Psychotherapeutic Drugs Lecture 5

Summary

This lecture covers psychotherapeutic drugs, their effects on mental illness, and their use in treating conditions such as schizophrenia and anxiety. The lecture also discusses different types of drugs and their mechanisms of action, along with potential side effects.

Full Transcript

Psychotherapeutic Drugs
Psychotherapeutic drugs are described for their effects
of relieving symptoms of mental illness that include
Schizophrenia

Mania

Depression
Anxiety

Drugs for these disorders are Palliative i.e. alleviate
without curing
Psychotherapeutic Drugs
These drugs are for major mental illnesses and not for
trivial indications where simpler drugs do equally as
well

Commencing treatment
Minimise side effects
Allow gradual build up to an optimal dose

Treatment
May be long term or intermittent depending on
the severity and type of condition

Compliance
Psychotherapeutic Drugs
Many medically used drugs can produce psychiatric
symptoms at therapeutic doses (rare) and when abused.

Examples
Depression

Methydopa (Aldomet ®), Clonadine (Catapress®) and
some beta blockers e.g. propanalol (Inderal®).
Psychosis, euphoria, depression

Corticosteriods e.g. Betemethasone (Celestone
Chronodose® inj)
Confusion disorientation, depression

Atropine, Benztropine
Antipsychotics
Antipsychotics
Used primarily in the management of psychotic
disorders to ameliorate abnormal behaviour, thoughts
and perceptions.

These medications have sedating and tranquilising
effects that make them useful in severely agitated or
disturbed patients
Antipsychotics
Amisulphride (Solian®) Olanzapine (Zyprexa®)
Aripiprazole (Abilify®) Paliperidone (Invega®)
Chlorpromazine (Largactil®) Pericyazine (Neulactil®)
Clozapine (Clopine®) Quetiapine (Seroquel®)
Droperidol (Droleptan®) Risperidone (Risperdal®)
Flupenthixol (Flunaxol®) Trifluperazine (Stelazine®)
Fluphenazine (Modecate®) Ziprasidone (Zeldox®)
Haloperidol (Serenace®) Zuclopenthixol (Clopixol®)
Classification
Traditionally antipsychotics have been classified as typical or
1st generation (older) or atypical or 2nd generation (newer)

Not a useful classification as both groups
Similar modes of action
Similar side effect profiles

Older medications were classified according to chemical
structure, however not helpful for the newer antipsychotics

In clinical practice – termed as high potency and low potency
Mechanism of action
Antipsychotic action involves blockade of CNS
dopamine receptors in the mesolimbic pathways

All effective antipsychotics block D2 receptors.
The affinity for these receptors correlates with
the effective dose of the drugs
Mechanism of action
Many antipsychotics also block serotonin 5HT2A and
5HT2C receptors

and may antagonise other receptors
α1 - adrenoreceptors

Histamine H1 receptors

This does not effect their efficacy in psychotic illness
but can produce unwanted side effects
Receptor affinities of some
antipsychotics

Note: some older FGA show some preference for D2 over D1
Some of the newer SGA agents are highly selective for D2
Indications
Acute and chronic psychosis

Acute mania & maintenance of bipolar disorder

Organic psychosis (e.g. dementia – associated agitation)

Severe behavioural disturbances in children

Tourette's syndrome & other chorea's

Some other indications
Adjunct in anaesthesia e.g. Droperidol
Adjunct in treatment of alcoholic hallucinations e.g. Haloperidol
Intractable nausea & vomiting e.g. Haloperidol, Droperidol
Intractable hiccup (if non-drug treatment fails) e.g.
Chlorpromazine
Common adverse effects
All antipsychotics have
Anticholinergic effects some degree of
Blurred vision anticholinergic activity
EXCEPT
Dry Mouth Amisulphride
Constipation
Aripiprazole
Paliperidone
Urinary hesitance or retention Risperidone
Ziprasidone
Sedation

Orthostatic hypotension – due to the blockade if the Alpha-
receptors which may lead to syncope and falls

EPSE

*as with all medications there are individual differences in
tolerability and occurrence of adverse effects
Common adverse effects

http://www.uspharmacist.com/content/c/10207/?t=alzheimer%27s_and_dementia,psychotropic_disorders
Common adverse effects
Extrapyramidal effects (EPSE)

