
-
Anxiety and panic disorders, phobias |
| Hypnotic
- promotion of sleep |
-
Insomnia |
| Myorelaxant - muscle relaxation |
-
Muscle spasms, spastic disorders |
| Anticonvulsant - stop fits, convulsions |
-
Fits due to drug poisoning, some forms of epilepsy |
| Amnesia
- impair short-term memory |
-
Premedication for operations, sedation for |
Other clinical uses,
utilising combined effects:
· Alcohol
detoxification
· Acute
psychosis with hyperexcitability and aggressiveness
These
actions, exerted by different benzodiazepines in slightly varying degrees,
confer on the drugs some useful medicinal properties. Few drugs can compete
with them in efficacy, rapid onset of action and low acute toxicity. In short-term
use, benzodiazepines can be valuable, sometimes even life-saving, across a
wide range of clinical conditions as shown in Table 2. Nearly all the disadvantages
of benzodiazepines result from long-term use (regular use for more than a
few weeks). The UK Committee
on Safety of Medicines in 1988 recommended that benzodiazepines should
in general be reserved for short-term use (2-4 weeks only).
Mechanisms
of action. Anyone
struggling to get off their benzodiazepines will be aware that the drugs have
profound effects on the mind and body apart from the therapeutic actions.
Directly or indirectly, benzodiazepines in fact influence almost every aspect
of brain function. For those interested to know how and why, a short explanation
follows of the mechanisms through which benzodiazepines are able to exert
such widespread effects.
All
benzodiazepines act by enhancing the actions of a natural brain chemical,
GABA (gamma-aminobutyric acid). GABA is a neurotransmitter, an agent which
transmits messages from one brain cell (neuron) to another. The message that
GABA transmits is an inhibitory one: it tells the neurons that it contacts
to slow down or stop firing. Since about 40% of the millions of neurons all
over the brain respond to GABA, this means that GABA has a general quietening
influence on the brain: it is in some ways the body's natural hypnotic and
tranquilliser. This natural action of GABA is augmented by benzodiazepines
which thus exert an extra (often excessive) inhibitory influence on neurons
(Fig. 1).
Fig.
1. Diagram of mechanism of action of the natural neurotransmitter GABA (gamma-aminobutyric
acid) and benzodiazepines on nerve cells (neurons) in the brain
(1,2)
Nerve impulse causes release of GABA from storage sites on neuron 1
(3) GABA released into space between neurons
(4) GABA reacts with receptors on neuron 2; the reaction allows chloride ions
(Cl-) to enter the neuron
(5) This effect inhibits further progress of the nerve impulse
(6,7) Benzodiazepines react with booster site on GABA receptors
(8) This action enhances the inhibitory effects of GABA; the ongoing nerve
impulse may be completely blocked
The
way in which GABA sends its inhibitory message is by a clever electronic device.
Its reaction with special sites (GABA-receptors) on the outside of the receiving
neuron opens a channel, allowing negatively charged particles (chloride ions)
to pass to the inside of the neuron. These negative ions "supercharge"
the neuron making it less responsive to other neurotransmitters which would
normally excite it. Benzodiazepines also react at their own special sites
(benzodiazepine receptors), situated actually on the GABA-receptor. Combination
of a benzodiazepine at this site acts as a booster to the actions of GABA,
allowing more chloride ions to enter the neuron, making it even more resistant
to excitation. Various subtypes of benzodiazepine receptors have slightly
different actions. One subtype (alpha 1) is responsible for sedative effects,
another (alpha 2) for anti-anxiety effects, and both alpha 1 and alpha 2,
as well as alpha 5, for anticonvulsant effects. All benzodiazepines combine,
to a greater or lesser extent, with all these subtypes and all enhance GABA
activity in the brain.
As a
consequence of the enhancement of GABA's inhibitory activity caused by benzodiazepines,
the brain's output of excitatory neurotransmitters, including norepinephrine
(noradrenaline), serotonin, acetyl choline and dopamine, is reduced. Such
excitatory neurotransmitters are necessary for normal alertness, memory, muscle
tone and co-ordination, emotional responses, endocrine gland secretions, heart
rate and blood pressure control and a host of other functions, all of which
may be impaired by benzodiazepines. Other benzodiazepine receptors, not linked
to GABA, are present in the kidney, colon, blood cells and adrenal cortex
and these may also be affected by some benzodiazepines. These direct and indirect
actions are responsible for the well-known adverse effects of dosage with
benzodiazepines.
ADVERSE
EFFECTS OF BENZODIAZEPINES
Oversedation. Oversedation is a dose-related extension
of the sedative/hypnotic effects of benzodiazepines. Symptoms include drowsiness,
poor concentration, incoordination, muscle weakness, dizziness and mental
confusion. When benzodiazepines are taken at night as sleeping pills, sedation
may persist the next day as "hangover" effects, particularly with
slowly eliminated preparations (Table 1). However, tolerance to
the sedative effects usually develops over a week or two and anxious patients
taking benzodiazepines during the day rarely complain of sleepiness although
fine judgement and some memory functions may still be impaired.
Oversedation
persists longer and is more marked in the elderly and may contribute to falls
and fractures. Acute confusional states have occurred in the elderly even
after small doses of benzodiazepines. Oversedation from benzodiazepines contributes
to accidents at home and at work and studies from many countries have shown
a significant association between the use of benzodiazepines and the risk
of serious traffic accidents. People taking benzodiazepines should be warned
of the risks of driving and of operating machinery.
Drug
interactions.
Benzodiazepines have additive effects with other drugs with sedative actions
including other hypnotics, some antidepressants (e.g. amitriptyline [Elavil],
doxepin [Adapin, Sinequan]), major tranquillisers or neuroleptics (e.g. prochlorperazine
[Compazine], trifluoperazine [Stelazine]), anticonvulsants (e.g. phenobarbital,
phenytoin [Dilantin], carbamazepine [Atretol, Tegretol]), sedative antihistamines
(e.g. diphenhydramine [Benadryl], promethazine [Phenergan]), opiates (heroin,
morphine, meperidine), and, importantly, alcohol. Patients taking benzodiazepines
should be warned of these interactions. If sedative drugs are taken in overdose,
benzodiazepines may add to the risk of fatality.
Memory
impairment.
Benzodiazepines have long been known to cause amnesia, an effect which is
utilised when the drugs are used as premedication before major surgery or
for minor surgical procedures. Loss of memory for unpleasant events is a welcome
effect in these circumstances. For this purpose, fairly large single doses
are employed and a short-acting benzodiazepine (e.g. midazolam) may be given
intravenously.
Oral
doses of benzodiazepines in the dosage range used for insomnia or anxiety
can also cause memory impairment. Acquisition of new information is deficient,
partly because of lack of concentration and attention. In addition, the drugs
cause a specific deficit in "episodic" memory, the remembering of
recent events, the circumstances in which they occurred, and their sequence
in time. By contrast, other memory functions (memory for words, ability to
remember a telephone number for a few seconds, and recall of long-term memories)
are not impaired. Impairment of episodic memory may occasionally lead to memory
lapses or "blackouts". It is claimed that in some instances such
memory lapses may be responsible for uncharacteristic behaviours such as shop-lifting.
Benzodiazepines
are often prescribed for acute stress-related reactions. At the time they
may afford relief from the distress of catastrophic disasters, but if used
for more than a few days they may prevent the normal psychological adjustment
to such trauma. In the case of loss or bereavement they may inhibit the grieving
process which may remain unresolved for many years. In other anxiety states,
including panic disorder and agoraphobia, benzodiazepines may inhibit the
learning of alternative stress-coping strategies, including cognitive behavioural
treatment.
Paradoxical
stimulant effects.
Benzodiazepines occasionally cause paradoxical excitement with increased anxiety,
insomnia, nightmares, hallucinations at the onset of sleep, irritability,
hyperactive or aggressive behaviour, and exacerbation of seizures in epileptics.
Attacks of rage and violent behaviour, including assault (and even homicide),
have been reported, particularly after intravenous administration but also
after oral administration. Less dramatic increases in irritability and argumentativeness
are much more common and are frequently remarked upon by patients or by their
families. Such reactions are similar to those sometimes provoked by alcohol.
They are most frequent in anxious and aggressive individuals, children, and
the elderly. They may be due to release or inhibition of behavioural tendencies
normally suppressed by social restraints. Cases of "baby-battering",
wife-beating and "grandma-bashing" have been attributed to benzodiazepines.
Depression,
emotional blunting.
Long-term benzodiazepine users, like alcoholics and barbiturate-dependent
patients, are often depressed, and the depression may first appear during
prolonged benzodiazepine use. Benzodiazepines may both cause and aggravate
depression, possibly by reducing the brain's output of neurotransmitters such
as serotonin and norepinephrine (noradrenaline). However, anxiety and depression
often co-exist and benzodiazepines are frequently prescribed for mixed anxiety
and depression. Sometimes the drugs seem to precipitate suicidal tendencies
in such patients. Of the first 50 of the patients attending my withdrawal
clinic (reported in 1987), ten had taken
drug overdoses requiring hospital admission while on chronic benzodiazepine
medication; only two of these had a history of depressive illness before they
were prescribed benzodiazepines. The depression lifted in these patients after
benzodiazepine withdrawal and none took further overdoses during the 10 months
to 3.5 years follow-up period after withdrawal. In 1988 the Committee on Safety of Medicines
in the UK recommended that "benzodiazepines should not be used alone
to treat depression or anxiety associated with depression. Suicide may be
precipitated in such patients".
"Emotional
anaesthesia", the inability to feel pleasure or pain, is a common complaint
of long-term benzodiazepine users. Such emotional blunting is probably related
to the inhibitory effect of benzodiazepines on activity in emotional centres
in the brain. Former long-term benzodiazepine users often bitterly regret
their lack of emotional responses to family members - children and spouses
or partners - during the period when they were taking the drugs. Chronic benzodiazepine
use can be a cause of domestic disharmony and even marriage break-up.
Adverse
effects in the elderly. Older people are more sensitive than younger people to the central nervous
system depressant effects of benzodiazepines. Benzodiazepines can cause confusion,
night wandering, amnesia, ataxia (loss of balance), hangover effects and "pseudodementia"
(sometimes wrongly attributed to Alzheimer’s disease) in the elderly and should
be avoided wherever possible. Increased sensitivity to benzodiazepines in
older people is partly because they metabolise drugs less efficiently than
younger people, so that drug effects last longer and drug accumulation readily
occurs with regular use. However, even at the same blood concentration, the
depressant effects of benzodiazepines are greater in the elderly, possibly
because they have fewer brain cells and less reserve brain capacity than younger
people.
For
these reasons, it is generally advised that, if benzodiazepines are used in
the elderly, dosage should be half that recommended for adults, and use (as
for adults) should be short-term (2 weeks) only. In addition, benzodiazepines
without active metabolites (e.g. oxazepam [Serax], temazepam [Restoril]) are
tolerated better than those with slowly eliminated metabolites (e.g. chlordiazepoxide
[Librium], nitrazepam [Mogadon]). Equivalent potencies of different benzodiazepines
are approximately the same in older as in younger people (Table
1).
Adverse
effects in pregnancy. Benzodiazepines cross the placenta, and if taken regularly by the mother
in late pregnancy, even in therapeutic doses, can cause neonatal complications.
The foetus and neonate metabolise benzodiazepines very slowly, and appreciable
concentrations may persist in the infant up to two weeks after birth, resulting
in the "floppy infant syndrome" of lax muscles, oversedation, and
failure to suckle. Withdrawal symptoms may develop after about two weeks with
hyperexcitability, high-pitched crying and feeding difficulties.
Benzodiazepines
in therapeutic doses appear to carry little risk of causing major congenital
malformations. However, chronic maternal use may impair foetal intrauterine
growth and retard brain development. There is increasing concern that such
children in later life may be prone to attention deficit disorder, hyperactivity,
learning difficulties, and a spectrum of autistic disorders.
Tolerance.
Tolerance to
many of the effects of benzodiazepines develops with regular use: the original
dose of the drug has progressively less effect and a higher dose is required
to obtain the original effect. This has often led doctors to increase the
dosage in their prescriptions or to add another benzodiazepine so that some
patients have ended up taking two benzodiazepines at once.
However,
tolerance to the various actions of benzodiazepines develops at variable rates
and to different degrees. Tolerance to the hypnotic effects develops rapidly
and sleep recordings have shown that sleep patterns, including deep sleep
(slow wave sleep) and dreaming (which are initially suppressed by benzodiazepines),
return to pre-treatment levels after a few weeks of regular benzodiazepine
use. Similarly, daytime users of the drugs for anxiety no longer feel sleepy
after a few days.
Tolerance
to the anxiolytic effects develops more slowly but there is little evidence
that benzodiazepines retain their effectiveness after a few months. In fact
long-term benzodiazepine use may even aggravate anxiety disorders. Many patients
find that anxiety symptoms gradually increase over the years despite continuous
benzodiazepine use, and panic attacks and agoraphobia may appear for the first
time after years of chronic use. Such worsening of symptoms during long-term
benzodiazepine use is probably due to the development of tolerance to the
anxiolytic effects, so that "withdrawal" symptoms emerge even in
the continued presence of the drugs. However, tolerance may not be complete
and chronic users sometimes report continued efficacy, which may be partly
due to suppression of withdrawal effects. Nevertheless, in most cases such
symptoms gradually disappear after successful tapering and withdrawal of benzodiazepines.
Among the first 50 patients
attending my clinic, 10 patients became agoraphobic for the first time while
taking benzodiazepines. Agoraphobic symptoms abated dramatically within a
year of withdrawal, even in patients who had been housebound, and none were
incapacitated by agoraphobia at the time of follow-up (10 months to 3.5 years
after withdrawal).
Tolerance
to the anticonvulsant effects of benzodiazepines makes them generally unsuitable
for long-term control of epilepsy. Tolerance to the motor effects of benzodiazepines
can develop to a remarkable degree so that people on very large doses may
be able to ride a bicycle and play ball games. However, complete tolerance
to the effects on memory and cognition does not seem to occur. Many studies
show that these functions remain impaired in chronic users, recovering slowly,
though sometimes incompletely, after withdrawal.
Tolerance
is a phenomenon that develops with many chronically used drugs (including
alcohol, heroin and morphine and cannabis). The body responds to the continued
presence of the drug with a series of adjustments that tend to overcome the
drug effects. In the case of benzodiazepines, compensatory changes occur in
the GABA and benzodiazepine receptors which become less responsive, so that
the inhibitory actions of GABA and benzodiazepines are decreased. At the same
time there are changes in the secondary systems controlled by GABA so that
the activity of excitatory neurotransmitters tends to be restored. Tolerance
to different effects of benzodiazepines may vary between individuals - probably
as a result of differences in intrinsic neurological and chemical make-up
which are reflected in personality characteristics and susceptibility to stress.
The development of tolerance is one of the reasons people become dependent
on benzodiazepines, and also sets the scene for the withdrawal syndrome, described
in the next chapter.
Dependence. Benzodiazepines are potentially
addictive drugs: psychological and physical dependence can develop within
a few weeks or months of regular or repeated use. There are several overlapping
types of benzodiazepine dependence.
Therapeutic
dose dependence. People
who have become dependent on therapeutic doses of benzodiazepines usually
have several of the following characteristics.
1.
They have taken benzodiazepines in
prescribed "therapeutic" (usually low) doses for months or years.
2.
They have gradually become to "need"
benzodiazepines to carry out normal, day-to-day activities.
3.
They have continued to take benzodiazepines
although the original indication for prescription has disappeared.
4.
They have difficulty in stopping
the drug, or reducing dosage, because of withdrawal symptoms.
5.
If on short-acting benzodiazepines
(Table 1) they develop anxiety
symptoms between doses, or get craving for the next dose.
6.
They contact their doctor regularly
to obtain repeat prescriptions.
7.
They become anxious if the next prescription
is not readily available; they may carry their tablets around with them and
may take an extra dose before an anticipated stressful event or a night in
a strange bed.
8.
They may have increased the dosage
since the original prescription.
9.
They may have anxiety symptoms, panics,
agoraphobia, insomnia, depression and increasing physical symptoms despite
continuing to take benzodiazepines.
The
number of people world-wide who are taking prescribed benzodiazepines is enormous.
For example, in the US nearly 11 per cent of a large population surveyed in
1990 reported some benzodiazepine use the previous year. About 2 per cent
of the adult population of the US (around 4 million people) appear to have
used prescribed benzodiazepine hypnotics or tranquillisers regularly for 5
to 10 years or more. Similar figures apply in the UK, over most of Europe
and in some Asian countries. A high proportion of these long-term users must
be, at least to some degree, dependent. Exactly how many are dependent is
not clear; it depends to some extent on how dependence is defined. However,
many studies have shown that 50-100 per cent of long-term users have difficulty
in stopping benzodiazepines because of withdrawal symptoms, which are described
in Chapter III.
Prescribed
high dose dependence.
A minority of patients who start on prescribed benzodiazepines begin to "require"
larger and larger doses. At first they may persuade their doctors to escalate
the size of prescriptions, but on reaching the prescriber's limits, may contact
several doctors or hospital departments to obtain further supplies which they
self-prescribe. Sometimes this group combines benzodiazepine misuse with excessive
alcohol consumption. Patients in this group tend to be highly anxious, depressed
and may have personality difficulties. They may have a history of other sedative
or alcohol misuse. They do not typically use illicit drugs but may obtain
"street" benzodiazepines if other sources fail.
Recreational benzodiazepine abuse. Recreational use of benzodiazepines
is a growing problem. A large proportion (30-90 per cent) of polydrug abusers
world-wide also use benzodiazepines. Benzodiazepines are used in this context
to increase the "kick" obtained from illicit drugs, particularly
opiates, and to alleviate the withdrawal symptoms of other drugs of abuse
(opiates, barbiturates, cocaine, amphetamines and alcohol). People who have
been given benzodiazepines during alcohol detoxification sometimes become
dependent on benzodiazepines and may abuse illicitly obtained benzodiazepines
as well as relapsing into alcohol use. Occasionally high doses of benzodiazepines
are used alone to obtain a "high".
Recreational
use of diazepam, alprazolam, lorazepam, temazepam, triazolam, flunitrazepam
and others has been reported in various countries. Usually the drugs are taken
orally, often in doses much greater than those used therapeutically (e.g.100mg
diazepam or equivalent daily) but some users inject benzodiazepines intravenously.
These high dose users develop a high degree of tolerance to benzodiazepines
and, although they may use the drugs intermittently, some become dependent.
Detoxification of these patients may present difficulties since withdrawal
reactions can be severe and include convulsions.
The
present population of recreational users may be relatively small, perhaps
one tenth of that of long-term prescribed therapeutic dose users, but probably
amounts to some hundreds of thousands in the US and Western Europe, and appears
to be increasing. It is a chastening thought that medical overprescription
of benzodiazepines, resulting in their presence in many households, made them
easily available and undoubtedly aided their entry into the illicit drug scene.
Present sources for illicit users are forged prescriptions, theft from drug
stores, or illegal imports.
Socioeconomic
costs of long-term benzodiazepine use. The socio-economic costs of the present high level of long-term
benzodiazepine use are considerable, although difficult to quantify. Most
of these have been mentioned above and are summarised in Table 3. These consequences could
be minimised if prescriptions for long-term benzodiazepines were decreased.
Yet many doctors continue to prescribe benzodiazepines and patients wishing
to withdraw receive little advice or support on how to go about it. The following
chapter gives practical
information on withdrawal which, it is hoped, will be of use both to long-term
benzodiazepine users and to their physicians.
TABLE
3. SOME SOCIOECONOMIC COSTS OF LONG-TERM BENZODIAZEPINE USE
1.
Increased risk of accidents - traffic,
home, work.
2.
Increased risk of fatality from overdose
if combined with other drugs.
3.
Increased risk of attempted suicide,
especially in depression.
4.
Increased risk of aggressive behaviour
and assault.
5.
Increased risk of shoplifting and
other antisocial acts.
6.
Contributions to marital/domestic
disharmony and breakdown due to emotional and cognitive impairment.
7.
Contributions to job loss, unemployment,
loss of work through illness.
8.
Cost of hospital investigations/consultations/admissions.
9.
Adverse effects in pregnancy and in
the new-born.
10.
Dependence and abuse potential (therapeutic
and recreational).
11.
Costs of drug prescriptions.
12.
Costs of litigation.
FURTHER
READING
·
Ashton, H.
Benzodiazepine withdrawal: outcome in 50 patients. British Journal of
Addiction (1987) 82, 665-671.
·
Ashton, H. Guidelines
for the rational use of benzodiazepines. When and what to use. Drugs (1994)
48, 25-40.
·
Ashton, H. Toxicity
and adverse consequences of benzodiazepine use. Psychiatric Annals (1995)
25,158-165.
·
Ashton, H. Benzodiazepine
Abuse, Drugs and Dependence, Harwood Academic Publishers (2002), 197-212,
Routledge, London & New York.
CHAPTER II
HOW TO WITHDRAW FROM BENZODIAZEPINES AFTER LONG-TERM USE
Why should you come off benzodiazepines?
Before starting benzodiazepine withdrawal
Consult your doctor
and pharmacist
Make sure you have
adequate psychological support
Get into the right
frame of mind
Be
confident
Be
patient
Choose
your own way
The withdrawal
Dosage tapering
Switching to a
long-acting benzodiazepine
Designing and following
the withdrawal schedule
Withdrawal in older
people
Withdrawal of antidepressants
BACKGROUND
At the start of my Benzodiazepine
Withdrawal Clinic in 1982, no-one had much experience in benzodiazepine withdrawal.
Yet, as explained in Chapter I, there was strong
pressure from the patients themselves for help and advice on how to withdraw.
So, together, we felt our way. At first the withdrawal was a process of mutual
trial (and sometimes error), but through this experience some general principles
of withdrawal - what works best for most people - emerged. These general principles,
derived from the 300 who attended the clinic up till 1994, have been confirmed
over succeeding years by hundreds more benzodiazepine users with whom I have
been involved through tranquilliser support groups in the UK and abroad and
by personal contacts with individuals in many countries.
It soon became clear
that each person's experience of withdrawal is unique. Although there are
many features in common, every individual has his/her own personal pattern
of withdrawal symptoms. These differ in type, quality, severity, time-course,
duration, and many other features. Such variety is not surprising since the
course of withdrawal depends on many factors: the dose, type, potency, duration
of action and length of use of a particular benzodiazepine, the reason it
was prescribed, the personality and individual vulnerability of the patient,
his or her lifestyle, personal stresses and past experiences, the rate of
withdrawal, and the degree of support available during and after withdrawal,
to name but a few. For this reason the advice about withdrawal which follows
is only a general guide; each individual must seek out the details of his
own pathway. But the guide is gleaned from the successful withdrawal experiences
of a large number of men and women aged 18-80 with different home backgrounds,
occupations, drug histories and rates of withdrawal. The success rate has
been high (over 90%), and those who have withdrawn, even after taking benzodiazepines
for over 20 years, have felt better both physically and mentally.
So, for those starting
out, many previous users will testify that almost anyone who really wants
to can withdraw from benzodiazepines. But don't be surprised if your symptoms
(or lack of them) are different from those of anyone else embarking on the
same venture.
WHY SHOULD YOU COME
OFF BENZODIAZEPINES?
As described in Chapter I, long-term use
of benzodiazepines can give rise to many unwanted effects, including poor
memory and cognition, emotional blunting, depression, increasing anxiety,
physical symptoms and dependence. All benzodiazepines can produce these effects
whether taken as sleeping pills or anti-anxiety drugs. The social and economic
consequences of chronic benzodiazepine use are summarised in Table 3 (Chapter I).
Furthermore, the evidence
suggests that benzodiazepines are no longer effective after a few weeks or
months of regular use. They lose much of their efficacy because of the development
of tolerance. When tolerance develops, "withdrawal" symptoms can
appear even though the user continues to take the drug. Thus the symptoms
suffered by many long-term users are a mixture of adverse effects of the drugs
and "withdrawal" effects due to tolerance. The Committee on Safety of Medicines
and the Royal College of Psychiatrists in the UK concluded in various statements
(1988 and 1992) that benzodiazepines are unsuitable for long-term use and
that they should in general be prescribed for periods of 2-4 weeks only.
In addition, clinical
experience shows that most long-term benzodiazepine users actually feel better
after coming off the drugs. Many users have remarked that it was not until
they came off their drugs that they realised they had been operating below
par for all the years they had been taking them. It was as though a net curtain
or veil had been lifted from their eyes: slowly, sometimes suddenly, colours
became brighter, grass greener, mind clearer, fears vanished, mood lifted,
and physical vigour returned.
Thus there are good reasons
for long-term users to stop their benzodiazepines if they feel unhappy about
the medication. Many people are frightened of withdrawal, but reports of having
to "go through hell" can be greatly exaggerated. With a sufficiently
gradual and individualised tapering schedule, as outlined below, withdrawal
can be quite tolerable, even easy, especially when the user understands the
cause and nature of any symptoms that do arise and is therefore not afraid.
Many "withdrawal symptoms" are simply due to fear of withdrawal
(or even fear of that fear). People who have had bad experiences have usually
been withdrawn too quickly (often by doctors!) and without any explanation
of the symptoms. At the other extreme, some people can stop their benzodiazepines
with no symptoms at all: according to some authorities, this figure may be
as high as 50% even after a year of chronic usage. Even if this figure is
correct (which is arguable) it is unwise to stop benzodiazepines suddenly.
The advantages of discontinuing
benzodiazepines do not necessarily mean that every long-term user should withdraw.
Nobody should be forced or persuaded to withdraw against his or her will.
In fact, people who are unwillingly pushed into withdrawal often do badly.
On the other hand, the chances of success are very high for those sufficiently
motivated. As mentioned before, almost anyone who really wants to come off
can come off benzodiazepines. The option is up to you.
BEFORE STARTING BENZODIAZEPINE
WITHDRAWAL
Once you have made up
your mind to withdraw, there are some steps to take before you start.
(1) Consult your doctor
and pharmacist. Your doctor may have views on whether it is appropriate for you to stop
your benzodiazepines. In a small number of cases withdrawal may be inadvisable.
Some doctors, particularly in the US, believe that long-term benzodiazepines
are indicated for some anxiety, panic and phobic disorders and some psychiatric
conditions. However, medical opinions differ and, even if complete withdrawal
is not advised, it may be beneficial to reduce the dosage or to take intermittent
courses with benzodiazepine-free intervals.
Your doctor's agreement
and co-operation is necessary since he/she will be prescribing the medication.
Many doctors are uncertain how to manage benzodiazepine withdrawal and hesitate
to undertake it. But you can reassure your doctor that you intend to be in
charge of your own program and will proceed at whatever pace you find comfortable,
although you may value his advice from time to time. It is important for you
to be in control of your own schedule. Do not let your doctor impose a deadline.
Leave yourself free to "proceed as the way openeth", as the Quakers
say.
It is a good idea to
make out a dosage reduction schedule for the initial stages (see below) and to give your doctor
a copy. You may need to mention the importance of flexibility, so that the
rate of dosage tapering can be amended at any time. There may even be circumstances
when you need to stop for a while at a certain stage. A continuation schedule
can follow later depending upon how you get on, and the doctor can continue
prescribing in accordance with the new schedule. (All this is explained later
in this chapter).
Finally, your doctor
may appreciate receiving some literature on benzodiazepine withdrawal, for
example the articles mentioned under Further Reading at the end of Chapters
I & III and of this chapter.
(2) Make sure you
have adequate psychological support. Support could come from your spouse, partner, family or
close friend. An understanding doctor may also be the one to offer support
as well as advice. Ideally, your mentor should be someone who understands
about benzodiazepine withdrawal or is prepared to read about it and learn.
It need not be someone who has gone through withdrawal - sometimes ex-users
who have had a bad experience can frighten others by dwelling on their own
symptoms. Often the help of a clinical psychologist, trained counsellor, or
other therapist is valuable, especially for teaching relaxation techniques,
deep breathing, how to deal with a panic attack etc. Some people find alternative
techniques such as aromatherapy, acupuncture or yoga helpful, but these probably
act only as an aid to relaxation. In my experience, hypnotherapy has not been
helpful in long-term benzodiazepine users. Relaxation techniques
are described in Chapter
III.
Rather than (or in addition
to) expensive therapists, you need someone reliable, who will support you
frequently and regularly, long-term, both during withdrawal and for some months
afterwards. Voluntary tranquilliser support groups (self-help groups) can
be extremely helpful. They are usually run by people who have been through
withdrawal and therefore understand the time and patience required, and can
provide information about benzodiazepines. It can be encouraging to find that
you are not alone, that there are plenty of others with similar problems to
yours. However, do not be misled into fearing that you will get all the symptoms
described by the others. Everyone is different and some people, with the right
schedule and the right support, get no untoward symptoms at all. Many people
in fact have managed to come off on their own without any outside help.
(3) Get into the right
frame of mind.
·
Be confident
- you can do it. If in doubt, try a very small reduction in dosage
for a few days (for example, try reducing your daily dosage by about one tenth
or one eighth; you may be able to achieve this by halving or quartering one
of your tablets). You will probably find that you notice no difference. If
still in doubt, aim at first for dosage reduction rather than complete withdrawal.
You will probably wish to continue once you have started.
·
Be patient.
There is no need to hurry withdrawal. Your body (and brain) may need time
to readjust after years of being on benzodiazepines. Many people have taken
a year or more to complete the withdrawal. So don't rush, and, above all,
do not try to stop suddenly.
·
Choose your own way - don't expect a "quick fix". It may be possible
to enter a hospital or special centre for "detoxification". Such
an approach usually involves a fairly rapid withdrawal, is medically "safe"
and may provide psychological support. Such centres may be suitable for a
small minority of people with difficult psychological problems. However, they
often remove the control of withdrawal from the patient and setbacks on returning
home are common, largely because there has been no time to build up alternative
living skills. Slow withdrawal in your own environment allows time for physical
and psychological adjustments, permits you to continue with your normal life,
to tailor your withdrawal to your own lifestyle, and to build up alternative
strategies for living without benzodiazepines.
THE
WITHDRAWAL
(1)
Dosage tapering.
There is absolutely no doubt that anyone withdrawing from long-term benzodiazepines
must reduce the dosage slowly. Abrupt or over-rapid withdrawal, especially
from high dosage, can give rise to severe symptoms (convulsions, psychotic
reactions, acute anxiety states) and may increase the risk of protracted withdrawal
symptoms (see Chapter III). Slow withdrawal
means tapering dosage gradually, usually over a period of some months. The
aim is to obtain a smooth, steady and slow decline in blood and tissue concentrations
of benzodiazepines so that the natural systems in the brain can recover their
normal state. As explained in Chapter I, long-term benzodiazepines
take over many of the functions of the body's natural tranquilliser system,
mediated by the neurotransmitter GABA. As a result, GABA receptors in the
brain reduce in numbers and GABA function decreases. Sudden withdrawal from
benzodiazepines leaves the brain in a state of GABA-underactivity, resulting
in hyperexcitability of the nervous system. This hyperexcitability is the
root cause of most of the withdrawal symptoms discussed in the next chapter. However, a
sufficiently slow, and smooth, departure of benzodiazepines from the body
permits the natural systems to regain control of the functions which have
been damped down by their presence. There is scientific evidence that reinstatement
of brain function takes a long time. Recovery after long-term benzodiazepine
use is not unlike the gradual recuperation of the body after a major surgical
operation. Healing, of body or mind, is a slow process.
The
precise rate of withdrawal is an individual matter. It depends on many factors
including the dose and type of benzodiazepine used, duration of use, personality,
lifestyle, previous experience, specific vulnerabilities, and the (perhaps
genetically determined) speed of your recovery systems. Usually the best judge
is you, yourself; you must be in control and must proceed at the pace that
is comfortable for you. You may need to resist attempts from outsiders (clinics,
doctors) to persuade you into a rapid withdrawal. The classic six weeks withdrawal
period adopted by many clinics and doctors is much too fast for many long-term
users. Actually, the rate of withdrawal, as long as it is slow enough, is
not critical. Whether it takes 6 months, 12 months or 18 months is of little
significance if you have taken benzodiazepines for a matter of years.
It is
sometimes claimed that very slow withdrawal from benzodiazepines "merely
prolongs the agony" and it is better to get it over with as quickly as
possible. However, the experience of most patients is that slow withdrawal
is greatly preferable, especially when the subject dictates the pace. Indeed,
many patients find that there is little or no "agony" involved.
Nevertheless there is no magic rate of withdrawal and each person must find
the pace that suits him best. People who have been on low doses of benzodiazepine
for a relatively short time (less than a year) can usually withdraw fairly
rapidly. Those who have been on high doses of potent benzodiazepines such
as Xanax and Klonopin are likely to need more time.
Examples
of slow withdrawal schedules
are given at the end of this chapter. As a very rough
guide, a person taking 40mg diazepam a day (or its equivalent) might be able
to reduce the daily dosage by 2mg every 1-2 weeks until a dose of 20mg diazepam
a day is reached. This would take 10-20 weeks. From 20mg diazepam a day, reductions
of 1 mg in daily dosage every week or two might be preferable. This would
take a further 20-40 weeks, so the total withdrawal might last 30-60 weeks.
Yet some people might prefer to reduce faster and some might go even slower.
(See next section for further details).
However,
it is important in withdrawal always to go forwards. If you reach a difficult
point, you can stop there for a few weeks if necessary, but you should try
to avoid going backwards and increasing your dosage again. Some doctors advocate
the use of "escape pills" (an extra dose of benzodiazepines) in
particularly stressful situations. This is probably not a good idea as it
interrupts the smooth decline in benzodiazepine concentrations and also disrupts
the process of learning to cope without drugs which is an essential part of
the adaptation to withdrawal. If the withdrawal is slow enough, "escape
pills" should not be necessary.
(2)
Switching to a long-acting benzodiazepine. With relatively short-acting benzodiazepines such
as alprazolam (Xanax) and lorazepam (Ativan) (Table 1, Chapter I),
it is not possible to achieve a smooth decline in blood and tissue concentrations.
These drugs are eliminated fairly rapidly with the result that concentrations
fluctuate with peaks and troughs between each dose. It is necessary to take
the tablets several times a day and many people experience a "mini-withdrawal",
sometimes a craving, between each dose.
For
people withdrawing from these potent, short-acting drugs it is advisable to
switch to a long-acting, slowly metabolised benzodiazepine such as diazepam.
Diazepam (Valium) is one of the most slowly eliminated benzodiazepines. It
has a half-life of up to 200 hours, which means that the blood level for each
dose falls by only half in about 8.3 days. The only other benzodiazepines
with similar half-lives are chlordiazepoxide (Librium), flunitrazepam (Rohypnol)
and flurazepam (Dalmane), all of which are converted to a diazepam metabolite
in the body. The slow elimination of diazepam allows a smooth, gradual fall
in blood level, allowing the body to adjust slowly to a decreasing concentration
of the benzodiazepines. The switch-over process needs to be carried out gradually,
usually in stepwise fashion, substituting one dose at a time. There are several
factors to consider. One is the difference in potency between different benzodiazepines.
Many people have suffered because they have been switched suddenly to a different,
less potent drug in inadequate dosage because the doctor has not adequately
considered this factor. Equivalent potencies of benzodiazepines are shown
in Table 1 (Chapter I),
but these are only approximate and differ between individuals.
A second
factor to bear in mind is that the various benzodiazepines, though broadly
similar, have slightly different profiles of action. For example, lorazepam
(Ativan) seems to have less hypnotic activity than diazepam (probably because
it is shorter acting). Thus if someone on, say, 2mg Ativan three times a day
is directly switched to 60mg diazepam (the equivalent dose for anxiety) he
is liable to become extremely sleepy, but if he is switched suddenly onto
a much smaller dose of diazepam, he will probably get withdrawal symptoms.
Making the changeover one dose (or part of dose) at a time avoids this difficulty
and also helps to find the equivalent dosage for that individual. It is also
helpful to make the first substitution in the night-time dose, and the substitution
may not always need to be complete. For example, if the evening dose was 2mg
Ativan, this could in some cases be changed to 1 mg Ativan plus 8mg diazepam.
A full substitution for the dropped 1 mg of Ativan would have been 10mg diazepam.
However, the patient may actually sleep well on this combination and he will
have already made a dosage reduction - a first step in withdrawal. (Examples
of step-wise substitutions are given in the schedules at the end of this
chapter.
A third
important practical factor is the available dosage formulations of the various
benzodiazepines. In withdrawal you need a long-acting drug which can be reduced
in very small steps. Diazepam (Valium) is the only benzodiazepine that is
ideal for this purpose since it comes in 2mg tablets, which are scored down
the middle and easily halved into 1 mg doses. By contrast, the smallest available
tablet of lorazepam (Ativan) is 0.5mg (equivalent to 5mg diazepam) [in the
UK the lowest available dosage form for lorazepam is 1mg]; the smallest tablet
of alprazolam (Xanax) is 0.25mg (also equivalent to 5mg diazepam). Even by
halving these tablets the smallest reduction one could easily make is the
equivalent of 2.5mg diazepam. (Some patients become very adept at shaving
small portions off their tablets). Because of limited dose formulations, it
may be necessary to switch to diazepam even if you are on a fairly long-acting
benzodiazepine of relatively low potency (e.g. flurazepam [Dalmane]). Liquid
preparations of some benzodiazepines are available and if desired slow reduction
from these can be accomplished by decreasing the volume of each dose, using
a graduated syringe.