Acute dystonia

Muscle spasm of face, neck, tongue, jaw and/or hands

Hyperextension of the neck & trunk, arching of the back

Can interfere with walking, talking or swallowing

Dystonia's include
Torticollis
Carpopedal spasm
Trismus
Perioral spasm
Oculogyric crisis
Common adverse effects
Drug induced Parkinsonism

Similar to Parkinson’s Disease
Shuffling gait
Drooling
Tremor
Increased rigidity (cogwheel) or
Bradykinesia
Akinesia has also been reported

Usually develops after week-months of treatment
Usually reversible

Treated with anticholinergics or using an alternative
medication
Common adverse effects
Akathisia

Motor restlessness

Person feels unable to sit/stand still, feels
urgent need to move, pace, rock or tap foot

Can also present at apprehension,
irritability & general uneasiness

Often confused with worsening agitation

More common in females

Usually occurs 2-3 days (up to several
weeks) after starting treatment and may
subside spontaneously
Common adverse effects
Tardive Dyskinesia

Characterised by abnormal movements of
the mouth, face, tongue
Lip smacking
Tongue darting, licking movements
Constant chewing movements
Sucking
Grunting
Sometimes abnormal movements head,
neck trunk or limbs
May appear after medium to long term
treatment
May be irreversible/no cure
Common adverse effects
Endocrine effects

More common in women

Due to dopamine receptor blockade – leads to  prolactin release
which may cause
Gynecomastia
Galactorrhoea
Amenorrhoea
Anovulation
Impaired spermatogenesis
 libido
Impaired sexual arousal
Impotence
Anorgasmia
Common adverse effects
Effect due to hyperprolactinaemia
Dose dependent
Associated with all antipsychotic drugs except
Aripiprazole
Clozapine
Quetiapine

Hyperprolactinaemia more likely with
Amisulphride
Paliperidone
Risperidone
Typical antipsychotics
Common adverse effects
Weight Gain

Most antipsychotics can cause weight gain
Especially – Clozapine, Olanzapine and Quetiapine

Less in – Amisulpride, Aripiprazole, Ziprasidone

http://primarypsychiatry.com/augmentation-strategies-in-the-treatment-of-major-depressive-disorder/
Common adverse effects
Metabolic Syndrome

Schizophrenia and other mental illnesses are an
independent risk factor for diabetes

Most antipsychotics increase this risk

Clozapine and Olanzapine are especially associated
with
Abnormal glucose tolerance
 Serum lipids
Infrequent or rare adverse effects
Neuroleptic Malignant Syndrome

Rare
Coarse tremor
Catatonia

Potentially fatal

Characterised by
Fever (>38oC)
Marked muscle rigidity
Altered consciousness
Autonomic instability (tachycardia, tachypnoea, urinary &faecal
incontinence
 serum creatine kinase concentrations and leucocytosis
Infrequent or rare adverse effects
ECG changes

Some antipsychotics can prolong the QTc interval which can
lead to life threatening arrhythmias (torsades de pointes)
Especially: Amisulphride, Droperidol, Haloperidol, Ziprasidone

Certain individuals are more susceptible
Age/gender (female)
Left ventricular failure
Recent cardio conversion
Electrolyte imbalances
Hypomagnesaemia
Hypokalaemia
Hypocalcaemia
Hepatic dysfunctions https://www.kg-ekgpress.com/ecg_web_brain_DEMO_-_chapter_7_-_qt_interval/
Pharmacokinetics
Most antipsychotic drugs are
Highly lipophilic

Highly protein bound

Relationship between plasma
concentration and effect is highly
variable – therefore need to tailor
the dose
40% non response rate
Some have erratic and
unpredictable absorbency

Diagram shows range of peak plasma concentrations v’s dosages in 14 patients
Note: one patient showed no response
Pharmacokinetics
Most antipsychotic drugs
enter foetal circulation and
breast milk, therefore
should be avoided in
pregnancy
Neonatal side effects
include
Dystonic reactions
Sedation
Withdrawal

Most have long half lives
(t1/2)
Dosage forms
Tablets
Capsules
Liquid preparations
Depot injections
Fluphenazine (Modecate®)
Haloperidol (Haldol®)
Fluphenthixol (Fluanxol Depot®)
Zuclopenthixol;
Zuclopenthixol Acetate (Clopixol Acuphase®)
Zuclopenthixol deconoate (Clopixol depot®)
Parenteral
Haloperidol
Droperidole (Droleptan®)
Chlorpromazine (Largactil®)
Dosage forms
Clozapine
Used in treatment of patients non responsive to,
or intolerant of other antipsychotics

Able to relieve +ve and –ve symptoms

Antagonist at D1, D2, D4 and 5HT2 receptors

Cancause profound orthostatic hypotension
accompanied by cardiac or respiratory failure.

Therefore need medical supervision &
resuscitation facilities when started
Clozapine
Associate with severe side effects;
Blood Dyscrasias
Other side effects
Hyperpyrexia (5%)
Nausea and vomiting
Drowsiness (40% of treated people)
Tachycardia
Hypersalivation (can cause aspiration pneumonia)
Weight gain
Seizures
Priapism
Clozapine
Precautions;
Parkinson’s disease
Epilepsy
Respiratory failure
Hypothyroidism
Shock
Closed angle glaucoma, increase intraocular pressure,
GI obstruction
Urinary retention
Low WCC or previous blood abnormality
Elderly require lower starting doses
Anticholinergic Drugs
Anticholinergic Drugs
Anticholinergic drugs can be used to treat a variety of
conditions.

Many different types of anticholinergic drug, but they
all work by blocking the action of acetylcholine, a type
of neurotransmitter. Blocking this neurotransmitter
inhibits involuntary muscle movements and various
bodily functions.

Anticholinergics are regularly used in
psychiatric practice to counteract the extrapyramidal
symptoms secondary to antipsychotic drugs

Some extrapyramidal side effects (e.g. drug induced
Parkinsonism, akinesia, dystonia) may be decreased
by anti-parkinsonian drugs with anticholinergic action
Anticholinergic Drugs
Anticholinergic drugs block muscarinic receptors &
reduce relative excess of cholinergic activity that
accompanies dopamine deficiency

Drugs Include
Benztropine
Benzhexol

Biperidin

Orphenadrine
Antidepressants
Monoamine theory of depression
States that depression is caused by functional deficit of
monoamine transmitters at certain sites in the brain, while
mania results from a functional excess

Early observations found that
Depletion of monoamines NA and 5HT in the neuronal
synapses of the brain cause depression
Drugs that ↑ the availability of these monoamines would be
effective in relieving depression
Monoamines & their metabolites are reduced in depressed
patients

*Interestingly, the direct biochemical effect of antidepressants is
rapid BUT the antidepressant effects can take weeks to develop
Antidepressants
Monoamine theory of depression
Tricyclic antidepressants (TCAs)

Monoamine Oxidase Inhibitors (MAOIs)

Selective Serotonin Reuptake Inhibitors (SSRIs)

Other antidepressants
Duloxetine (Cymbalta®)
Mianserin (Lumin®)
Mirtazapine (Avanza®)
Moclobemide (Aurorix®)
Reboxetine (Edronax®)
Venlafaxine (Efexor®)
Sites of action of antidepressants
Selectivity of monoamine uptake inhibitors
for Noradrenaline (NA) & Serotonin (5HT)
Tricyclic antidepressants
Mode of action:

Block amine pump i.e. block
the neuronal reuptake of
noradrenaline and serotonin
into presynaptic terminals.

Also block other receptors
Alpha1 adrenergic
Histaminergic
Cholinergic
Serotonergic
Tricyclic antidepressants
Indications:

Major depression

Nocturnal enuresis, urge
incontinence

Adjunct in pain management

ADHD (third line treatment)

Migraine prophylaxis

Clomipramine also indicated for
Obsessive-compulsive disorder
Cataplexy associated with
narcolepsy
Tricyclic antidepressants
Common adverse effects
these appear early by therapeutic response is usually delayed

Anticholinergic effects Sedation
Dry mouth Due to H1 block
Blurred vision Tolerance develops with time
 Lacrimation Orthostatic hypotension
Constipation (esp. in elderly) Due to α1 block
Urinary hesitance or retention Others
 GI motility Loss of libido and other sexual side
effects
Anticholinergic delirium
Tremor
Confusion
Dizziness
Agitation
Anxiety
Common adverse effects - TCAs
Infrequent adverse effects - TCAs
Cardiovascular effects
Slowed cardiac conduction Especially in high doses
T wave inversion pr flattening
Arrhythmias
Sinus Tachycardia

Others
Hyperglycaemia
Gynaecomastia in males
Breast enlargement & galactorrhoea in females
Manic episodes
TCA Overdose
Cardiovascular toxicity
Leading cause of death in OD
Death have occurred in children with
low doses