Some
doctors in the US switch patients onto clonazepam (Klonopin, [Rivotril in
Canada]), believing that it will be easier to withdraw from than say alprazolam
(Xanax) or lorazepam (Ativan) because it is more slowly eliminated. However,
Klonopin is far from ideal for this purpose. It is an extremely potent drug,
is eliminated much faster than diazepam (See (Table 1, Chapter I),
and the smallest available tablet in the US is 0.5mg (equivalent to 10mg diazepam)
and 0.25mg in Canada (equivalent to 5mg Valium). It is difficult with this
drug to achieve a smooth, slow fall in blood concentration, and there is some
evidence that withdrawal is particularly difficult from high potency benzodiazepines,
including Klonopin. Some people, however, appear to have particular difficulty
in switching from Klonopin to diazepam. In such cases it is possible to have
special capsules made up containing small doses, e.g. an eighth or a sixteenth
of a milligram or less, which can be used to make gradual dosage reductions
straight from Klonopin. These capsules require a doctor's prescription and
can be made up by hospital pharmacists and some chemists in the UK, and by
compounding pharmacists in North America. A similar technique can be used
for those on other benzodiazepines who find it hard to substitute diazepam.
To locate a compounding pharmacist in the USA or Canada this web site may
be useful: www.iacprx.org.
Care must be taken to ensure that the compounding pharmacist can guarantee
the same formula on each prescription renewal. It should be noted, however,
that this approach to benzodiazepine withdrawal can be troublesome and is
not recommended for general use.
(3)
Designing and following the withdrawal schedule. Some examples of withdrawal schedules
are given on later pages. Most of them are actual schedules which have been
used and found to work by real people who withdrew successfully. But each
schedule must be tailored to individual needs; no two schedules are necessarily
the same. Below is a summary of points to consider when drawing up your own
schedule.
1.
Design the schedule around your own
symptoms. For example, if insomnia is a major problem, take most of your dosage
at bedtime; if getting out of the house in the morning is a difficulty, take
some of the dose first thing (but not a large enough dose to make you sleepy
or incompetent at driving!).
2.
When switching over to diazepam,
substitute one dose at a time, usually starting with the evening or night-time
dose, then replace the other doses, one by one, at intervals of a few days
or a week. Unless you are starting from very large doses, there is no need
to aim for a reduction at this stage; simply aim for an approximately equivalent
dosage. When you have done this, you can start reducing the diazepam slowly.
If, however, you are
on a high dose, such as 6mg alprazolam (equivalent to 120mg diazepam), you
may need to undertake some reduction while switching over, and may need to
switch only part of the dosage at a time (see Schedule 1). The aim
is to find a dose of diazepam which largely prevents withdrawal symptoms but
is not so excessive as to make you sleepy.
3.
Diazepam is very slowly eliminated
and needs only, at most, twice daily administration to achieve smooth blood
concentrations. If you are taking benzodiazepines three or four times a day
it is advisable to space out your dosage to twice daily once you are on diazepam.
The less often you take tablets the less your day will revolve around your
medication.
4.
The larger the dose you are taking
initially, the greater the size of each dose reduction can be. You could aim
at reducing dosage by up to one tenth at each decrement. For example, if you
are taking 40mg diazepam equivalent you could reduce at first by 2-4mg every
week or two. When you are down to 20mg, reductions could be 1-2mg weekly or
fortnightly. When you are down to 10mg, 1mg reductions are probably indicated.
From 5mg diazepam some people prefer to reduce by 0.5mg every week or two.
5.
There is no need to draw up your
withdrawal schedule right up to the end. It is usually sensible to plan the
first few weeks and then review and if necessary amend your schedule according
to your progress. Prepare your doctor to be flexible and to be ready for your
schedule to be adjusted to a slower (or faster) pace at any time.
6.
As far as possible, never go backwards.
You can stand still at a certain stage in your schedule and have a vacation
from further withdrawal for a few weeks if circumstances change (if for instance
there is a family crisis), but try to avoid ever increasing the dosage again.
You don't want to back over ground you have already covered.
7.
Avoid taking extra tablets in times
of stress. Learn to gain control over your symptoms. This will give you extra
confidence that you can cope without benzodiazepines (see Chapter III, Withdrawal
Symptoms).
8.
Avoid compensating for benzodiazepines
by increasing your intake of alcohol, cannabis or non-prescription drugs.
Occasionally your doctor may suggest other drugs for particular symptoms (see
Chapter III, Withdrawal
Symptoms), but do not take the sleeping tablets zolpidem (Ambien), zopiclone
(Zimovane, Imovane) or Zaleplon (Sonata) as they have the same actions as
benzodiazepines.
9.
Getting off the last tablet: Stopping
the last few milligrams is often viewed as particularly difficult. This is
mainly due to fear of how you will cope without any drug at all. In fact,
the final parting is surprisingly easy. People are usually delighted by the
new sense of freedom gained. In any case the 1mg or 0.5mg diazepam per day
which you are taking at the end of your schedule is having little effect apart
from keeping the dependence going. Do not be tempted to spin out the withdrawal
to a ridiculously slow rate towards the end (such as 0.25mg each month). Take
the plunge when you reach 0.5mg daily; full recovery cannot begin until you
have got off your tablets completely. Some people after completing withdrawal
like to carry around a few tablets with them for security "just in case",
but find that they rarely if ever use them.
10.
Do not become obsessed with your
withdrawal schedule. Let it just become a normal way of life for the next
few months. Okay, you are withdrawing from your benzodiazepines; so are many
others. It's no big deal.
11.
If for any reason you do not (or
did not) succeed at your first attempt at benzodiazepine withdrawal, you can
always try again. They say that most smokers make 7 or 8 attempts before they
finally give up cigarettes. The good news is that most long-term benzodiazepine
users are successful after the first attempt. Those who need a second try
have usually been withdrawn too quickly the first time. A slow and steady
benzodiazepine withdrawal, with you in control, is nearly always successful.
(4)
Withdrawal in older people. Older people can withdraw from benzodiazepines as successfully as younger
people, even if they have taken the drugs for years. A recent trial with an
elderly population of 273 general practice patients on long-term (mean 15
years) benzodiazepines showed that voluntary dosage reduction and total withdrawal
of benzodiazepines was accompanied by better sleep, improvement in psychological
and physical health and fewer visits to doctors. These findings have been
repeated in several other studies of elderly patients taking benzodiazepines
long-term.
There
are particularly compelling reasons why older people should withdraw from
benzodiazepines since, as age advances, they become more prone to falls and
fractures, confusion, memory loss and psychiatric problems (see Chapter 1).
Methods
of benzodiazepine withdrawal in older people are similar to those recommended
above for younger adults. A slow tapering regimen, in my experience, is easily
tolerated, even by people in their 80s who have taken benzodiazepines for
20 or more years. The schedule may include the use of liquid preparations
if available and judicious stepwise substitution with diazepam (Valium) if
necessary. There is, of course, a great deal of variation in the age at which
individuals become "older" - perhaps 65-70 years would fit the definition
in most cases.
(5)
Antidepressants.
Many people taking benzodiazepines long-term have also been prescribed antidepressant
drugs because of developing depression, either during chronic use or during
withdrawal. Antidepressant drugs should also be tapered slowly since they
too can cause a withdrawal reaction (euphemistically labelled "antidepressant
discontinuation reaction" by psychiatrists). If you are taking an antidepressant
drug as well as a benzodiazepine it is best to complete the benzodiazepine
withdrawal before starting to taper the antidepressant. A list of antidepressant
drugs and brief advice on how to taper them is given in Schedule
13 of this chapter. Some antidepressant withdrawal ("discontinuation")
symptoms are shown in Chapter III (Table 2).
The
above summary applies to people who are planning to manage their own withdrawal
- probably the majority of readers. Those who have the help of a knowledgeable
and understanding doctor or counsellor may wish to share the burden somewhat.
In my withdrawal clinic I used usually to draw up a draft schedule which I
discussed with each patient. Most patients took a close interest in the schedule
and suggested amendments from time to time. However, there were some who preferred
not to think about the details too much but simply to follow the schedule
rigidly to the end. This group was equally successful. A very few (probably
about 20 patients out of 300) wished to know nothing about the schedule, but
just to follow instructions; some of these also entered a clinical trial of
withdrawal. For this group (with their consent or by their own request), dummy
tablets were gradually substituted for the benzodiazepines. This method was
also successful and at the end of the process the patients were amazed and
delighted when they found they had been off benzodiazepines and taking only
dummy tablets for the last 4 weeks. There are more ways than one of killing
a cat, as they say!
FURTHER
READING
·
Ashton, H. (1994) The
treatment of benzodiazepine dependence. Addiction 89;1535-1541.
·
Trickett, S. (1998) Coming
off Tranquillisers, Sleeping Pills and Antidepressants. Thorsons, London.
A variety
of withdrawal schedules from several benzodiazepines are illustrated on the
following pages. Schedules such as these have worked on real people, but you
may need to adapt them for your own needs. Reference to Table 1, Chapter I, which
shows the equivalent strengths of different benzodiazepines, should enable
you to work out your own programme and to devise an appropriate schedule for
benzodiazepines such as prazepam (Centrax) and quazepam (Doral) and others
which are not illustrated.
In my
experience, the only exception to the general rule of slow reduction is triazolam
(Halcion). This benzodiazepine is eliminated so quickly (half-life 2 hours)
that you are practically withdrawn each day, after a dose the night before.
For this reason, triazolam can be stopped abruptly without substitution of
a long-acting benzodiazepine. If withdrawal symptoms occur, you could take
a short course of diazepam starting at about 10mg, decreasing the dosage as
shown on Schedule
2. The same approach applies to the non-benzodiazepines zolpidem and zaleplon
which both have half-lives of 2 hours.
SLOW WITHDRAWAL SCHEDULES
A variety of withdrawal
schedules from several benzodiazepines are illustrated below. Schedules such
as these have worked on real people, but you may need to adapt them for your
own needs. Reference to Table 1, Chapter I, which
shows the equivalent strengths of different benzodiazepines, should enable
you to work out your own programme and to devise an appropriate schedule for
benzodiazepines such as prazepam (Centrax) and quazepam (Doral) and others
which are not illustrated.
In my experience, the
only exception to the general rule of slow reduction is triazolam (Halcion).
This benzodiazepine is eliminated so quickly (half-life 2 hours) that you
are practically withdrawn each day, after a dose the night before. For this
reason, triazolam can be stopped abruptly without substitution of a long-acting
benzodiazepine. If withdrawal symptoms occur, you could take a short course
of diazepam starting at about 10mg, decreasing the dosage as shown on Schedule 2. The same approach applies
to the non-benzodiazepines zolpidem and zaleplon which both have half-lives
of 2 hours.
· 1. Withdrawal from high dose (6mg) alprazolam
(Xanax) daily with diazepam (Valium) substitution
· 2. Simple withdrawal from diazepam (Valium)
40mg daily
· 3. Withdrawal from lorazepam (Ativan)
6mg daily with diazepam (Valium) substitution
· 4. Withdrawal from nitrazepam (Mogadon)
10mg at night with diazepam (Valium) substitution
· 5. Withdrawal from clonazepam (Klonopin)
1.5mg daily with substitution of diazepam (Valium)
· 6. Withdrawal from clonazepam (Klonopin)
3mg daily with substitution of diazepam (Valium)
· 7. Withdrawal from alprazolam (Xanax)
4mg daily with diazepam (Valium) substitution
· 8. Withdrawal from lorazepam (Ativan)
3mg daily with diazepam (Valium) substitution
· 9. Withdrawal from temazepam (Restoril)
30mg nightly with diazepam (Valium) substitution
· 11. Withdrawal from chlordiazepoxide
(Librium) 25mg three times daily (75mg)
· 12. Withdrawal from zopiclone (Zimovane)
15mg with diazepam (Valium) substitution
· 13. Antidepressant Withdrawal Table
Schedule 1. Withdrawal from high dose (6mg) alprazolam (Xanax
daily with diazepam (Valium) substitution. (6mg alprazolam
is approximately equivalent to 120mg diazepam)
| |
Morning |
Midday/Afternoon |
Evening/Night |
Daily Diazepam |
| Starting
dosage |
alprazolam
2mg |
alprazolam
2mg |
alprazolam
2mg |
120mg |
| Stage
1 |
alprazolam
2mg |
alprazolam
2mg |
alprazolam
1.5mg |
120mg |
| Stage
2 |
alprazolam
2mg |
alprazolam
2mg |
alprazolam
1mg |
120mg |
| Stage
3 |
alprazolam
1.5mg |
alprazolam
2mg |
alprazolam
1mg |
120mg |
| Stage
4 |
alprazolam
1mg |
alprazolam
2mg |
alprazolam
1mg |
120mg |
| Stage
5 |
alprazolam
1mg |
alprazolam
1mg |
alprazolam
1mg |
110mg |
| Stage
6 |
alprazolam
1mg |
alprazolam
1mg |
alprazolam
0.5mg |
100mg |
| Stage
7 |
alprazolam
1mg |
alprazolam
1mg |
Stop
alprazolam |
90mg |
| Stage
8 |
alprazolam
0.5mg |
alprazolam
1mg |
diazepam
20mg |
80mg |
| Stage
9 |
alprazolam
0.5mg |
alprazolam
0.5mg |
diazepam
20mg |
80mg |
| Stage
10 |
alprazolam
0.5mg |
Stop
alprazolam |
diazepam
20mg |
60mg |
| Stage
11 |
Stop
alprazolam |
diazepam
10mg |
diazepam
20mg |
50mg |
| Stage
12 |
diazepam
25mg |
Stop
midday dose; |
diazepam
25mg |
50mg |
| Stage
13 |
diazepam
20mg |
-- |
diazepam
25mg |
45mg |
| Stage
14 |
diazepam
20mg |
-- |
diazepam
20mg |
40mg |
Continue as on Schedule 2, reducing from diazepam
40mg
Schedule 1 Notes:
1.
There is no actual withdrawal (only
diazepam substitution) in Stages 1-4, so these could be undertaken at weekly
intervals (but you could take 2 weeks for each stage if preferred).
2.
The evening dose of diazepam could
be taken at bed-time, rather than with the alprazolam if that is usually taken
earlier. (Do not take any other sleeping tablet).
3.
Some dosage reduction occurs in later
stages of the diazepam switchover (Stages 5-11), so these stages could be
undertaken at two week intervals. Even at reducing doses, the diazepam should
cover withdrawal from alprazolam, because by this time it has had time to
work through the body and will be acting smoothly both day and night. The
aim is to obtain a dose of diazepam which avoids withdrawal symptoms but is
not so great as to make you sleepy.
4.
At Stage 12 it would be sensible to
move to twice daily dosage. Diazepam is long-acting and there is no need to
take it more than twice a day. There is no reduction in dosage while you make
this change (Stages 11 and 12).
Schedule 2. Simple withdrawal from
diazepam (Valium) 40mg daily
(follow this schedule to complete Schedule
1)
| |
Morning |
Night |
Total |
| Starting
dosage |
diazepam
20mg |
diazepam
20mg |
40mg |
| Stage
1 (1-2 weeks) |
diazepam
18mg |
diazepam
20mg |
38mg |
| Stage
2 (1-2 weeks) |
diazepam
18mg |
diazepam
18mg |
36mg |
| Stage
3 (1-2 weeks) |
diazepam
16mg |
diazepam
18mg |
34mg |
| Stage
4 (1-2 weeks) |
diazepam
16mg |
diazepam
16mg |
32mg |
| Stage
5 (1-2 weeks) |
diazepam
14mg |
diazepam
16mg |
30mg |
| Stage
6 (1-2 weeks) |
diazepam
14mg |
diazepam
14mg |
28mg |
| Stage
7 (1-2 weeks) |
diazepam
12mg |
diazepam
14mg |
26mg |
| Stage
8 (1-2 weeks) |
diazepam
12mg |
diazepam
12mg |
24mg |
| Stage
9 (1-2 weeks) |
diazepam
10mg |
diazepam
12mg |
22mg |
| Stage
10 (1-2 weeks) |
diazepam
10mg |
diazepam
10mg |
20mg |
| Stage
11 (1-2 weeks) |
diazepam
8mg |
diazepam
10mg |
18mg |
| Stage
12 (1-2 weeks) |
diazepam
8mg |
diazepam
8mg |
16mg |
| Stage
13 (1-2 weeks) |
diazepam
6mg |
diazepam
8mg |
14mg |
| Stage
14 (1-2 weeks) |
diazepam
5mg |
diazepam
8mg |
13mg |
| Stage
15 (1-2 weeks) |
diazepam
4mg |
diazepam
8mg |
12mg |
| Stage
16 (1-2 weeks) |
diazepam
3mg |
diazepam
8mg |
11mg |
| Stage
17 (1-2 weeks) |
diazepam
2mg |
diazepam
8mg |
10mg |
| Stage
18 (1-2 weeks) |
diazepam
1mg |
diazepam
8mg |
9mg |
| Stage
19 (1-2 weeks) |
-- |
diazepam
8mg |
8mg |
| Stage
20 (1-2 weeks) |
-- |
diazepam
7mg |
7mg |
| Stage
21 (1-2 weeks) |
-- |
diazepam
6mg |
6mg |
| Stage
22 (1-2 weeks) |
-- |
diazepam
5mg |
5mg |
| Stage
23 (1-2 weeks) |
-- |
diazepam
4mg |
4mg |
| Stage
24 (1-2 weeks) |
-- |
diazepam
3mg |
3mg |
| Stage
25 (1-2 weeks) |
-- |
diazepam
2mg |
2mg |
| Stage
26 (1-2 weeks) |
-- |
diazepam
1mg |
1mg |
Schedule
2 Notes:
1.
You could probably manage Stages 1-5
(or even Stages 1-10) in weekly intervals (but take 2 weeks between stages
if you prefer).
2.
The later stages are probably better
taken in 2 week intervals.
3.
When you get down to a dose of 5mg
daily, you could begin to decrease in 0.5mg doses, but most people manage
with 1mg reductions.
4.
You will need to utilise a mixture
of 10mg, 5mg, and 2mg diazepam tablets to obtain the required dosages. Halve
the (scored) 2mg tablet to obtain 1mg doses.
5.
If your starting dose is 20mg diazepam
daily, you could begin at Stage 10, but in this case you could reduce by 1mg
every 2 weeks.
6.
If starting from Schedule 1 (alprazolam 6mg daily)
continue your reduction using this schedule.