TCAs have a direct cardiac
depressing action similar to class 1
antiarrhythmics

Cardiac toxicity & hypotension –
difficult to manage

ECG
QRS complex is prolonged
QT interval is prolonged due to
prolongation of the QRS complex
Withdrawal Syndrome
TCAsmust be withdrawn slowly to avoid
discontinuation syndrome

May develop Cholinergic rebound
Runny nose
Hypersalivation
Diarrhoea
Abdominal cramping
Sleep disturbances
Monoamine Oxidase Inhibitors (MAOI)
Include
Phenelzine (Nardil®)
Tranylcypromine (Parnate®)

Mode of action
Bind irreversibly to
monoamine oxidase
(enzyme), responsible for
the breakdown of the
biogenic amine
neurotransmitters;
Noradreanline
Dopamine
Serotonin
Monoamine Oxidase Inhibitors (MAOI)
Indications:
Major depression (2nd Line)
Some anxiety disorders (including phobic and panic disorders (2nd Line)

Common Adverse effects
Orthostatic hypotension
Weight gain
Sleep disturbances (especially insomnia – not given after 3pm)
Agitation
Impotence
Rare
Hypertensive Crisis
Monoamine Oxidase Inhibitors (MAOI)
The most important side effect is HYPERTENSIVE CRISIS (which may
result in death)

A sudden paroxysmal rise in in BP may occur
It is usually associated with foods containing tyramine (or some
drug interactions)

The metabolism of some amine drugs e.g. Sympathomimetic
drugs, is inhibited by MAOIs; may lead to a dangerous rise in BP
which may lead to intracranial bleeding and death.

Sympathomimetics are found in many cough mixtures and
decongestants including nasal drops
Phenyephrine e.g. Demazin®
Pseudoephedrine e.g. Sudafed®
Dextromethophan e.g. Benadryl dry®
Monoamine Oxidase Inhibitors (MAOI)
Foods rich in tyramine may elicit the reaction
Tryamine found in many foods (Particularly foods that contain
aged proteins)
Matured cheese
Yeast extracts e.g. Vegemite
Pods and broad beans
Fermented or aged foods such as salami, pate, dried sausage
Red wine, beer
Sour cream
Soy bean extracts e.g. Tofu
Causes release of certain biogenic amines in the body
Since MAOIs inhibit the breakdown of the amines →↑ BP
→Death
Danger of interaction persists 2-3 weeks after MAOI
discontinued
Monoamine Oxidase Inhibitors (MAOI)
Moclobemide (Aurorix®)
Competitively & reversibly inhibits monoamine oxidase
Not related to other antidepressants

Original MAOIs act non-selectively on MAO-A and MAO-B
Irreversible inhibition

Moclobemide is relatively selective for type A Monoamine
oxidase

Moclobemide  the metabolism of Noradrenaline, serotonin &
dopamine   concentrations of these neurotransmitters.
Moclobemide (Aurorix®)
Indications
Mood disorders, panic disorders and social phobia

Advantages
Not sedative
Low tryamine diet not usually required
Relatively nontoxic in overdose & less likely to cause
sexual dysfunction than MAOIs

Common side effects
Nausea, dry mouth, constipation, diarrhoea, anxiety,
restlessness, insomnia, dizziness & headache.
Selective Serotonin Reuptake Inhibitors
(SSRIs)
Include
Citalopram (Cipramil ®)
Escitalopram (Lexapro®)
Fluoxetine (Lovan®, Prozac®)
Fluvoxamine (Faverin®, Luvox®)
Paroxetine (Aropax®)
Sertraline (Zoloft®)

Mode of Action
Selectively block the reuptake of serotonin into presynaptic
terminals.

Have little affinity for
dopamine, acetylcholine, histamine or adreno-receptors
Selective Serotonin Reuptake Inhibitors
(SSRIs)
Indications
Mood disorders (Major Depression)
Anxiety disorders (OCD, Panic disorder)
Bulimia nervosa
Premenstrual dysphoric disorder

Common side effects
Nausea, diarrhoea, tremor, agitation, headache, sweating,
insomnia, drowsiness, weight loss or gain, sexual
dysfunction, rhinitis

* Less cardiovascular, anticholinergic & sedating
adverse effects than TCAs
SSRI comparative information
Selective Serotonin Reuptake Inhibitors
(SSRIs)
Serotonin Syndrome
Serotonin toxicity due to  serotonin concentrations at
synapse  hyper-stimulation of 5HT receptors