Schedule 3. Withdrawal from lorazepam
(Ativan) 6mg daily
with diazepam (Valium) substitution. (6mg lorazepam is
approximately equivalent to 60mg diazepam)
| |
Morning |
Midday/Afternoon |
Evening/Night |
Daily Diazepam |
| Starting
dosage |
lorazepam
2mg |
lorazepam
2mg |
lorazepam
2mg |
60mg |
| Stage
1 |
lorazepam
2mg |
lorazepam
2mg |
lorazepam
1mg |
60mg |
| Stage
2 |
lorazepam
1.5mg |
lorazepam
2mg |
lorazepam
1mg |
60mg |
| Stage
3 |
lorazepam
1.5mg |
lorazepam
2mg |
lorazepam
0.5mg |
60mg |
| Stage
4 |
lorazepam
1.5mg |
lorazepam
1.5mg |
lorazepam
0.5mg |
60mg |
| Stage
5 |
lorazepam
1.5mg |
lorazepam
1.5mg |
Stop
lorazepam |
60mg |
| Stage
6 |
lorazepam
1mg |
lorazepam
1.5mg |
diazepam
20mg |
55mg |
| Stage
7 |
lorazepam
1mg |
lorazepam
1mg |
diazepam
20mg |
50mg |
| Stage
8 |
lorazepam
0.5mg |
lorazepam
1mg |
diazepam
20mg |
45mg |
| Stage
9 |
lorazepam
0.5mg |
lorazepam
0.5mg |
diazepam
20mg |
40mg |
| Stage
10 |
Stop
lorazepam |
lorazepam
0.5mg |
diazepam
20mg |
35mg |
| Stage
11 |
diazepam
5mg |
Stop
lorazepam |
diazepam
20mg |
30mg |
| Stage
12 |
diazepam
5mg |
diazepam
5mg |
diazepam
18mg |
28mg |
| Stage
13 |
diazepam
5mg |
diazepam
5mg |
diazepam
16mg |
26mg |
| Stage
14 |
diazepam
5mg |
diazepam
5mg |
diazepam
14mg |
24mg |
| Stage
15 |
diazepam
5mg |
diazepam
5mg |
diazepam
12mg |
22mg |
| Stage
16 |
diazepam
5mg |
diazepam
5mg |
diazepam
10mg |
20mg |
| Stage
17 |
diazepam
5mg |
diazepam
4mg |
diazepam
10mg |
19mg |
| Stage
18 |
diazepam
4mg |
diazepam
4mg |
diazepam
10mg |
18mg |
| Stage
19 |
diazepam
4mg |
diazepam
3mg |
diazepam
10mg |
17mg |
| Stage
20 |
diazepam
3mg |
diazepam
3mg |
diazepam
10mg |
16mg |
| Stage
21 |
diazepam
3mg |
diazepam
2mg |
diazepam
10mg |
15mg |
| Stage
22 |
diazepam
2mg |
diazepam
2mg |
diazepam
10mg |
14mg |
| Stage
23 |
diazepam
2mg |
diazepam
1mg |
diazepam
10mg |
13mg |
| Stage
24 |
diazepam
1mg |
diazepam
1mg |
diazepam
10mg |
12mg |
| Stage
25 |
diazepam
1mg |
Stop
diazepam |
diazepam
10mg |
11mg |
| Stage
26 |
Stop
diazepam |
-- |
diazepam
10mg |
10mg |
| Stage
27 |
-- |
-- |
diazepam
9mg |
9mg |
| Stage
28 |
-- |
-- |
diazepam
8mg |
8mg |
| Stage
29 |
-- |
-- |
diazepam
7mg |
7mg |
| Stage
30 |
-- |
-- |
diazepam
6mg |
6mg |
| Stage
31 |
-- |
-- |
diazepam
5mg |
5mg |
| Stage
32 |
-- |
-- |
diazepam
4mg |
4mg |
| Stage
33 |
-- |
-- |
diazepam
3mg |
3mg |
| Stage
34 |
-- |
-- |
diazepam
2mg |
2mg |
| Stage
35 |
-- |
-- |
diazepam
1mg |
1mg |
| Stage
36 |
-- |
-- |
Stop
diazepam |
-- |
Schedule
3 Notes:
1.
There is no actual withdrawal (only
diazepam substitution) in Stages 1-5, so these could be undertaken at weekly
intervals (but you could take 2 weeks if preferred).
2.
The evening dose of diazepam could
be taken at bed-time, rather than with the lorazepam if that is usually taken
earlier.(Do not take any other sleeping tablet).
3.
Some dosage reduction occurs during
the later stages of the diazepam switchover (Stages 6-11), so these stages
could be undertaken at two week intervals. Even at reducing doses, the diazepam
should cover withdrawal from lorazepam, because by this time it has had time
to work through the body and will be acting smoothly both day and night. The
aim is to obtain a dose of diazepam which avoids withdrawal symptoms but is
not so great as to make you sleepy.
4.
Day-time doses of diazepam are gradually
phased out (Stages 17-25); in succeeding stages you only need to phase out
the night-time dose by 1mg every week or two.
5.
A mixture of 10mg, 5mg and 2mg diazepam
tablets will be needed to obtain the required doses. Halve the (scored) 2mg
tablets to obtain 1mg doses.
Schedule 4. Withdrawal from nitrazepam
(Mogadon) 10mg at
night with diazepam (Valium) substitution. (Nitrazepam
is approximately the same strength as diazepam)
| |
Bed-time dose |
| Starting
dosage |
nitrazepam
10mg |
| Stage
1 (1 week) |
nitrazepam
5mg |
| Stage
2 (1 week) |
Stop
nitrazepam |
| Stage
3 (1-2 weeks) |
diazepam
9mg |
| Stage
4 (1-2 weeks) |
diazepam
8mg |
| Stage
5 (1-2 weeks) |
diazepam
7mg |
| Stage
6 (1-2 weeks) |
diazepam
6mg |
| Stage
7 (1-2 weeks) |
diazepam
5mg |
| Stage
8 (1-2 weeks) |
diazepam
4mg |
| Stage
9 (1-2 weeks) |
diazepam
3mg |
| Stage
10 (1-2 weeks) |
diazepam
2mg |
| Stage
11 (1-2 weeks) |
diazepam
1mg |
| Stage
12 |
Stop
diazepam |
Schedule
4 Notes:
·
If you are taking more than
10mg nitrazepam, replace each 5mg nitrazepam, one at a time, with 5mg diazepam,
then reduce the diazepam in 1mg or 2mg stages.
Schedule 5. Withdrawal from clonazepam
(Klonopin) 1.5mg daily with
substitution of diazepam (Valium). (0.5mg clonazepam
is approximately equivalent to 10mg diazepam)
| |
Morning |
Midday/Afternoon |
Evening/Night |
Daily Diazepam |
| Starting
dosage |
clonazepam
0.5mg |
clonazepam
0.5mg |
clonazepam
0.5mg |
30mg |
| Stage
1 |
clonazepam
0.5mg |
clonazepam
0.5mg |
clonazepam
0.25mg |
30mg |
| Stage
2 |
clonazepam
0.5mg |
clonazepam
0.5mg |
Stop
clonazepam |
30mg |
| Stage
3 |
clonazepam
0.25mg |
clonazepam
0.5mg |
diazepam
10mg |
30mg |
| Stage
4 |
clonazepam
0.25mg |
clonazepam
0.25mg |
diazepam
10mg |
30mg |
| Stage
5 |
Stop
clonazepam |
clonazepam
0.25mg |
diazepam
10mg |
30mg |
| Stage
6 |
diazepam
10mg |
Stop
clonazepam |
diazepam
10mg |
28mg |
| Stage
7 |
diazepam
10mg |
diazepam
6mg |
diazepam
10mg |
26mg |
| Stage
8 |
diazepam
10mg |
diazepam
4mg |
diazepam
10mg |
24mg |
| Stage
9 |
diazepam
10mg |
diazepam
2mg |
diazepam
10mg |
22mg |
| Stage
10 |
diazepam
10mg |
Stop
diazepam |
diazepam
10mg |
20mg |
| Stage
11 |
diazepam
8mg |
-- |
diazepam
10mg |
18mg |
| Stage
12 |
diazepam
6mg |
-- |
diazepam
10mg |
16mg |
| Stage
13 |
diazepam
4mg |
-- |
diazepam
10mg |
14mg |
| Stage
14 |
diazepam
2mg |
-- |
diazepam
10mg |
12mg |
| Stage
15 |
Stop
diazepam |
-- |
diazepam
10mg |
10mg |
| Continue reducing remaining diazepam by 1 mg every 2
weeks (see Schedule 3
Stage 26) |
||||
Schedule 6. Withdrawal from clonazepam
(Klonopin) 3mg
daily with substitution of diazepam (Valium).
(1 mg clonazepam is equivalent to 20mg diazepam)
| |
Morning |
Midday/Afternoon |
Evening/Night |
Daily Diazepam |
| Starting
dosage |
clonazepam
1mg |
clonazepam
1mg |
clonazepam
1mg |
60mg |
| Stage
1 |
clonazepam
1mg |
clonazepam
1mg |
clonazepam
0.5mg |
60mg |
| Stage
2 |
clonazepam
0.5mg |
clonazepam
1mg |
clonazepam
0.5mg |
60mg |
| Stage
3 |
clonazepam
0.5mg |
clonazepam
0.5mg |
clonazepam
0.5mg |
55mg |
| Stage
4 |
clonazepam
0.5mg |
clonazepam
0.5mg |
Stop
clonazepam |
50mg |
| Stage
5 |
clonazepam
0.25mg |
clonazepam
0.5mg |
diazepam
15mg |
45mg |
| Stage
6 |
clonazepam
0.25mg |
clonazepam
0.25mg |
diazepam
15mg |
40mg |
| Stage
7 |
Stop
clonazepam |
clonazepam
0.25mg |
diazepam
15mg |
35mg |
| Stage
8 |
diazepam
10mg |
Stop
clonazepam |
diazepam
15mg |
30mg |
| Stage
9 |
diazepam
10mg |
diazepam
2.5mg |
diazepam
15mg |
27.5mg |
| Stage
10 |
diazepam
12mg |
Stop
diazepam |
diazepam
15mg |
27mg |
| Stage
11 |
diazepam
10mg |
-- |
diazepam
15mg |
25mg |
| Stage
12 |
diazepam
10mg |
-- |
diazepam
14mg |
24mg |
| Stage
13 |
diazepam
10mg |
-- |
diazepam
12mg |
22mg |
| Stage
14 |
diazepam
10mg |
-- |
diazepam
10mg |
20mg |
| Continue from Schedule 5, Stage 10 |
||||
Schedule
6 Notes:
·
The small reduction (27.5mg
to 27mg) between Stages 9 and 10 is to allow you to adjust to twice daily
dose.
Schedule 7. Withdrawal from alprazolam
(Xanax) 4mg daily with
diazepam (Valium) substitution (4mg alprazolam is
approximately equivalent to 80mg diazepam)
| |
Morning |
Midday |
Afternoon |
Evening |
Daily Diazepam |
| Starting
dosage |
alprazolam
1mg |
alprazolam
1mg |
alprazolam
1mg |
alprazolam
1mg |
80mg |
| Stage
1 |
alprazolam
1mg |
alprazolam
1mg |
alprazolam
1mg |
alprazolam
0.5mg |
80mg |
| Stage
2 |
alprazolam
1mg |
alprazolam
0.5mg |
alprazolam
1mg |
alprazolam
0.5mg |
80mg |
| Stage
3 |
alprazolam
0.5mg |
alprazolam
0.5mg |
alprazolam
1mg |
alprazolam
0.5mg |
80mg |
| Stage
4 |
alprazolam
0.5mg |
alprazolam
0.5mg |
alprazolam
0.5mg |
alprazolam
0.5mg |
80mg |
| Stage
5 |
alprazolam
0.5mg |
alprazolam
0.5mg |
alprazolam
0.5mg |
alprazolam
0.5mg |
80mg |
| Stage
6 |
alprazolam
0.5mg |
alprazolam
0.25mg |
alprazolam
0.5mg |
diazepam
20mg |
75mg |
| Stage
7 |
alprazolam
0.25mg |
alprazolam
0.25mg |
alprazolam
0.5mg |
diazepam
20mg |
70mg |
| Stage
8 |
alprazolam
0.25mg |
alprazolam
0.25mg |
alprazolam
0.25mg |
diazepam
20mg |
65mg |
| Stage
9 |
alprazolam
0.25mg |
Stop
alprazolam |
alprazolam
0.25mg |
diazepam
20mg |
60mg |
| Stage
10 |
Stop
alprazolam |
diazepam
10mg |
alprazolam
0.25mg |
diazepam
20mg |
55mg |
| Stage
11 |
|
diazepam
10mg |
Stop
alprazolam |
diazepam
20mg |
50mg |
| Stage
12 |
|
diazepam
5mg |
diazepam
10mg |
diazepam
20mg |
45mg |
| Stage
13 |
|
diazepam
5mg |
diazepam
10mg |
diazepam
20mg |
40mg |
| Stage
14 |
|
diazepam
5mg |
diazepam
5mg |
diazepam
20mg |
35mg |
| Stage
15 |
|
diazepam
5mg |
diazepam
5mg |
diazepam
15mg |
30mg |
| Stage
16 |
|
diazepam
5mg |
diazepam
5mg |
diazepam
12.5mg |
27.5mg |
| Stage
17 |
|
diazepam
5mg |
diazepam
5mg |
diazepam
10mg |
25mg |
| Stage
18 |
|
diazepam
2.5mg |
diazepam
5mg |
diazepam
10mg |
22.5mg |
| Stage
19 |
|
Stop
diazepam |
diazepam
5mg |
diazepam
10mg |
20mg |
| Stage
20 |
|
-- |
diazepam
5mg |
diazepam
10mg |
19mg |
| Stage
21 |
|
-- |
diazepam
4mg |
diazepam
10mg |
18mg |
| Stage
22 |
|
-- |
diazepam
3mg |
diazepam
10mg |
17mg |
| Stage
23 |
|
-- |
diazepam
3mg |
diazepam
10mg |
16mg |
| Stage
24 |
|
-- |
diazepam
2mg |
diazepam
10mg |
15mg |
| Stage
25 |
|
-- |
diazepam
2mg |
diazepam
10mg |
14mg |
| Stage
26 |
|
-- |
Stop
diazepam |
diazepam
10mg |
12mg |
| Stage
27 |
Stop
diazepam |
-- |
-- |
diazepam
10mg |
10mg |
| Continue reducing diazepam by 1mg every 2 weeks (see
Schedule 3, Stage 26) |
|||||
Schedule
7 Notes:
·
The evening diazepam dose
can be taken at bed-time, rather than with alprazolam if that is usually taken
earlier.
Schedule 8. Withdrawal from lorazepam
(Ativan) 3mg daily with
diazepam (Valium substitution. (3mg lorazepam
is approximately equivalent to 30mg diazepam)
| |
Morning |
Midday/Afternoon |
Evening/Night |
Daily Diazepam |
| Starting
dosage |
lorazepam
1 mg |
lorazepam
1 mg |
lorazepam
1 mg |
30mg |
| Stage
1 |
lorazepam
1 mg |
lorazepam
1 mg |
lorazepam
0.5mg |
30mg |
| Stage
2 |
lorazepam
0.5mg |
lorazepam
1 mg |
lorazepam
0.5mg |
30mg |
| Stage
3 |
lorazepam
0.5mg |
lorazepam
0.5mg |
lorazepam
0.5mg |
30mg |
| Stage
4 |
lorazepam
0.5mg |
lorazepam
0.5mg |
Stop
lorazepam |
30mg |
| Stage
5 |
Stop
lorazepam |
lorazepam
0.5mg |
diazepam
10mg |
30mg |
| Stage
6 |
diazepam
10mg |
Stop
lorazepam |
diazepam
10mg |
30mg |
| Stage
7 |
diazepam
10mg |
diazepam
8mg |
diazepam
10mg |
28mg |
| Stage
8 |
diazepam
8mg |
diazepam
8mg |
diazepam
10mg |
26mg |
| Stage
9 |
diazepam
8mg |
diazepam
6mg |
diazepam
10mg |
24mg |
| Stage
10 |
diazepam
6mg |
diazepam
6mg |
diazepam
10mg |
22mg |
| Stage
11 |
diazepam
6mg |
diazepam
4mg |
diazepam
10mg |
20mg |
| Stage
12 |
diazepam
6mg |
diazepam
2mg |
diazepam
10mg |
18mg |
| Stage
13 |
diazepam
6mg |
Stop
diazepam |
diazepam
10mg |
16mg |
| Stage
14 |
diazepam
5mg |
-- |
diazepam
10mg |
15mg |
| Stage
15 |
diazepam
4mg |
-- |
diazepam
10mg |
14mg |
| Stage
16 |
diazepam
3mg |
-- |
diazepam
10mg |
13mg |
| Stage
17 |
diazepam
2mg |
-- |
diazepam
10mg |
12mg |
| Stage
18 |
diazepam
1mg |
-- |
diazepam
10mg |
11mg |
| Stage
19 |
Stop
diazepam |
-- |
diazepam
10mg |
10mg |
| Continue reducing night time diazepam by 1 mg every
1-2 weeks (See Schedule
3, Stage 26) |
||||
Schedule 9. Withdrawal from temazepam
(Restoril) 30mg
nightly with diazepam substitution. (30mg temazepam is
approximately equivalent to 15mg diazepam)
| |
Night time |
|
| Starting
dosage |
temazepam
30mg |
15mg |
| Stage
1 (1-2 weeks) |
temazepam
15mg |
15mg |
| Stage
2 (1-2 weeks) |
temazepam
7.5mg |
15.75mg |
| Stage
3 (1-2 weeks) |
Stop
temazepam |
15mg |
| Stage
4 (1-2 weeks) |
diazepam
14mg |
14mg |
| Stage
5 (1-2 weeks) |
diazepam
13mg |
13mg |
| Stage
6 (1-2 weeks) |
diazepam
12mg |
12mg |
| Stage
7 (1-2 weeks) |
diazepam
11mg |
11mg |
| Stage
8 (1-2 weeks) |
diazepam
10mg |
10mg |
| Stage
9 (1-2 weeks) |
diazepam
9mg |
9mg |
| Stage
10 (1-2 weeks) |
diazepam
8mg |
8mg |
| Stage
11 (1-2 weeks) |
diazepam
7mg |
7mg |
| Stage
12 (1-2 weeks) |
diazepam
6mg |
6mg |
| Stage
13 (1-2 weeks) |
diazepam
5mg |
5mg |
| Stage
14 (1-2 weeks) |
diazepam
4mg |
4mg |
| Stage
15 (1-2 weeks) |
diazepam
3mg |
3mg |
| Stage
16 (1-2 weeks) |
diazepam
2mg |
2mg |
| Stage
17 (1-2 weeks) |
diazepam
1mg |
1mg |
| Stage
18 |
Stop
diazepam |
-- |
Schedule 10. Withdrawal from oxazepam
(Serax) 20mg three times
daily (60mg) with diazepam (Valium) substitution (20mg
oxazepam is approximately equivalent to 10mg diazepam)
| |
Morning |
Midday |
Evening/Night |
Daily Diazepam |
| Starting
dosage |
oxazepam
20mg |
oxazepam
20mg |
oxazepam
20mg |
30mg |
| Stage
1 |
oxazepam
20mg |
oxazepam
20mg |
oxazepam
10mg |
30mg |
| Stage
2 |
oxazepam
10mg |
oxazepam
20mg |
oxazepam
10mg |
30mg |
| Stage
3 |
oxazepam
10mg |
oxazepam
10mg |
oxazepam
10mg |
30mg |
| Stage
4 |
oxazepam
10mg |
oxazepam
10mg |
Stop
oxazepam |
28mg |
| Stage
5 |
Stop
oxazepam |
oxazepam
10mg |
diazepam
8mg |
26mg |
| Stage
6 |
diazepam
8mg |
Stop
oxazepam |
diazepam
8mg |
24mg |
| Stage
7 |
diazepam
10mg |
diazepam
2mg |
diazepam
10mg |
22mg |
| Stage
8 |
diazepam
10mg |
Stop
diazepam |
diazepam
10mg |
20mg |
| Stage
9 |
diazepam
8mg |
-- |
diazepam
10mg |
18mg |
| Continue as on Schedule 2 from Stage 12 |
||||
Schedule
10 Notes:
1.
Oxazepam is short-acting (half-life
4-15 hrs) so substitution to diazepam (long-acting) is recommended.
2.
Diazepam need only be taken twice
a day.
3.
A change from 5mg to 2mg diazepam
tablets is necessary from Stage 4 onwards.
Schedule 11. Withdrawal from chlordiazepoxide
(Librium) 25mg
three times daily (75mg). (25mg chlordiazepoxide
is approximately equivalent to 10mg diazepam)
| |
Morning |
Midday |
Evening/Night |
| Starting
dosage |
chlordiazepoxide
25mg |
chlordiazepoxide
25mg |
chlordiazepoxide
25mg |
| Stage
1 |
chlordiazepoxide
25mg |
chlordiazepoxide
20mg |
chlordiazepoxide
25mg |
| Stage
2 |
chlordiazepoxide
20mg |
chlordiazepoxide
20mg |
chlordiazepoxide
25mg |
| Stage
3 |
chlordiazepoxide
20mg |
chlordiazepoxide
20mg |
chlordiazepoxide
20mg |
| Stage
4 |
chlordiazepoxide
25mg |
chlordiazepoxide
5mg |
chlordiazepoxide
25mg |
| Stage
5 |
chlordiazepoxide
25mg |
Stop
chlordiazepoxide |
chlordiazepoxide
25mg |
| Stage
6 |
chlordiazepoxide
20mg |
-- |
chlordiazepoxide
25mg |
| Stage
7 |
chlordiazepoxide
20mg |
-- |
chlordiazepoxide
20mg |
| Stage
8 |
chlordiazepoxide
15mg |
-- |
chlordiazepoxide
20mg |
| Stage
9 |
chlordiazepoxide
15mg |
-- |
chlordiazepoxide
15mg |
| Stage
10 |
chlordiazepoxide
10mg |
-- |
chlordiazepoxide
15mg |
| Stage
11 |
chlordiazepoxide
10mg |
-- |
chlordiazepoxide
10mg |
| Stage
12 |
chlordiazepoxide
5mg |
-- |
chlordiazepoxide
10mg |
| Stage
13 |
chlordiazepoxide
5mg |
-- |
chlordiazepoxide
5mg |
| Stage
14 |
chlordiazepoxide |
-- |
chlordiazepoxide
5mg |
| Stage
15 |
chlordiazepoxide |
-- |
chlordiazepoxide |
| Stage
16 |
Stop
chlordiazepoxide |
-- |
chlordiazepoxide |
| Stage
17 |
-- |
-- |
Stop
chlordiazepoxide |
Schedule
11 Notes:
1.
Chlordiazepoxide is long-acting so
there is no need to take it more frequently than twice a day (hence Stages
4 and 5).
2.
Because chlordiazepoxide is long-acting,
there is no need for diazepam substitution.
3.
If you are taking chlordiazepoxide
capsules, change to tablets which can be halved for stages 14 onwards.
Schedule 12. Withdrawal from zopiclone
(Zimovane)15mg
with diazepam (Valium) substitution. (15mg zopiclone
is approximately equivalent to 10mg diazepam)
| |
Night time |
Daily Diazepam |
| Starting
dosage |
zopiclone
15mg |
10mg |
| Stage
1 |
zopiclone
7.5mg |
10mg |
| Stage
2 |
Stop
zopiclone |
10mg |
| Stage
3 (1-2 weeks) |
diazepam
9mg |
9mg |
| Stage
4 (1-2 weeks) |
diazepam
8mg |
8mg |
| Then continue reducing diazepam by 1mg every 1-2 weeks
as on Schedule 2 |
||
Schedule
12 Notes:
1.
It is possible to withdraw directly
from zopiclone using the smallest available tablets (3.75mg), but this dose
of zopiclone is equivalent to 2.5mg diazepam making for rather abrupt dosage
reductions.
2.
This method can also be used for withdrawing
from loprazolam and lormetazepam. 1mg of each of these is approximately equivalent
to 10mg diazepam; their half-lives are 6-12 and 10-12 hrs respectively.
Schedule 13. Antidepressant Withdrawal
Table
| Drugs |
Dosage strengths and formulations* |
| Tricyclics |
|
|
amitriptyline (Tryptizol, Elavil) |
tabs
10, 25, 50mg; liquid 25mg/5ml |
|
amoxapine (Asendis) |
tabs
25, 50, 100mg |
|
clomipramine (Anafranil) |
caps
10, 25, 50mg; syrup 25mg/5ml |
|
dothiepin (Prothiaden) |
tabs
25, 75mg |
|
doxepin (Sinequan) |
caps
10, 25, 50, 75mg |
|
imipramine (Tofranil) |
tabs
10, 25mg syrup 25mg/5ml |
|
lofepramine (Gamanil) |
tabs
70mg; liquid 70mg/5ml |
|
nortriptyline (Allegron, Pamelor) |
tabs
10, 25mg |
|
protriptyline (Concordin, Vivactil) |
tabs
5, 10mg |
|
trimipramine (Surmontil) |
tabs
10, 25mg |
| Related
antidepressants |
|
|
maprotiline (Ludiomil) |
tabs
10, 25, 50, 75mg |
|
mianserin (-) |
tabs
10, 30mg |
|
trazodone (Molipaxin, Desyrel) |
caps
50, 100mg; tabs 150mg; liquid 50mg/5ml |
|
viloxazine (Vivalan) |
tabs
50mg |
| MAOIs
(monoamine oxidase inhibitors) |
|
|
phenelzine (Nardil) |
tabs
15mg |
|
moclobemide (Mannerix) |
tabs
150mg |
|
tranylcypromine (Parnate) |
tabs
10mg |
| SSRIs
(selective serotonin reuptake inhibitors) |
|
|
citalopram (Cipramil, Celexa) |
tabs
10, 20, 40mg; liquid 40mg/ml (drops) |
|
fluoxetine (Prozac) |
caps
20, 60mg; liquid 20mg/5ml |
|
fluvoxamine (Faverin, Luvox) |
tabs(s)
50, 100mg |
|
paroxetine (Seroxat, Paxil) |
tabs(s)
20, 30mg; liquid 20mg/5ml |
|
sertraline (Lustral, Zoloft) |
tabs
50, 100mg |
| Others |
|
|
mirtazapine (Zispin, Remeron) |
tabs(s)
30mg |
|
nefazodone (Dutonin, Serzone) |
tabs(s)
100, 200mg |
|
reboxetine (Edronax, Vestra) |
tabs(s)
4mg |
|
venlafaxine (Efexor, Effexor) |
tabs
37.5, 75mg |
| * tabs: tablets, (s) scored; caps: capsules; 5ml = 1
teaspoon |
|
Schedule
13 Notes:
Guidelines
for benzodiazepine users who are also taking an antidepressant and wish to
withdraw from both drugs
1.
Complete the benzodiazepine withdrawal
before starting to taper the antidepressant.
2.
Allow at least 4 weeks after stopping
benzodiazepines before starting on antidepressant withdrawal.
3.
Consult your doctor before starting
to withdraw the antidepressant and agree on a tapering schedule.
4.
Antidepressant withdrawal must be
gradual to avoid withdrawal effects.
a.
Make each dose reduction as small
as possible, e.g. by halving the tablets or using a liquid preparation.
b.
If smaller doses are not available,
reduce by taking a tablet every other day, then every third day, etc.
c.
Allow 1-2 weeks between
each dosage reduction.
d.
If withdrawal symptoms are severe
(Chapter 3, Table
2) increase the dosage slightly (e.g. to the dose at your last reduction).
When symptoms have settled, resume withdrawal at a slower rate.
5.
With slow tapering, as outlined above,
withdrawal symptoms from antidepressants are usually absent, or if they occur,
are mild and short-lived.
(intentionally left blank)
CHAPTER
III
BENZODIAZEPINE WITHDRAWAL SYMPTOMS, ACUTE AND PROTRACTED
Mechanisms of withdrawal reactions
Individual symptoms, their causes and how to deal with them
Insomnia, nightmares,
sleep disturbance
Intrusive memories
Panic attacks
Generalised anxiety,
panics and phobias
Psychological techniques
Complementary medicine
techniques
Exercise and other
techniques
Sensory hypersensitivity
Depersonalisation,
derealisation
Hallucinations,
illusions, perceptual distortions
Depression, aggression,
obsessions
Muscle symptoms
Bodily sensations
Heart and lungs
Problems with balance
Digestive problems
Immune system
Endocrine problems
Fits, convulsions
Extra medication during benzodiazepine
withdrawal
Antidepressants
Beta-blockers
Hypnotics and sedatives
Other drugs
Benzodiazepine use during and after
withdrawal
Diet, fluids and exercise
Smoking
Protracted withdrawal symptoms
Anxiety
Depression
Insomnia
Sensory and motor
disturbances
Possible mechanisms
of persisting sensory and motor symptoms
Poor memory and
cognition
Do benzodiazepines
cause structural brain damage?
Gastrointestinal
symptoms
Coping with protracted
symptoms
How long do benzodiazepines
stay in the body after withdrawal?
Epilogue
Education
Research
Treatment methods
Provision of facilities
Table 1. Benzodiazepine withdrawal symptoms
Table 2. Antidepressant withdrawal
symptoms
Table 3. Some protracted benzodiazepine
withdrawal symptoms
Table 4. Some possible causes
of protracted benzodiazepine withdrawal symptoms
Chapter I described what
benzodiazepines do when they are in the body and how tolerance and dependence
develop. Chapter II
discussed the need for slow withdrawal and gave practical examples of
dosage tapering. This chapter is concerned with what happens as benzodiazepines
leave the body in the course of withdrawal and afterwards. The focus is on
withdrawal symptoms, and how to cope with them if they occur.
It cannot be too strongly
stressed that withdrawal symptoms can be minimised and largely avoided by
slow tapering, tailored to the individual's needs as outlined in Chapter II. However, some
long-term benzodiazepine users begin to experience "withdrawal"
symptoms even though they continue taking the drug. This is due to the development
of drug tolerance (Chapter I) which sometimes
leads doctors to increase the dosage or add another benzodiazepine. Analysis
of the first 50 patients who attended my benzodiazepine withdrawal clinic
showed that all of them had symptoms on first presentation while still on
benzodiazepines (12 of them were taking two prescribed benzodiazepines at
once). Their symptoms included the full range of psychological and physical
symptoms usually described as benzodiazepine withdrawal symptoms. The process
of slow benzodiazepine tapering in these patients caused only slight exacerbation
of these symptoms, which then declined after withdrawal.
People who develop severe
symptoms on benzodiazepine withdrawal have usually come off the drugs too
rapidly. Lack of explanation of the symptoms has often added to their distress
and has introduced fears ("Am I going mad?") which themselves magnify
the symptoms. A few, because of these frightening experiences, have ended
up with a condition akin to post-traumatic stress disorder (PTSD). But a proper
understanding of the reasons for and nature of any symptoms that arise can
do much to allay the bewilderment and fear associated with benzodiazepine
withdrawal and can also help prevent long-term sequelae. Withdrawal reactions
are in fact a normal response to the discontinuation of many chronically used
drugs including alcohol, opiates, antipsychotics, antidepressants, and even
some medications for angina and hypertension.
Mechanisms of withdrawal
reactions. Drug
withdrawal reactions in general tend to consist of a mirror image of the drugs'
initial effects. In the case of benzodiazepines, sudden cessation after chronic
use may result in dreamless sleep being replaced by insomnia and nightmares;
muscle relaxation by increased tension and muscle spasms; tranquillity by
anxiety and panic; anticonvulsant effects by epileptic seizures. These reactions
are caused by the abrupt exposure of adaptations that have occurred in the
nervous system in response to the chronic presence of the drug. Rapid removal
of the drug opens the floodgates, resulting in rebound overactivity of all
the systems which have been damped down by the benzodiazepine and are now
no longer opposed. Nearly all the excitatory mechanisms in the nervous system
go into overdrive and, until new adaptations to the drug-free state develop,
the brain and peripheral nervous system are in a hyperexcitable state, and
extremely vulnerable to stress.
Acute withdrawal symptoms.
The most prominent effect of benzodiazepines is an anti-anxiety effect - that
is why they were developed as tranquillisers. As a consequence, nearly all
the acute symptoms of withdrawal are those of anxiety. They have been described
in anxiety states in people who have never touched a benzodiazepine and were
recognised as psychological and physical symptoms of anxiety long before benzodiazepines
were discovered. However, certain symptom clusters are particularly characteristic
of benzodiazepine withdrawal. These include hypersensitivity to sensory stimuli
(sound, light, touch, taste and smell) and perceptual distortions (for example
sensation of the floor undulating, feeling of motion, impressions of walls
or floors tilting, sensation of walking on cotton wool). There also appears
to be a higher incidence than usually seen in anxiety states of depersonalisation,
feelings of unreality, and tingling and numbness. Visual hallucinations, distortion
of the body image ("my head feels like a football/balloon"), feelings
of insects crawling on the skin, muscle twitching and weight loss are not
uncommon in benzodiazepine withdrawal but unusual in anxiety states.
Table 1 gives a list of symptoms
which were spontaneously described by patients in my withdrawal clinic. It
is clearly a long list and is probably not inclusive. Of course, not all patients
get all the symptoms, and none of the symptoms are inevitable. Withdrawal
often seems to seek out the individual's most vulnerable points: if he is
prone to headaches, worse headaches may feature in withdrawal; if he is prone
to "irritable bowel", digestive symptoms may be aggravated. Such
symptoms are nearly always temporary and can be minimised. They are less frightening
and seem less important or bizarre if their cause is understood. Furthermore,
patients can learn techniques to alleviate or control many of the symptoms:
there is a lot they can do to help themselves.
TABLE 1. BENZODIAZEPINE
WITHDRAWAL SYMPTOMS
PSYCHOLOGICAL SYMPTOMS
Excitability (jumpiness, restlessness)
Insomnia, nightmares, other sleep disturbances
Increased anxiety, panic attacks
Agoraphobia, social phobia
Perceptual distortions
Depersonalisation, derealisation
Hallucinations, misperceptions
Depression
Obsessions
Paranoid thoughts
Rage, aggression, irritability
Poor memory and concentration
Intrusive memories
Craving (rare)
PHYSICAL SYMPTOMS
Headache
Pain/stiffness - (limbs, back, neck, teeth, jaw)
Tingling, numbness, altered sensation - (limbs, face,
trunk)
Weakness ("jelly-legs")
Fatigue, influenza-like symptoms
Muscle twitches, jerks, tics, "electric shocks"
Tremor
Dizziness, light-headedness, poor balance
Blurred/double vision, sore or dry eyes
Tinnitus
Hypersensitivity - (light, sound, touch, taste, smell)
Gastrointestinal symptoms - (nausea, vomiting, diarrhoea,
constipation, pain, distension, difficulty swallowing)
Appetite/weight change
Dry mouth, metallic taste, unusual smell
Flushing/sweating/palpitations
Overbreathing
Urinary difficulties/menstrual difficulties
Skin rashes, itching
Fits (rare)
These symptoms have all
been described by patients withdrawing from benzodiazepines; they are not
arranged in any particular order, and few if any are specific to benzodiazepine
withdrawal. The list is probably not inclusive. Different individuals experience
different combinations of symptoms. Do not expect to get all these
symptoms!
INDIVIDUAL SYMPTOMS,
THEIR CAUSES AND HOW TO DEAL WITH THEM
Insomnia, nightmares,
sleep disturbance. The sleep engendered by benzodiazepines, though it may seem
refreshing at first, is not a normal sleep. Benzodiazepines inhibit both dreaming
sleep (rapid eye movement sleep, REMS) and deep sleep (slow wave sleep, SWS).
The extra sleep time that benzodiazepines provide is spent mainly in light
sleep, termed Stage 2 sleep. REM and SWS are the two most important stages
of sleep and are essential to health. Sleep deprivation studies show that
any deficit is quickly made up by a rebound to above normal levels as soon
as circumstances permit.
In regular benzodiazepine
users REMS and SWS tend to return to pre-drug levels (because of tolerance)
but the initial deficit remains. On withdrawal, even after years of benzodiazepine
use, there is a marked rebound increase in REMS which also becomes more intense.
As a result, dreams become more vivid, nightmares may occur and cause frequent
awakenings during the night. This is a normal reaction to benzodiazepine withdrawal
and, though unpleasant, it is a sign that recovery is beginning to take place.
When the deficit of REMS is made up, usually after about 4-6 weeks, the nightmares
become less frequent and gradually fade away.
Return of SWS seems to
take longer after withdrawal, probably because anxiety levels are high, the
brain is overactive and it is hard to relax completely. Subjects may have
difficulty in getting off to sleep and may experience "restless legs
syndrome", sudden muscle jerks (myoclonus) just as they are dropping
off or be jolted suddenly by a hallucination of a loud bang (hypnagogic hallucination)
which wakes them up again. These disturbances may also last for several weeks,
sometimes months.
However, all these symptoms
do settle in time. The need for sleep is so powerful that normal sleep will
eventually reassert itself. Meanwhile, attention to sleep hygiene measures
including avoiding tea, coffee, other stimulants or alcohol near bedtime,
relaxation tapes, anxiety management techniques and physical exercise may
be helpful. Taking all or most of the dose of benzodiazepine at night during
the reduction period may also help. Occasionally another drug might be indicated
(see section on adjuvant drugs,
below).
Intrusive memories. A fascinating symptom in patients
undergoing benzodiazepine withdrawal is that they often mention the occurrence
of what seem to be intrusive memories. Their minds will suddenly conjure up
a vivid memory of someone they have not thought about or seen for years. Sometimes
the other person's face will appear when looking in the mirror. The memory
seems uncalled for and may recur, intruding on other thoughts. The interesting
thing about these memories is that they often start to occur at the same time
that vivid dreams appear; these may be delayed until one or more weeks after
the dosage tapering has started. Since recent sleep research indicates that
certain stages of sleep (REMS and SWS) are important for memory functions,
it is likely that the dreams and the memories are connected. In both cases
the phenomena may herald the beginning of a return in normal memory functions
and, although sometimes disturbing, can be welcomed as a sign of a step towards
recovery.
Poor memory and concentration
are also features of benzodiazepine withdrawal, and are probably due to continued
effects of the drug. Mentors should be prepared to repeat encouragements again
and again, week after week, as their words are soon forgotten.
Panic attacks. Panic attacks may appear for the
first time during withdrawal, although some patients have long experience
with this distressing symptom. The actress Glenda Jackson, who was not on
benzodiazepines, described them as follows: "God, those panic attacks.
You think you're dying; your heart pounds so strongly it feels like it's going
to jump out of your chest; you choke and begin to feel you can't breathe -
and all this is accompanied by terrible shaking and tremor, and feeling freezing
cold" (Sunday Times Magazine p.15, October 17, 1999). These attacks are
characteristic of some anxiety states and are the result of storms of central
and peripheral nervous system hyperactivity, especially the centres normally
concerned with fear and flight reactions in response to emergencies. The brain
centres that control these fear reactions have been damped down by benzodiazepines
and may rebound with renewed vigour as the benzodiazepines leave the body.