Symptoms – a clinical triad of abnormalities

Cognitive effects
Mental confusion, hypomania, hallucinations, agitation

Autonomic effects
Fever, hypertension, tachycardia, nausea

Somatic effects
Muscle twitching, hyper-reflexia
Serotonin Syndrome - (SSRIs)
May occur if
Changing antidepressants with inadequate ‘washout’ period
High dose of single drug
When more than one serotonergic agent used together

Serotonin toxicity
Warrants stopping implicated agent promptly
May be serious
Deaths have occurred

Potential interactions
Numerous and difficult to predict
May inhibit liver cytochrome P450 enzyme that metabolises
many drugs e.g. Fluoxetine inhibits CYP2D6 which effects the
metabolism of metoprolol etc.
Selective Serotonin Reuptake Inhibitors
(SSRIs)
Should not be given with
reversible or irreversible MAOIs
May cause serotonin toxicity

If transferring from SSRI to
reversible MAOI must let at
least 5 half lives elapse before
MAOI started
Selective Serotonin Reuptake Inhibitors
(SSRIs)
Taper slowly over several weeks

Symptoms of withdrawal
Nausea
Dizziness
Anxiety
Paraesthesia
Agitation
Sweating
Tremor
Confusion
Electric shock like sensations

Withdrawal symptoms more likely with Paroxetine & least
likely with Fluoxetine
Mianserin
Indication - Major depression
Tetracyclic antidepressant that shares most TCA
properties

Mode of action
Antagonist
α1-adrenergic
H1 – histaminergic
Serotonin receptors
Has little anticholinergic effect

Common side effects
Sedation, dry mouth, dizziness, vertigo
Can cause weight gain, blood dyscrasias (neutropenia,
agranulocytosis)
Mirtazapine (Avanza®,
Mirtazon®)
Indication - Major depression
Closely related to Mianserin in structure so should be
avoided in patients intolerant to Mianserin
Mode of action
Blocks post-synaptic serotonin 5HT2A, 5HT2c and 5HT3
receptors
Blocks pre-synaptic central α2-adrenergic inhibitory
receptors

Common side effects
Sedation, weakness, increased appetite, weight gain,
peripheral oedema
Reboxetine (Edronax®)
Indication - Major depression

Mode of action
Inhibits noradrenaline reuptake
Weakly inhibits serotonin reuptake

Common side effects
Urinary retention, insomnia, constipation, dry mouth,
headache, paraesthesia,  in diastolic BP,  heart
rate, sweating
Venlafaxine (Efexor®)
Indications - Major depression, generalised anxiety,
social phobia, panic disorder

Mode of action
Inhibits serotonin and noradrenaline reuptake

Common side effects
Sweating, dizziness, anorexia, anxiety, nausea, rash,
tremor, vomiting, hypertension

More toxic than SSRIs in overdose – may cause
arrhythmias, ECG changes & seizures, fatalities have
occurred
Adverse effects of Antidepressants
Adverse effects of Antidepressants
General Principles
Evidence suggest that all are approximately equal in efficacy
but response can vary markedly in patients

First line drugs
TCAs
SSRIs
Mirtazapine Moclobemide

TCAs, MAOIs and Venlafaxine more toxic in overdose than
other first line treatment

TCAs & Mirtazapine often cause weight gain

Some improvement in symptoms in 1-3 weeks but full
antidepressant effect in 6-8 weeks
Drugs used in Bipolar disorder
Drugs used in Bipolar disorder
Mood stabilisers
Lithium
Only specific anti-mania drug known
Is drug of choice for treatment & prophylaxis of acute mania
Carbamezepine, Sodium Valporate

Antipsychotic drugs (may be used alone or in combination with
BDZ)
Note: Haloperidol, Zuclopenthixol, Olanzepine and Quetiapine
approved for use in acute mania

If patients unresponsive to drug treatment – electroconvulsive
therapy may be useful
Lithium – adverse effects
Common
Metallic taste
Diarrhoea
Epigastric discomfort
Polyuria
Weight gain
Oedema
Skin reactions e.g. acne
Hypothyroidism