Distressing as they are,
panic attacks are never fatal and usually last little more than 30 minutes.
What is more, it is possible to learn to exercise control over them. Various
approaches are described below.
Learning to control a panic attack is a skill that improves with practice
and needs to be worked on at home. However, panic attacks (and other withdrawal
symptoms) have a knack of coming on at inappropriate moments away from home.
In such circumstances it is important to stand your ground, resisting the
impulse to run away. Dr Peter Tyrer suggests the following manoeuvre when
a severe withdrawal symptom such as a panic attack comes on when you are pushing
a trolley round a supermarket:
"Take much slower
and deeper breaths, making sure that you get air deep down into the lungs
instead of just at the top of the chest."
"As you do this
you will find that your arms and hands relax so that the whites of your knuckles
no longer show as you grip the supermarket trolley."
"Do not move on
until you feel the tension flowing out of your hands. With each deep breath
you should feel your tension flowing away and, as it does, your symptoms will
lessen or disappear."
Peter Tyrer, How
to Stop Taking Tranquillisers, Sheldon Press, London 1986, p.63.
The
discovery that a panic attack can be controlled without resorting to a tablet
is a great boost to self-confidence, and the development of new stress-coping
strategies is often the key to successful benzodiazepine withdrawal. Panic
attacks usually disappear within six weeks of withdrawal.
Generalised
anxiety, panics and phobias. There are many non-pharmacological techniques for helping
people with anxiety. Some of these are listed below, but it is beyond the scope
of this booklet to give details of each technique or to mention all of them.
None of them are essential for everybody coming off tranquillisers, but can
be helpful for those having difficulty.
(1)
Psychological techniques
Behaviour
therapy
· aims to replace anxiety-related
behaviours with better adapted behaviours
· Progressive muscular
relaxation (reduces muscle tension and anxiety)
· Diaphragmatic breathing
(many anxious people hyperventilate)
· Guided imaging (focus
on pleasant, relaxing situations; relaxation tapes with music and calm words
can also be used at home).
· Controlled exposure
to frightening situations, gradually increasing till anxiety diminishes.
Cognitive-behavioural
therapy
· Teaches patients
to understand their thinking patterns so that they can react differently to
anxiety-provoking situations
· Coping skills therapy/anxiety
management (learning techniques) to avoid anxiety-provoking situations and
to deal with anxiety (if it occurs)
· Cognitive retraining
skills
(2)
Complementary medicine techniques
· Acupuncture
· Aromatherapy
· Massage, reflexology
· Homeopathy
(3)
Exercise and other techniques
· Sports - aerobics,
jogging, swimming, "pilates", walking and anything active that you
find enjoyable
· Yoga - Many different
types and techniques
· Meditation - Many
different types and techniques
The
choice of, and response to, each of these measures depends very much on the
individual. The various psychological techniques have been formally tested
and give the best long-term results. However, the outcome depends largely
on the skill of the therapist, including his/her knowledge of benzodiazepines,
and the rapport between therapist and client.
Of the
complementary medicine techniques, all can help with relaxation during the
procedure but the effects tend to be short-lived. For example, patients in
my clinic who underwent a course of 12 acupuncture sessions by an acupuncturist
trained in both Chinese and Western acupuncture enjoyed and felt relaxed by
the sessions but they did not do any better in the long run than others who
did not have acupuncture.
Certain
individuals respond very well to yoga and meditation techniques. One particular
patient who was confined to a wheelchair with a spastic paralysis and who
was also blind, was able to come off all his benzodiazepines with the help
of a meditation technique. His spasticity actually improved. However, not
everyone is able to devote the mental and physical concentration required
for these techniques. Physical exercise, within your own limitations, is good
for everyone.
On the
whole, different approaches suit different individuals and need to be personalised.
If you believe in a certain approach, it will probably do you good.
Sensory
hypersensitivity.
A characteristic feature of benzodiazepine withdrawal is a heightened sensitivity
to all sensations - hearing, sight, touch, taste and smell. When extreme,
these sensations can be disturbing. One lady had to stop all the clocks in
the house because their ticking sounded unbearably loud; many have had to
don dark glasses because ordinary light seemed dazzlingly bright. Some find
that the skin and scalp becomes so sensitive that it feels as if insects are
crawling over them. Heartbeats become audible and there may be a hissing or
ringing sound in the ears (tinnitus - see below). Many people complain
of a metallic taste in the mouth and several notice strange, unpleasant, smells
which seem to emanate from the body. These sensations, including an unpleasant
smell (which usually no-one else can detect) have been described in anxiety
states in the absence of benzodiazepines. Like insomnia and panics, they are
probably reflections of heightened activity in the central nervous system.
Such hypervigilance is part of the normal fear and flight response which is
damped down by benzodiazepines but undergoes a rebound during withdrawal.
These
sensations return towards normal as withdrawal progresses, and some people
are pleased with the new, seemingly extraordinary, clarity of their perceptions.
Only in withdrawal do they realise how much their senses have been obscured
by benzodiazepines. One lady described how thrilled she was when she could
suddenly see individual blades of grass in her newly bright green lawn; it
was like the lifting of a veil. Thus, these sensations need not give rise
to fear; they can be viewed as signs of recovery.
Depersonalisation,
derealisation.
Feelings of depersonalisation and of unreality are associated with benzodiazepine
withdrawal, although they also occur in anxiety states. They occur most often
during over-rapid withdrawal from potent benzodiazepines and are, anecdotally,
particularly marked on withdrawal from clonazepam (Klonopin). In these states,
the person seems detached from his body and seems almost to be observing it
from the outside. Similar experiences are described in near-death states when
the individual feels that he is hovering above his body, detached from the
events occurring below. They are also described by people involved in extreme
emergencies and in individuals subjected to torture. They are clearly not
specific to benzodiazepines.
Such
experiences probably represent a normal defensive reaction evolved as a protection
against intolerable suffering. They may involve a primitive brain mechanism
similar to the "freezing" of some animals when presented with an
inescapable danger. Like other benzodiazepine withdrawal symptoms, these feelings
resolve in time and should not be interpreted as abnormal or crazy.
Hallucinations,
illusions, perceptual distortions. The benzodiazepine withdrawal symptom that raises most fear
of going mad is hallucination. Terrifying hallucinations have occurred in
people undergoing rapid or abrupt withdrawal from high doses, but the reader
can be reassured that they are exceedingly rare with slow dosage tapering
as outlined in Chapter
II. If hallucinations occur, they are usually visual - patients have described
hallucinations of a large bat sitting on the shoulder, or the appearance of
horns sprouting from a human head - but auditory, olfactory and tactile hallucinations
can also occur. Somewhat less frightening are hallucinations of small creatures,
usually insects, which may be associated with the sensations of insects crawling
on the skin (similar hallucinations occur in cocaine and amphetamine withdrawal).
Sometimes hallucinations merge with illusions and misperceptions. For example,
a coat hanging on the door may give the illusion of being a person. Floors
apparently tilting and walls that seem to slope inwards are perceptual distortions.
The
mechanisms of these bizarre symptoms are probably similar to those which cause
delirium tremens (hallucinations, classically of pink elephants or rats, in
the "DTs" of alcohol withdrawal). As mentioned in Chapter I, benzodiazepines
cause profound perturbations throughout the brain, and abrupt withdrawal may
be accompanied by uncontrolled release of dopamine, serotonin and other neurotransmitters
which cause hallucinations in psychotic disorders as well as in alcohol withdrawal
and cocaine, amphetamine and LSD abuse.
Once
the hallucinations, which seem real at the time, are recognised as "merely"
hallucinations, they quickly become less alarming. They do not herald the
onset of madness; they are simply instances of benzodiazepines playing tricks
on the brain which will right itself in time. A good mentor can usually reassure
and "talk down" a person suffering from benzodiazepine withdrawal-induced
hallucinations. In any case they should not worry anyone undergoing slow withdrawal.
Depression,
aggression, obsessions. Depressive symptoms are common both during long-term benzodiazepine
use and in withdrawal. It is not surprising that some patients feel depressed
considering the amalgam of other psychological and physical symptoms that
may assail them. Sometimes the depression becomes severe enough to qualify
as a "major depressive disorder", to use the psychiatric term. This
disorder includes the risk of suicide and may require treatment with psychotherapy
and/or antidepressant drugs.
Severe
depression may result from biochemical changes in the brain induced by benzodiazepines.
Benzodiazepines are known to decrease the activity of serotonin and norepinephrine
(noradrenaline), neurotransmitters believed to be closely involved in depression.
Antidepressant drugs including the selective serotonin reuptake inhibitors
(SSRIs such as Prozac) are thought to act by increasing the activity of such
neurotransmitters.
Depression
in withdrawal may become protracted (see section on protracted symptoms)
and if it does not lift within a few weeks and is unresponsive to simple reassurance
and encouragement, it is worth seeking a medical opinion and possibly taking
an antidepressant drug (see section on adjuvant medication).
Depression in withdrawal responds to antidepressant drugs in the same way
as depressive disorders where benzodiazepines are not involved. If, as in
many cases, an antidepressant drug is already being taken along with the benzodiazepine,
it is important to continue the antidepressant until after benzodiazepine
withdrawal is complete. Withdrawal from the antidepressant can be considered
separately at a later stage (See Chapter II, Schedule 13).
Aggressive
disorders are also associated with low serotonin activity (among other factors)
and the appearance of anger and irritability during benzodiazepine withdrawal
may involve similar mechanisms as depression. However, these symptoms usually
disappear spontaneously and do not last very long. Obsessive disorders (Obsessive
Compulsive Disorder, OCD) also respond to SSRIs, suggesting a similar mechanism.
Obsessive traits may be temporarily increased during withdrawal and seem to
reflect a mixture of anxiety and depression. These tend to settle spontaneously
as anxiety levels decline.
Muscle
symptoms. Benzodiazepines
are efficient muscle relaxants and are used clinically for spastic conditions
ranging from spinal cord disease or injury to the excruciating muscle spasms
of tetanus or rabies. It is therefore not surprising that their discontinuation
after long-term use is associated with a rebound increase in muscle tension.
This rebound accounts for many of the symptoms observed in benzodiazepine
withdrawal. Muscle stiffness affecting the limbs, back, neck and jaw are commonly
reported, and the constant muscle tension probably accounts for the muscle
pains which have a similar distribution. Headaches are usually of the "tension
headache" type, due to contraction of muscles at the back of the neck,
scalp and forehead - often described as a "tight band around the head".
Pain in the jaw and teeth is probably due to involuntary jaw clenching, which
often occurs unconsciously during sleep.
At the
same time, the nerves to the muscles are hyperexcitable, leading to tremor,
tics, jerks, spasm and twitching, and jumping at the smallest stimulus. All
this constant activity contributes to a feeling of fatigue and weakness ("jelly-legs").
In addition, the muscles, especially the small muscles of the eye, are not
well co-ordinated, which may lead to blurred or double vision or even eyelid
spasms (blepharospasm).
None
of these symptoms is harmful, and they need not be a cause of worry once they
are understood. The muscle pain and stiffness is actually little different
from what is regarded as normal after an unaccustomed bout of exercise, and
would be positively expected, even by a well-trained athlete, after running
a marathon.
There
are many measures that will alleviate these symptoms, such as muscle stretching
exercises as taught in most gyms, moderate exercise, hot baths, massage and
general relaxation exercises. Such measures may give only temporary relief
at first, but if practised regularly can speed the recovery of normal muscle
tone - which will eventually occur spontaneously.
Bodily
sensations.
All sorts of strange tinglings, pins and needles, patches of numbness, feelings
of electric shocks, sensations of hot and cold, itching, and deep burning
pain are not uncommon during benzodiazepine withdrawal. It is difficult to
give an exact explanation for these sensations but, like motor nerves, the
sensory nerves, along with their connections in the spinal cord and brain,
become hyperexcitable during withdrawal. It is possible that sensory receptors
in skin and muscle, and in the tissue sheaths around bones, may fire off impulses
chaotically in response to stimuli that do not normally affect them.
In my
clinic, nerve conduction studies in patients with such symptoms revealed nothing
abnormal - for example, there was no evidence of peripheral neuritis. However,
the symptoms were sometimes enough to puzzle neurologists. Three patients
with a combination of numbness, muscle spasms and double vision were diagnosed
as having multiple sclerosis. This diagnosis, and all the symptoms, disappeared
soon after the patients stopped their benzodiazepines.
Thus
these sensory symptoms, though disconcerting, are usually nothing to worry
about. Very occasionally, they may persist (see section on protracted symptoms).
Meanwhile, the same measures suggested under muscle symptoms (above) can do much to alleviate
them, and they usually disappear after withdrawal.
Heart
and lungs. Palpitations,
pounding heart, rapid pulse, flushing, sweating, and breathlessness are usual
accompaniments of panic attacks, but may occur without panics. They do not
signify heart or lung disease but are simply the expression of an overactive
autonomic nervous system. Slow deep breathing and relaxation, as described
under panic attacks, can do
much to control these symptoms. Do not worry about them: they would be accepted
as normal if you were running for a bus, and will do no more harm than if
you really were!
Problems
with balance.
Some people during benzodiazepine withdrawal report feeling unsteady on their
feet; sometimes they feel they are being pushed to one side or feel giddy,
as if things were going round and round. An important organ in controlling
motor stability and maintaining equilibrium is a part of the brain called
the cerebellum. This organ is densely packed with GABA and benzodiazepine
receptors (See Chapter
I) and is a prime site of action of benzodiazepines. Excessive doses of
benzodiazepines, like alcohol, cause unsteadiness of gait, slurred speech
and general incoordination, including inability to walk in a straight line.
It may take some time for the cerebellar systems to restabilise after benzodiazepine
withdrawal and the symptoms can last until this process is complete. Exercises,
such as standing on one leg, first with eyes open, then with eyes closed,
can speed recovery.
Digestive
problems. Some
people have no problems at all with their digestive systems during or after
withdrawal, and may even notice that they are enjoying their food more. Others,
perhaps more prone constitutionally, may complain of a range of symptoms associated
with "irritable bowel syndrome" (IBS). These can include nausea,
vomiting, diarrhoea, constipation, abdominal pain, flatulence, gaseous distension
and heartburn. Quite a few have found these symptoms so uncomfortable that
they have undergone hospital gastrointestinal investigations, but usually
no abnormality is found. The symptoms may be partly due to overactivity in
the autonomic nervous system, which controls the motility and secretions of
the gut and is very reactive to stress, including the stress of benzodiazepine
withdrawal. In addition, there are benzodiazepine receptors in the gut. It
is not clear what the functions of these receptors are or how they are affected
by benzodiazepines or benzodiazepine withdrawal, but alterations in these
receptors may play some part in increasing gut irritability.
Considerable
loss of weight (8-10lb or more) sometimes occurs in withdrawal. This may be
due to a rebound effect on appetite, since benzodiazepines have been shown
to increase appetite in animals. On the other hand, some people gain weight
in withdrawal. In any case, weight changes are not severe enough to worry
about and normal weight is soon regained after withdrawal. A few people have
difficulty in swallowing food - the throat seems to tighten up especially
if eating in company. This is usually a sign of anxiety and is well-known
in anxiety states. Practising relaxation, eating alone, taking small well
chewed mouthfuls with sips of liquid and not hurrying make things easier and
the symptom settles as anxiety levels decline.
Most
digestive symptoms get better after withdrawal but in a few people they persist
and become a protracted symptom, raising fears of food allergy or candida
infection. These questions are discussed further in the section on protracted symptoms.
Immune
system. "Why
do I get so many infections?" This question is commonly asked by patients
withdrawing from benzodiazepines. They seem to be prone to colds, sinusitis,
ear infections, cystitis, oral and vaginal thrush (candida), other fungal
infections of the skin and nails, cracked lips, mouth ulcers and influenza.
Also common are complaints of adverse reactions to antibiotics used to treat
some of the bacterial infections.
It is
not clear whether there really is an increased incidence of infections in
people undergoing benzodiazepine withdrawal, because there have been no comparisons
with otherwise similar populations who have not been exposed to benzodiazepines.
However, many factors affect the immune system. One of these is stress, with
increased output of the stress hormone, cortisol, which inhibits immune responses.
Another factor is depression, also related to stress and associated with increased
cortisol secretion. Increased cortisol levels can reduce resistance to infection
and also cause flare-ups of incipient infection. Benzodiazepine withdrawal
can clearly be stressful but, strangely, in patients that I have tested, blood
cortisol concentrations have been low. So this subject remains a mystery and
probably merits further research. The message for people undergoing benzodiazepine
withdrawal is to try to lead a healthy lifestyle, which includes a balanced
diet, plenty of exercise and rest, and avoidance of extra stress where possible.
Slow dosage tapering (Chapter II) is the best
way to reduce the stress of withdrawal.
Endocrine
problems. Benzodiazepines
undoubtedly have effects on the endocrine system, but these have not been
closely studied in humans, either during long-term benzodiazepine use or in
withdrawal. Many women complain of menstrual problems but these are common
in the general population and there is no clear evidence that they are directly
attributable to benzodiazepines. A proportion of female long-term benzodiazepine
users have had hysterectomies, but again there is no evidence of a direct
link with benzodiazepine use. Occasionally both men and women on benzodiazepines
complain of breast swelling or engorgement and it is possible that benzodiazepines
affect secretion of the hormone prolactin. Endocrine symptoms that are due
to benzodiazepines improve after withdrawal.
Fits,
convulsions.
Benzodiazepines are potent anticonvulsants. They can be life-saving in status
epilepticus (repeated fits, one after another) and in fits caused by overdose
of certain drugs (for example, tricyclic antidepressants). However, rapid
withdrawal, especially from high potency benzodiazepines, can precipitate
epileptic fits as a rebound reaction. Such an occurrence is extremely rare
with slowly eliminated benzodiazepines (e.g. diazepam) or with slow dosage
tapering. If a fit does occur in these circumstances, it is usually only a
single fit and causes no lasting damage. Other phenomena seen in rapid withdrawal
are psychotic symptoms, severe confusion and delirium, but again these hardly
ever occur with slow dosage tapering. By following the withdrawal schedules
outlined in Chapter
II, you can be confident of avoiding these complications.
EXTRA
MEDICATION DURING BENZODIAZEPINE WITHDRAWAL
"Is
there any medication I can take to help me through withdrawal?" This
question is sometimes asked by people embarking on a benzodiazepine tapering
program. In contrast, others are so against drugs when they decide on withdrawal
that they are loth to take anything, even the simplest pain killer. The answer
to the first question is that there is no medication which will substitute
for a benzodiazepine, unless it is another benzodiazepine, or a drug with
benzodiazepine-like properties (such as barbiturates or zolpidem [Ambien]).
All such drugs should be avoided as they only substitute one type of dependence
for another. (There is a method, advocated by some US doctors, in which phenobarbitone,
a long-acting barbiturate, is substituted for a benzodiazepine and then slowly
withdrawn, but this method has no particular advantages over tapering directly
from a long-acting benzodiazepine).