Infrequent
Nephrogenic diabetes insipidus with polydipsia and polyuria

Rare
Hyperthyroidism
Lithium - Overdose
Warning symptoms of lithium intoxication include;
Extreme thirst, frequent urination, nausea and vomiting
 anorexia
Diarrhoea
Drowsiness
Ataxia
Tinnitus
Blurred vision Dysarthria
Course tremor

Treatment
Not specific antidote for lithium poising
Lithium treatment should be stopped and steps taken to reverse
toxicity
Serum levels monitored
Lithium
Cause of high blood levels
Excessive dosage
 lithium excretion
 Sodium
 Sodium loss – vomiting, diarrhoea, fever, Thiazide diuretics
(e.g. chlorothiazide, hydrochlorothiazide)
Dehydration

Drug Interactions
Blood levels or lithium are increased by;
Thiazide diuretics, anti-inflammatory drugs and ACE inhibitors
Blood levels are decreased by;
Sodium salts (e.g. Sodium bicarbonate – found in indigestion
medications e.g. Salvital, ural, citravescent)
Hypnotics and Sedatives
Hypnotics and Sedatives
Medications to treat insomnia and anxiety
Difficulty falling asleep or in staying asleep or
disturbed sleep patterns → insufficient sleep

Drug used to treat insomnia
Hypnotics

Anxiety may be due to
A physical disorder (e.g. hyperthyroidism) or
Use of legal or illicit drugs (e.g. corticosteroids, cocaine)

Drugs used to treat symptoms of anxiety
Anxiolytics (or sedatives)
Sedatives & Hypnotics
Examples
Benzodiazepines
Zolpidem
Zopiclone
Chloral hydrate
Ethanol
Barbiturates

Sedationis a side effect of may drugs that are
not general CNS depressants:
Classical antipsychotics
Antihistamines
Gamma-Aminobutyric Acid (GABA)
GABA is main inhibitory transmitter in brain
Occurs fairly uniformly throughout brain tissue (very
little in the peripheral tissues)

Formed from glutamate
by the enzyme glutamic acid decarboxylase (GAD)
This enzyme is found only in GABA-synthesising
neurons

http://what-when-how.com/molecular-biology/gamma-aminobutyric-acid-gaba-molecular-biology/
Gamma-Aminobutyric Acid (GABA)
Action of GABA is terminated
mainly by uptake into the nerve
terminals but also by
deamination
By GABA-transaminase (inhibited
by Vigabatrin which is used in
epilepsy)

GABAA receptors are the target
of a number of important
centrally acting drugs including
Benzodiazepine
Barbiturate

http://what-when-how.com/molecular-biology/gamma-aminobutyric-acid-gaba-molecular-biology/
Benzodiazepine – Mode of action
Benzodiazepines
Promote the binding of major inhibitory neurotransmitter
GABA in the GABAA subtype of GABA receptors
Bind with high affinity to an accessory site
(Benzodiazepine BNZ receptor) on the GABAA receptor in
such a way that they
Promote the binding of GABA &
Enhanced the GABA-induced ionic currents through the chloride
channels

http://www.arnoldgroup.org/Research-GABA%20Receptor.html
Benzodiazepine – Mode of action
Benzodiazepines appear to  the efficiency of GABA
minergic synaptic inhibition by facilitating the frequency of
opening of GABA-activated chloride ion channels
Results in a  in the firing rate of critically important neurons in
may regions of the brain.

Benzodiazepines do not substitute for GABA i.e. they are not
GABA-receptor agonist

http://www.arnoldgroup.org/Research-GABA%20Receptor.html
Benzodiazepines
Indications
Anxiety

Insomnia

Panic disorders

Acute behavioural disturbance

Seizures

Muscle spasms

Acute alcohol, barbiturate and benzodiazepine withdrawal

Sedation procedures
Comparative information
Benzodiazepines can be categorised into different groups
Very short acting (HL< 6 hours) Medium acting (12-24 hours)
Midazolam (Hypnoval®)  Bromazepam (Lexotan®)
Triazolam (Halcion®)  Lorazepam (Ativan®)

Short acting (HL 6-12 hours) Long acting (HL > 24 hours)
Alprazolam (Xanax®)  Clobazapam (Frisium®)
Oxazepam (Murelax®,  Cloanazepam (Paxam®,
Serepax®) Ribotril®)
Temazepam (Normison®,  Diazepam (Valium®)
Temaze®)  Flunitrazepam
(Hypondorm®)
 Nitrazepam (Aldorm®,
Mogodon®)
Benzodiazepines
Withdrawal Symptoms
Anxiety
Insomnia
Nightmares
Irritability
Dysphoria
Sweating
Hallucinations
Tremors
Tachycardia
Hypertension
Psychosis
Seizures
Benzodiazepines
Withdrawal Symptoms
Shorter acting BDZ are more likely to lead to acute withdrawal
Symptoms
High doses of BDZ used over a prolonged period can lead to more
severe symptoms after discontinuation (agitation, depression,
panic, & myalgia)

Some symptoms
May be similar to original complaint
May continue for weeks/months

BDZ best reserved for short term use
2 – 4 weeks
Should be part of broader treatment plan

Long term use can result in tolerance and dependence
Drug seeking behaviour, craving etc.
Drug interactions
Additive CNS depression with drugs that act as CNS
depressants;
Alcohol

Antihistamines

Antidepressants

Antipsychotics

Opioid analgesics
Benzodiazepine receptor antagonist
In overdose
BDZ → prolonged sleep, without serious depression of
respiration or cardiovascular function

When taken with other CNS depressants
Can cause severe, sometimes life threatening respiratory
depression
Non-Benzodiazepine Anxiolytics
Buspirone (Buspar®)
Partial agonist at the 5HT1A receptor

Indication - Anxiety

Alternative where long term treatment is needed and BZD not
desirable – less potential for dependence
Concurrent use of BDZ  the efficacy of Buspirone

Does not prevent BDZ withdrawal

Optimal effect may take 2 weeks

Common side effects – light headedness, dizziness, nausea,
headaches, nervousness, excitement

NOTE: Need to avoid grapefruit – may  risk side effects
Non-Benzodiazepine Anxiolytics
Zolpidem (Stilnox®)
Indication – Short term treatment of insomnia
Potentiates the inhibitory effect of GABA
Is not a BDZ
Adverse effects
Common – diarrhoea
Rare – paradoxical symptoms e.g. worsening insomnia,
irritability, agitation

Its
Potential for tolerance, dependence or abuse is
not clear
Non-Benzodiazepine Anxiolytics
Zopliclone (Imovane®, Imrest®)

Indication – Short term treatment of insomnia

Potentiates the inhibitory effect of GABA in the
brain

Adverse effects
Common – taste disturbance (bitter), dry mouth

Should be used short term
Non-Benzodiazepine Anxiolytics
Diphenhydramine (Snuzaid Gels®, Unisom®,
Sleepgels®)
Over the counter, 50mg nocte
Injection of content of capsules (drug mis-users) may
cause phelebitis, infection, more serious local effects

Promathazine

Doxylamine
 Anticonvulsants
(also known as antiepileptics)
Anticonvulsants
Anticonvulsants (Antiepileptic's) are used to control or prevent
seizure disorders while minimising unwanted side-effects
Aim for monotherapy (one medication)

introduced slowly

Trial and error (75% seizure free while 25% resistant)

Desirable features
highly effective with low toxicity

long-acting and non-sedating

not highly protein-bound

inexpensive

not resulting in tolerance
Anticonvulsants
Mechanism of action;

Enhance GABA inhibition (e.g. benzodiazepines) or inhibit GABA
transaminase (Vigabatrin, Tiagabine and Topiramate)

Inhibit sodium channel function to stabilise the cell membrane
(Phenytoin, Carbamazepine, Sodium Valproate and Lamotrigine)

Inhibit calcium channel function or ‘calcium conductance’
(Ethosuximide)

Raise brain levels of GABA (Gabapentin)
Anticonvulsants
Efficacy
Different medications are more effective for treating specific
seizures
Anticonvulsants
Side effects

Behavioural and cognitive effects
Anticonvulsants
Other common side effects
Depression of cardiovascular and respiratory system

Enhance metabolism of Vitamin D – reduced bone mineral
density

Gastrointestinal effects

Haematological effects
Lithium
NOTE: Long term use of lithium in therapeutic concentrations
thought to cause histological and functional changes in
kidney. Therefore should perform renal and thyroid function
tests at baseline, then every 3-6 months
Patient education
Need to watch for signs of Lithium toxicity (e.g. extreme
thirst and frequent urination, nausea and vomiting),
especially during illness, excessive sweating or low fluid
intake. If occurs – stop treatment STAT
In general do not cease treatment abruptly – withdraw
gradually to avoid relapse
Take with food and consume more fluid (non-alcohol) during
hot weather to avoid toxicity.