However,
there are some drugs which may help to control particular symptoms in withdrawal
and which deserve consideration in certain situations though not recommended
for routine use. Usually they will only be required temporarily, but they
can sometimes ease a difficult situation and enable the user to proceed with
the withdrawal program.
Antidepressants. Antidepressants are the most important
adjuvant drugs to consider in withdrawal. As mentioned before, depression
can be a real problem in withdrawal and can sometimes be severe enough to
pose a risk of suicide, though this is unusual with slow tapering. Like any
other depression, the depression in withdrawal responds to antidepressant
drugs and is probably caused by the same chemical changes in the brain. Both
the "old fashioned" tricyclic antidepressants (doxepin [Sinequan],
amitriptyline [Elavil]) and the selective serotonin reuptake inhibitors (SSRIs;
fluoxetine [Prozac], paroxetine [Paxil]) can be effective and an antidepressant
drug may be indicated if depression is severe. There is a school of thought,
mainly amongst ex-tranquilliser users, that is opposed to the taking of any
other drugs during withdrawal. But suicides have occurred in several reported
clinical trials of benzodiazepine withdrawal. If depression is severe during
benzodiazepine withdrawal as in any other situation, it seems foolhardy to
leave it untreated.
There
are, however, some disadvantages with antidepressants. One is that they take
2-3 weeks or more to become really effective. This means that the patient,
and his/her mentor, must be on the look-out for depression so that treatment,
if advised by the doctor, can start early. The second drawback is that anxiety
may be temporarily worsened at the start of treatment either with tricyclics
or SSRIs. This is a particular risk during benzodiazepine withdrawal when
anxiety levels are usually high. To avoid aggravation of anxiety, it is important
to start with the lowest possible dose of an antidepressant and then work
up slowly, over two or three weeks. Do not be persuaded by your doctor to
start immediately on the "therapeutic" dose for depression. There
are also fears that antidepressants such as Prozac may in some patients induce
an agitated, violent or suicidal state at the start of treatment; low initial
dosage and careful monitoring may avoid this risk.
It is
usually possible to continue with slow benzodiazepine tapering while starting
on an antidepressant, although some may prefer to halt their programme for
2-3 weeks until the antidepressant has "taken hold" (but increasing
the benzodiazepine dose should be strenuously avoided). Antidepressants not
only alleviate depression but also, after 2-3 weeks, have anti-anxiety effects.
They are in fact a better long-term treatment than benzodiazepines for anxiety,
panic and phobic disorders, and may in some cases actively help the benzodiazepine
withdrawal process.
Once
started on an antidepressant for depression, the treatment should be continued
for some months (usually about 6 months) to avoid recurrence of the depression.
Benzodiazepine tapering can continue during this time, and the antidepressant
will sometimes act as a welcome umbrella during the last stages of withdrawal.
It is important to finish the benzodiazepine withdrawal before starting to
withdraw the antidepressant. Quite often, people taking long-term benzodiazepines
are already taking an antidepressant as well. In this case they should stay
on the antidepressant until the benzodiazepine withdrawal is complete.
Another
drawback of antidepressants is that they, too, cause withdrawal reactions
if they are stopped suddenly, a fact which has not always been appreciated
by doctors. Antidepressant withdrawal symptoms include increased anxiety,
sleep difficulties, influenza-like symptoms, gastrointestinal symptoms, irritability
and tearfulness - not much different, in fact, from benzodiazepine withdrawal
symptoms. These reactions can be prevented by slow tapering of the antidepressant
dosage over about 1-3 months (See Table 2). Most people who have withdrawn
from benzodiazepines will be experts at tapering dosages when the time comes
to stop the antidepressant and will be able to work out a rate of withdrawal
that suits them.
Apart
from their therapeutic effects in depression and anxiety, some antidepressants
have a sedative effect which patients who are particularly plagued with insomnia
have found helpful. Low doses (10-50mg) of amitriptyline (Elavil) or doxepin
(Sinequan) are remarkably effective in promoting sleep if taken at bed-time.
These can be taken for short periods of a few weeks and stopped by reducing
the dosage stepwise or taking the drug every other night. Withdrawal is not
a problem when small doses are taken for short periods or intermittently.
TABLE
2. ANTIDEPRESSANT WITHDRAWAL SYMPTOMS
PHYSICAL
SYMPTOMS
Gastrointestinal: abdominal pain, diarrhoea, nausea,
vomiting
Influenza-like: fatigue, headache, muscle pain,
weakness, sweating, chills, palpitations
Sleep disturbance: insomnia, vivid dreams, nightmares
Sensory disturbances: dizziness, light-headedness,
vertigo,
pins and needles, electric shock sensations
Motor disorders: tremor, loss of balance, muscle
stiffness, abnormal movements
PSYCHOLOGICAL
SYMPTOMS
Anxiety, agitation
Crying spells
Irritability
Overactivity
Aggression
Depersonalisation
Memory Problems
Confusion
Lowered mood
Beta-blockers. In a few cases, severe palpitations,
muscle tremors or motor jerks develop during benzodiazepine withdrawal and
hinder progress. These symptoms can be controlled or ameliorated by beta-blocking
drugs such as propranolol (Inderal). Drugs of this type inhibit the effects
of excess epinephrine and norepinephrine (adrenaline and noradrenaline) released
by an overactive sympathetic nervous system. They slow the heart and prevent
excess muscle activity. Although they have little effect on psychological
symptoms, they can cut the vicious circle in which palpitations or tremor
create anxiety which leads to yet more palpitations. Some people in benzodiazepine
withdrawal take small doses of these drugs (10-20mg Inderal three times daily)
regularly, while others reserve them to take only if the physical symptoms
of a panic attack seem uncontrollable. They are not a cure, but can sometimes
help people through a difficult situation. In larger doses, beta-blockers
are used for raised blood pressure and angina, but such doses are not advised
in benzodiazepine withdrawal. They should not be taken by anyone who has asthma
as they can cause constriction of the bronchial tubes. If beta-blockers have
been used regularly for any length of time, they should be withdrawn slowly
by tapering the dosage, as they too can cause a withdrawal reaction of increased
heart rate and palpitations.
Hypnotics
and sedatives.
Most other hypnotics and sedatives act in a similar way to benzodiazepines,
including barbiturates, chloral derivatives (Noctec), ethchlorvynol (Placidyl),
zopiclone (Zimovane, Imovane), zolpidem (Ambien), Zaleplon (Sonata) and, incidentally,
alcohol. None of these drugs should be used as alternative sleeping pills
or sleeping draughts during benzodiazepine withdrawal. All can cause a similar
type of dependence and some are more toxic than benzodiazepines.
If sleep
is really a problem, a small dose of a tricyclic antidepressant with sedative
effects (see antidepressants,
above) is a possible option. Alternatively, an antihistamine with sedative
effects (e.g. diphenylhydramine [Benadryl], promethazine [Phenergan]) may
be used temporarily. Neither antidepressants nor antihistamines act by the
same mechanisms as benzodiazepines.
Some
drugs related to major tranquillisers have sedative effects and are also used
for nausea, vertigo and motion sickness. These are sometimes prescribed during
withdrawal, especially prochlorperazine (Compazine). However, such drugs can
have serious side effects (motor disorders like Parkinson's disease) and are
not recommended for long-term use or as a substitute for benzodiazepines.
Other
drugs. Several
other drugs have been tested in clinical trials of benzodiazepine withdrawal
to see if they could speed the process, prevent or alleviate withdrawal symptoms,
or improve the long-term success rate. Many of these trials have involved
what is considered here as over-rapid withdrawal. For example, a recent US
study of benzodiazepine withdrawal in long-term users (Rickels, Schweizer
et al. Psychopharmacology 141,1-5,1999) tested the effects of a sedative antidepressant
(trazodone, Desyrel) and an anticonvulsant drug (sodium valproate, Depakote).
Neither drug had any effect on the severity of withdrawal symptoms, but the
rate of taper was 25% of the benzodiazepine dose each week - a rather fast
withdrawal! Other drugs which have been found to be of little or no value
in withdrawal trials over 4-6 weeks include buspirone (BuSpar, an anti-anxiety
drug), carbamazepine (Tegretol, an anticonvulsant), clonidine (Catapres, an
anti-anxiety drug sometimes used in alcohol detoxification), nifedipine (Adalat)
and alpidem.
There
have been some reports that gabapentin (Neurontin), tiagabine (Gabitril) and
possibly pregabalin (yet to be licensed) help with sleep and anxiety in withdrawal.
However, there have been no controlled trials and it is not clear whether
these drugs themselves cause withdrawal effects. In practice additional drugs
are seldom needed with very slow benzodiazepine tapering. Only in special
situations there might be a place for an antidepressant, beta blocker, sedative
antihistamine or anticonvulsant. There is no need to avoid ordinary pain killers
such as Tylenol, Feldene etc. for everyday aches and pains.
BENZODIAZEPINE
USE DURING AND AFTER WITHDRAWAL
What
happens if someone who is in the course of benzodiazepine withdrawal or has
successfully withdrawn needs a surgical operation? Benzodiazepines are of
value as premedication before major operations and for sedation and amnesia
during minor surgical procedures. Yet many ex-users are terrified that if
they are given a benzodiazepine for these purposes they will become dependent
all over again. They can be reassured: a single dose of a benzodiazepine given
for an operation does not bring back the addiction, although the stress of
an operation may re-awaken the anxiety symptoms experienced during benzodiazepine
withdrawal. Symptoms reported under these circumstances have usually been
the result of fear. Many personally observed patients have had repeated doses
of midazolam (Versed, Hypnovel), a short-acting benzodiazepine, for dental
procedures (dental phobia is common in withdrawal), and other benzodiazepines
including diazepam for major and minor surgery and have recovered without
complications.
Also,
people who have gone back on benzodiazepines, having failed at the first attempt
at withdrawal, can be just as successful at tapering as first-timers.
DIET,
FLUIDS AND EXERCISE
There
has been increasing interest in the question of diet in benzodiazepine withdrawal,
particularly in North America. What food/drinks should be excluded? What supplements
should be added? These are frequent questions. In my opinion there is no need
to be over-obsessive about diet. Some people advise that caffeine and alcohol
should be completely ruled out. However, the point about gradual dosage tapering
at home is that people should get used to living a normal lifestyle without
drugs. In my experience, coffee or tea in moderation (about two cups a day),
or reasonable amounts of cocoa, chocolate or coca cola, are perfectly compatible
with benzodiazepine withdrawal - except in the few individuals who are exquisitely
sensitive to caffeine or those with very high anxiety levels. Clearly one
should not take caffeine late in the evening or drink cups of tea/coffee (unless
decaffeinated) in the middle of the night if insomniac, but to prohibit a
cup of tea/coffee at breakfast is in general unduly restrictive. One is, after
all, striving to be normal and sociable, not fussy.
Similarly
with alcohol: a glass or two of wine is perfectly permissible (and even said
by some to be advisable for health). Although it is important not to substitute
increasing doses of alcohol for decreasing doses of benzodiazepines, there
is no need to deny oneself small pleasures. Moderation is the key: there is
no call to be puritanical.
The
same principles apply to food. Humans are singularly well adapted through
evolution to obtain the nutrients they need from a wide variety of diets and
to eliminate unwanted products. A normal healthy diet which includes generous
amounts of fruit and vegetables and a source of protein and fats (from meat
or vegetables), and not too much pure sugar or "junk foods", provides
all the nutrients a person needs. There is no general need for dietary supplements
or extra vitamins or minerals or for "detoxifying" measures. All
these can be harmful in excess. Advice to cut out white flour, white sugar
etc. may help certain individuals but I have also observed that overly restrictive
diets can have adverse effects. Some people say they have felt much better
after going on a particular diet - this makes one wonder what sort of diet
they were eating before!
Individuals
may find they are intolerant of certain foods although this is not usually
a true allergy. In this case, let common sense prevail and avoid such foods
for a while. If in doubt, get the advice of a reliable and unbiased nutritionist,
but in general stick to a normal healthy diet without food fads. Before diets
became "fashionable" thousands of people successfully came off their
benzodiazepines in many different countries with widely varying dietary habits
without restriction - and this continues today.
A normal
diet includes a normal amount of fluid consumption. Requirements for water
and salt vary with body size, environmental temperature, amount of exercise,
etc. so cannot be stated categorically. However, there is no need to drink
extra amounts of fluid during withdrawal with the idea of "flushing out
impurities/toxins". The body is very good at doing this, even at minimal
fluid consumption, and surplus water is simply excreted.
Regular
moderate exercise is recommended during withdrawal as it maintains general
fitness, builds up stamina, increases the circulation to brain, muscle and
skin and improves mood, but there is no point in slavishly doing exercises
that you hate. The aim is to lead a healthy lifestyle which by definition
includes some exercise in a form that is enjoyable for you.
Smoking. I hardly dare to mention smoking
in view of present day attitudes to this unfortunate addiction, but for those
who are smokers it is probably asking too much to attempt to stop smoking
and withdraw benzodiazepines at the same time. Many people have found that
giving up smoking is easier when they are off benzodiazepines, when the desire
for nicotine may even wane somewhat. In general, excessive worrying over your
undesirable habits (or your diet) can add to the stress of withdrawal. It
is better to relax a bit and be gentle with yourself.
COURSE
OF WITHDRAWAL
During
benzodiazepine withdrawal, symptoms characteristically wax and wane, varying
in severity and type from day to day, week to week, and even during the course
of a day. Some symptoms come and go; others may take their place. There is
no need to be discouraged by these wave-like recurrences; the waves become
less severe and less frequent as time passes. Typically "Windows"
of normality, when you feel positively well for a few hours or days, appear
after some weeks; gradually the "Windows" become more frequent and
last longer, while any intervening discomfort ebbs away.
It is
impossible to give an exact time for the duration of withdrawal symptoms.
It depends on where you start from, how much support you need and receive,
how you manage your taper and many other factors. With slow tapering, some
long-term users have virtually lost all their symptoms by the time they take
their last tablet, and in the majority symptoms disappear within a few months.
Vulnerability to extra stress may last somewhat longer and a severe stress
may - temporarily - bring back some symptoms. Whatever your symptoms, it is
best not to dwell on them. Symptoms are just symptoms after all and most of
them in withdrawal are not signs of illness but signals of recovery. Furthermore,
as your mind clears, you can work out more and more effective ways to deal
with them so that they become less significant.
One
reassuring finding from many clinical studies is that eventual success in
withdrawal is not affected by duration of use, dosage or type of benzodiazepine,
rate of withdrawal, severity of symptoms, psychiatric diagnosis, or previous
attempts at withdrawal. Thus from almost any starting point, the motivated
long-term user can proceed in good heart.
PROTRACTED
WITHDRAWAL SYMPTOMS
A minority
of people who have withdrawn from benzodiazepines seem to suffer long-term
effects - protracted symptoms that just don't go away after months or even
years. It has been estimated that perhaps 10-15 per cent of long-term benzodiazepine
users develop a "post-withdrawal syndrome". Many of these people
have taken benzodiazepines for 20 years or more and/or have had bad experiences
in withdrawal. The incidence of protracted symptoms in those who have undergone
a slow taper under their own control is almost certainly very much lower.
Table 3 shows the symptoms most
likely to be long-lasting. These include anxiety, insomnia, depression, various
sensory and motor symptoms, gastrointestinal disturbances, and poor memory
and cognition. The reasons why these symptoms persist in some people are not
clear. Probably many factors are involved, some directly due to the drug and
some to indirect or secondary effects (See Table
4).
TABLE
3. SOME PROTRACTED BENZODIAZEPINE WITHDRAWAL SYMPTOMS
| Symptoms |
Usual Course |
| Anxiety |
-
Gradually diminishing over a year |
| Depression |
-
May last a few months; responds to antidepressant drugs |
| Insomnia |
-
Gradually diminishing over 6-12 months |
| Sensory
symptoms: tinnitus, tingling, numbness, deep or burning pain
in limbs, feeling of inner trembling or vibration, strange skin sensations |
-
Gradually receding but may last at least a year and occasionally several
years |
| Motor
symptoms: muscle pain, weakness, painful cramps, tremor, jerks,
spasms, shaking attacks |
-
Gradually receding but may last at least a year andoccasionally several
years |
| Poor
memory and cognition |
-
Gradually receding but may last at least a year and occasionally several
years |
| Gastrointestinal
symptoms |
-
Gradually improving but may last a year and occasionally several years |
TABLE
4. SOME POSSIBLE CAUSES OF PROTRACTED BENZODIAZEPINE WITHDRAWAL SYMPTOMS
| Possible mechanisms |
Effects |
| 1.
Learning of stress-coping strategies blocked by benzodiazepine use
exposed on withdrawal |
Anxiety,
vulnerability to stress |
| 2.
Impairment of memory caused by benzodiazepines prevents normal resolution
of distressing life events which are exposed on withdrawal |
Anxiety,
depression |
| 3.
Traumatic experiences during previous withdrawal |
Post-traumatic
stress symptoms |
| 4.
(?) Biochemical alterations caused by benzodiazepines (serotonin,
norepinephrine [noradrenaline], stress hormones) |
Depression |
| 5.
Nervous system hyperexcitability due to persisting changes in GABA/benzodiazepine
receptors |
Sensory
and motor symptoms, anxiety, insomnia |
| 6.
(?) Structural or functional damage to brain tissue |
Poor
memory and cognition |
| 7.
(?) Changes in gut and immune systems |
Gastrointestinal
symptoms |
| 8.
(?) Long-term retention of benzodiazepines in tissues of the body |
Prolongs
nervous system hyperexcitability |
(?) indicates
possible mechanisms for which at present there is no scientific evidence
Anxiety. Anxiety persisting after the acute
phase of withdrawal may be partly due to the uncovering of a learning defect
caused by the benzodiazepines. These drugs specifically impair the learning
of new skills, including stress-coping strategies. Such skills are normally
acquired continuously from childhood to middle age or later as experience
of life accumulates. Their development may be blocked for a period of years
during which benzodiazepines are taken. After withdrawal the ex-user is left
in a vulnerable state with a decreased ability to deal with stressful situations.
Full recovery may require many months of learning new stress-coping strategies
to replace the years when this facility was blanketed by pills.
Secondly,
benzodiazepine withdrawal may uncover life problems that have never been fully
addressed. For example, the impairment of memory caused by benzodiazepines
may prevent the normal resolution of personal stresses such as bereavement
or a car crash. Such buried or half-forgotten experiences may have to be faced
after withdrawal and may prolong both anxiety and depression. It is not uncommon
for a widow or widower, first prescribed benzodiazepines on the death of the
spouse, to go through the grieving process for the first time after withdrawal,
even though the bereavement had occurred many years previously.
A third
factor may operate in people who have had frightening experiences during withdrawal.
This is not uncommon in those who have undergone rapid withdrawal without
adequate explanation, often in hospital or detoxification centres but sometimes
at home when their doctor has withdrawn prescriptions. Such people may develop
symptoms of post-traumatic stress disorder (PTSD) in which their experiences
are constantly repeated as flashbacks or nightmares and so prolong the anxiety.
In addition,
many (though by no means all) long-term benzodiazepine users are constitutionally
highly strung, sensitive people with relatively low self-esteem, whose anxiety
problems have led to the prescription of benzodiazepines in the first place
and whose continuing anxiety (possibly heightened by the benzodiazepines)
has prompted the doctor to go on prescribing the drugs. It may take a long
time for these people to regain, or attain, full confidence in themselves.
Despite
these factors, protracted anxiety symptoms, including agoraphobia and panics,
do tend to subside gradually and rarely last more than a year. The process
may be hastened by good psychological support and by the measures described
under acute anxiety symptoms. Believe it or not, people often feel more self-confident
after withdrawal than they did before starting to take benzodiazepines.
Depression. Depression may be caused or aggravated
by chronic benzodiazepine use, but is also a feature of the withdrawal syndrome.
Depressive symptoms may appear for the first time after withdrawal, sometimes
after a delay of a few weeks, and it can be severe and protracted for some
months. It is not clear whether people who have had depression before, or
have a family history of depression, are more prone to this complication,
and its causes are not understood. As discussed in Chapters I and II, benzodiazepines disrupt
the function of many neurotransmitters and hormones and depression could be
the result, for example, of low serotonin activity combined with the stress
of withdrawal. If severe enough to require definitive treatment, the depression
in withdrawal responds to antidepressant drugs and/or cognitive therapy and
usually diminishes gradually over 6-12 months.
Insomnia. Poor sleep is a common accompaniment
of both anxiety and depression. In anxiety there is typically a difficulty
in falling asleep, while depression is associated with early morning waking
as well as frequent wakings during the night. Insomnia is also common as an
acute withdrawal symptom along with nightmares and other sleep disturbances.
Occasionally, however, insomnia (sometimes with "restless legs"
and muscle jerks) persists as an isolated symptom after other symptoms have
disappeared, and may last for many months. However, poor sleepers can be reassured
that an adequate sleep pattern does return at last. There are powerful natural
mechanisms in the body which ensure that the brain does not become severely
sleep-deprived.
Sensory
and motor disturbances. There is no doubt that benzodiazepine withdrawal leaves in its wake
a nervous system that is exquisitely sensitive to all sensory and motor stimuli.
Usually this state settles in a few weeks but occasionally disturbing sensations
persist.
One
of the most distressing sensory symptoms is tinnitus, a constant ringing
or hissing in the ears which has been noted in several studies of benzodiazepine
withdrawal. One lady described her tinnitus as a "needle of sound"
piercing deep inside her head. Tinnitus is often associated with a degree
of hearing loss and is not uncommon in people with partial nerve deafness
who have never taken benzodiazepines. Nevertheless, it often makes its first
appearance during benzodiazepine withdrawal in people who have had hearing
loss for years. Also, it may be unilateral or precisely localised, even in
those with symmetrical bilateral hearing loss. Whether people who have taken
long-term benzodiazepines are particularly prone to tinnitus and if so why,
is not known. It can persist for years and does not always respond to the
usual treatments for tinnitus (maskers, etc); nor is it always relieved by
restarting benzodiazepines. However, people with persisting tinnitus after
withdrawal should seek the advice of a hearing specialist and may be lucky
enough to find a clinic which specialises in this symptom.
A number
of unpleasant bodily sensations may persist after withdrawal including tingling,
"pins and needles" or patches of numbness in the trunk, face, limbs
and fingers. These may be accompanied by burning pain or aches that sometimes
seem to originate deep in the muscles or bones. Some people complain of an
"inner trembling" or a sense of vibration, and some have described
bizarre sensations as of water or slime running over the body or a serpent-like
writhing on the scalp. Motor symptoms that may persist include muscle tension,
weakness, cramps, jerks, spasms and shaking attacks.
Possible
mechanisms of persisting sensory and motor symptoms. Although the above symptoms are
often made worse by stress, they are clearly not simply due to anxiety. They
suggest a dysfunction in motor and sensory pathways in the spinal cord and/or
brain. A possible clue to their mechanism is provided by a trial with flumazenil
(Anexate, Romazicon) a benzodiazepine receptor antagonist, published by Lader
and Morton (Journal of Psychopharmacology 1992, 6, 357-63). This drug, when
infused intravenously brought rapid relief of protracted symptoms (muscle
tension, "pins and needles", weakness, muscle cramps or jerks, burning,
tremor or shaking) that had been present for 5-42 months post-withdrawal in
11 patients. The symptoms were improved by 27-82 percent and the greatest
response occurred in patients with the lowest anxiety ratings. There was no
response to infusions of saline solution.
Flumazenil
is thought to act by "resetting" GABA/benzodiazepine receptors (See
Chapter I) so that they
are more receptive to the inhibitory actions of GABA. The results suggest
that some protracted symptoms are due to the failure of the receptors to revert
to their normal state after they have become unresponsive to GABA, due to
the development of tolerance (See Chapter I). The response
to flumazenil also shows that benzodiazepines can cause longer-lasting pharmacological
effects than previously believed.
Unfortunately,
flumazenil does not at present offer a practical cure for protracted symptoms.
The drug has to be infused intravenously and is very short acting so that
symptom relief is only temporary. The drug cannot be given to a person who
is still taking benzodiazepines as it precipitates an acute withdrawal reaction.
However, although protracted sensory and motor symptoms may sometimes seem
to be almost permanent, they do in fact decline in severity over the years,
even without flumazenil, and they do not signify a major neurological illness.
Such symptoms may be partially alleviated by relaxation techniques; some motor
and sensory systems may respond to carbamazepine (Tegretol) and motor symptoms
may respond to propranolol (Inderal).
Poor
memory and cognition.
Although it is well known that benzodiazepines impair memory and some cognitive
functions, particularly the ability to sustain attention, some long-term users
complain of continued loss of intellectual abilities persisting after withdrawal.
There have been several studies on this question which indicate that improvement
may be very slow. The longest studies in therapeutic dose long-term users
extend for only 10 months after withdrawal. Cognitive impairment, though slowly
improving, persisted for at least this time and was not related to anxiety
levels (Tata et al. Psychological Medicine 1994, 24, 203-213). Some Swedish
studies have found that intellectual impairment, although improved, was still
present 4-6 years after cessation of benzodiazepine use, but it was not clear
whether high dosage and/or alcohol use were added factors.
Do
benzodiazepines cause structural brain damage? These results have raised the question
of whether benzodiazepines can cause structural brain damage. Like alcohol,
benzodiazepines are fat soluble and are taken up by the fat-containing (lipid)
membranes of brain cells. It has been suggested that their use over many years
could cause physical changes such as shrinkage of the cerebral cortex, as
has been shown in chronic alcoholics, and that such changes may be only partially
reversible after withdrawal. However, despite several computed topography
(CT) scan studies, no signs of brain atrophy have been conclusively demonstrated
in therapeutic dose users, and even the results in high dose abusers are inconclusive.
It is possible that benzodiazepines can cause subtle changes which are not
detected by present methods, but on the available evidence there is no reason
to think that any such changes would be permanent.
Gastrointestinal
symptoms. Gastrointestinal
symptoms may be prolonged after withdrawal, usually in people who have a previous
history of digestive troubles. Such people may develop apparent intolerance
to certain foods, although reliable tests for true food allergy (e.g. antibodies
against specific food constituents) are nearly always negative. Nevertheless
many sufferers feel that they have damage to the immune system or have developed
intestinal candidiasis. There is at present no clear scientific evidence on
these topics, though as mentioned before, benzodiazepine receptors are present
in the gut and benzodiazepine use or withdrawal may affect immune responses.
There is some evidence that chronic hyperventilation provokes the release
of histamine (a substance released in allergic reactions) and that the incidence
of food-intolerance and "pseudo-allergic" reactions is high in chronic
hyperventilators. Advice on diet, breathing and candida infections is given
in books by Shirley Trickett quoted at the end of this chapter.
It is usually inadvisable to stick to a strict exclusion diet; with a normal
balanced diet and sensible general health measures, including regular exercise,
gastrointestinal symptoms due to withdrawal gradually abate.
Coping
with protracted symptoms. A number of people are expressing fears that some benzodiazepine withdrawal
symptoms last for ever, and that they can never completely recover. Particular
concerns have been raised about impairment of cognitive functions (such as
memory and reasoning) and other lingering problems such as muscle pains and
gastrointestinal disturbances.
People
with such worries can be reassured. All the evidence shows that a steady decline
in symptoms almost invariably continues after withdrawal, though it can take
a long time - even several years in some cases. Most people experience a definite
improvement over time so that symptoms gradually decrease to levels nowhere
near as intense as in the early days of withdrawal, and eventually almost
entirely disappear. All the studies show steady, if slow, improvement in cognitive
ability and physical symptoms. Although most studies have not extended beyond
a year after withdrawal, the results suggest that improvement continues beyond
this time. There is absolutely no evidence that benzodiazepines cause permanent
damage to the brain, nervous system or body.
People
bothered by long-term symptoms can do a lot to help themselves. For example:
1.
Exercise your body. Physical exercise
improves the circulation and function of both brain and body. Find an exercise
that you enjoy: start at low level, work up gradually and keep it up regularly.
Exercise also helps depression, decreases fatigue and increases general fitness.
2.
Exercise your brain. Use your brain
to devise methods to improve its efficiency: make lists, do crossword puzzles,
find out what bothers you most - there is always a way round it. Cognitive
retraining helps people to find ways around their temporary impairment.
3.
Increase your interests. Finding
an outside interest which you have to work at employs the brain, increases
motivation, diverts attention away from your own symptoms and may even help
others.
4.
Calm your emotions. Above all, stop
worrying. Worry, fear and anxiety increase all withdrawal symptoms. Many of
these symptoms are actually due to anxiety and not signs of brain or nervous
system damage. People who fear withdrawal have more intense symptoms than
those who just take it as it comes and think positively and confidently about
recovery.
How
long do benzodiazepines stay in the body after withdrawal? This question is often asked by
people with long-term symptoms. Is it possible that one cause of protracted
symptoms is that benzodiazepines remain in the body even after months, lurking
perhaps deep in such tissues as brain and bones? Could slow elimination from
these sites keep the withdrawal symptoms going?
Like
many other issues concerning benzodiazepines, the answers to these questions
are still unclear. Benzodiazepine concentrations in the blood have been measured
and shown to reach undetectable levels in 3-4 weeks after cessation of use
in people withdrawn from clinical doses. Information on benzodiazepine concentrations
in the brain and other tissues is difficult to obtain, especially in humans.
Benzodiazepines certainly enter the brain and also dissolve in all fatty (lipid-containing)
tissues including fat deposits all over the body. It is possible that they
linger in such tissues for some time after blood levels have become undetectable.
However, most body tissues are in equilibrium with the blood that constantly
perfuses them, and there is no known mechanism whereby benzodiazepines could
be "locked up" in tissues such as the brain. There is no data on
how long benzodiazepines remain in bones, which have a lower fat content but
also a slower rate of cell turnover.
Nevertheless,
the concentration of benzodiazepines remaining in body tissues after withdrawal
must be very low, otherwise the drugs would leak back into the blood in discernible
amounts. It is difficult to imagine that such concentrations would be sufficient
to produce clinical effects or that any direct effects could last for months
or years. However, it is not inconceivable that even low concentrations might
be enough to prevent the return of GABA/benzodiazepine receptors in the brain
to their pre-benzodiazepine state. If so, the receptors would continue to
be resistant to the natural calming actions of GABA (See Chapter I), and the effect
could be to prolong the state of nervous system hyperexcitability. Possible
factors contributing to protracted symptoms are outlined in Table 4.
EPILOGUE
This
chapter ends with many unknowns. Benzodiazepine withdrawal remains an unfinished
story and several aspects need serious attention:
1.
Education. All doctors and paramedicals need
to acquire greater knowledge and to receive better training on the prescription
of benzodiazepines (short-term only), their adverse effects (especially dependence),
and methods of withdrawal (slow tapering of dosage combined with adequate
support). Such education should include family physicians, psychiatrists,
other specialists, staff in detoxification units, pharmacists, psychologists
and other therapists and community nurses. Increased general awareness and
pressure from the public could speed these measures.
2.
Research. More research is needed on the effects
of long-term benzodiazepine use. Particular areas include effects on the brain
structures, using modern techniques such as magnetic resonance imaging (MRI)
and brain blood flow (fMRI), combined with neuropsychological testing. Further
work is also needed in the little researched fields of benzodiazepine actions
on endocrine, gastroenterological and immune systems.
3.
Treatment methods. Better methods for treatment of
anxiety and insomnia need to be developed. It is doubtful if any drug will
ever "cure" anxiety or insomnia but it may be possible to develop
pharmacological agents with fewer side-effects. For example, rats treated
with the benzodiazepine antagonist flumazenil along with a benzodiazepine
do not develop tolerance but still apparently experience an anxiolytic effect.
Such a combination might work in humans but long-acting benzodiazepine antagonists
that can be taken by mouth have not been subjected to trials. Alternatively,
mood-stabilising anticonvulsants such as gabapentin, tiagabine and pregabalin
may hold promise since their mode of action is different from that of benzodiazepines.
At the same time, psychological therapies for treating anxiety and insomnia
could be improved and more widely taught. And it may well be possible to develop
better methods than those described in this monograph for drug withdrawal
in people who have become dependent on benzodiazepines.
4.
Provision of facilities. Facilities for benzodiazepine dependent
people need to be developed. Detoxification units, dealing with dependence
on alcohol and illicit drugs, are not appropriate for prescribed benzodiazepine
users who have unwittingly become dependent through no fault of their own.
Such places usually withdraw the drugs too rapidly and apply rigid "contract"
rules which are quite unsuitable for benzodiazepine patients struggling with
withdrawal symptoms. Much needed are clinics specialising in benzodiazepine
withdrawal where clients can receive individualised, flexible, understanding
and supportive counselling. At present only too few voluntary support groups
valiantly strive to fill this gap with minimal finances. Proper financing
would also allow provision of residential accommodation where clients in need
could go for short breaks in a supportive, non-hospital, atmosphere at crucial
times during their withdrawal process.
Finally,
it is a tragedy that in the 21st century millions of people worldwide
are still suffering from the adverse effects of benzodiazepines. Nearly 50
years after benzodiazepines were introduced into medical practice in the 1950s
there should be no need for a monograph such as this. However, I hope that
the experience from many patients described in this book will help to raise
awareness amongst the medical profession and the public of the problems associated
with long-term benzodiazepine use and withdrawal.
FURTHER
READING
·
Ashton, H. (1994) Benzodiazepine
withdrawal: unfinished story. British Medical Journal 288,135-40.
·
Ashton, H. (1991) Protracted
withdrawal syndromes from benzodiazepines. Journal of Substance Abuse
Treatment 8,19-28.
·
Ashton, H. (1995) Protracted
withdrawal from benzodiazepines: The post-withdrawal syndrome. Psychiatric
Annals 25,174-9.
·
Ashton, H. (1994) The
treatment of benzodiazepine dependence. Addiction 89, 1535-41.
·
Trickett, S. (1998) Coming
Off Tranquillisers, Sleeping Pills and Antidepressants. Thorsons, London.
·
Trickett, S. (1994) Coping
with Candida. Sheldon Press, London 1994.
·
Tyrer, P. (1986) How to
Stop Taking Tranquillisers. Sheldon Press, London.
Outline of Contents
CHAPTER ONE
The Benzodiazepines:
what they do in the body, background, about this chapter, the benzodiazepines,
adverse effects of benzodiazepines, dependence, socioeconomic costs of long
term benzodiazepine use, further reading, tables.
CHAPTER TWO
How to withdraw from
benzodiazepines after long-term use, background, why should you come off benzodiazepines,
before starting benzodiazepine withdrawal, the withdrawal, dosage tapering,
switching to a long-acting benzodiazepine, designing and following the withdrawal
schedule, further reading, detailed withdrawal schedules.
CHAPTER THREE
Benzodiazepine withdrawal
symptoms, acute and protracted, mechanisms of withdrawal reactions, acute
withdrawal symptoms, individual symptoms, their causes and how to deal with
them, extra medication during benzodiazepine withdrawal, benzodiazepine use
during and after withdrawal, course of withdrawal, protracted withdrawal symptoms,
further reading, tables.
For 12 years (1982-1994)
Professor Heather Ashton ran a benzodiazepine withdrawal clinic for people
wanting to come off their tranquillisers and sleeping pills. Much of what
she knows about this subject was learned from those brave and long-suffering
men and women. This Manual, her latest benzodiazepine monograph, is the product
of her research, experience and tireless dedication to helping people recover
from these drugs.
News from Canada
The Ashton Manual was
first introduced to the medical community in September 2000. The College of Pharmacists
of British Columbia was the first regulatory body in the world to see it and
immediately requested 830 copies and sent them out to every pharmacy in British
Columbia on October 12, 2000. The Ashton Manual is now promoted by the College
of Pharmacists of British Columbia, March/April 2001 Bulletin. Click to view advertisement.
In a joint venture in
March 2001 the College of Physicians and Surgeons of Saskatchewan and the
Saskatchewan Pharmaceutical Association provided every doctor's office and
pharmacy in the province with a copy of the Ashton Manual.
Ordering Information
In order to cover the
costs involved in making this Manual available, to facilitate its further
production and distribution and to fund further research and support groups
for those unfortunate to have been trapped by benzodiazepine dependence, this
Manual is being offered on a donation basis. If you would like to request
a copy of this Manual please send a minimum contribution of $15 USD in cash
or US Money Order (includes shipping & handling costs).
Distributors
USA & ELSEWHERE:
Click here
for Secure OnLine Ordering For USA Delivery. Use for Credit Card or Mail-In
Orders (Money Orders Accepted). $15.00 USD. Includes Priority Mail Shipping,
2-3 days USA.
CANADA: To cover shipping and handling costs
send $10.00 USD to Donna Haugh, 201-8580 General Currie Road, Richmond, British
Columbia, Canada V6Y 3V5. Email: rmb@intergate.ca.
UK & EUROPE: Send cheque/PO for £10.00 Sterling
(€15 Euros) to: Beat The Benzos, c/o Barry Haslam, 7 School Street, Uppermill,
Oldham, 0L3 6HB, England, UK.
AUSTRALIA: Contact: Gwenda Cannard, TRANX Inc., PO Box 186, Burwood,
3125 Victoria, Australia or send fax with credit card details to: +03 9889
1022. Email: tranx@alphalink.com.au.
NEW ZEALAND: Contact: Anna De Jonge, Patients' Rights Advocacy Waikito
Inc., 65 Tawa Street, Hamilton, New Zealand Telephone: International + 64
- 7 - 8435837. Email: anna.dej@clear.net.nz.
FRENCH EDITION: Protocole à suivre pour le traitement
du sevrage des benzodiazépines. Contact: Madelon Albulet. Email: jalbulet@telus.net.
DANISH EDITION: Benzodiazepiner: Hvordan de virker
& hvordan man nedtrapper. For more details of the Danish edition of the
Manual click
here.
