Psychiatry Pharmacology

Question 1

What is the monoamine hypothesis?

Answer 1

depletion of monoamine neurotransmitters; noradrenaline, serotonin and dopamine – or a change in their receptors’ function.

Question 2

What is support for monoamine theory?

Answer 2

antidepressants increase the levels of monoamine neurotransmitters, amphetamines/cocaine increase the levels of monoamines in synaptic cleft and can elevate mood, reserpine decreases levels of monoamines pre-synaptically and can depress mood and CSF levels of 5-HIAA (serotonin metabolite) are decreased in depression sufferers.

Question 3

What is dopamine hypothesis?

Answer 3

increased levels of dopamine in the brain –> schizophrenia

Question 4

What is support for the dopamine hypothesis?

Answer 4

amphetamines increase dopamine release and in high doses can induce a psychosis, amphetamines and other dopaminergic agents exacerbate the symptoms of schizophrenia, dopamine antagonists are effective in treatment of schizophrenia and clinical potency of 1st gen antipsychotics is correlated to their affinity for D2 receptors.

Question 5

Elements of the revised dopamine hypothesis?

Answer 5

Positive symptoms = hyperdopaminergia in mesolimbic system
Negative symptoms = hypodopaminergia in mesocortical system
Nigrostriatal tract = responsible for EPSE of AP medication
Tuberoinfundibular tract = responsible for endocrine side-effects of AP medication

Question 6

Neurotransmitter theory in dementia?

Answer 6

• Acetylcholinesterase inhibitors increase cholinergic transmission – in AD there is a depletion of Ach and neurones that use Ach – can modestly and temporarily ameliorate cognitive performance and behavioural problems in a minority of patients with mild to moderate AD and LB dementia.
• NMDA receptor antagonists protect neurones from glutamate-mediated neurotoxicity – NMDA receptors allow increased release of Ca2+ into cells  oxidative stress and cell death – effective in moderate to severe AD.

Question 7

Examples of SSRIs?

Answer 7

Fluoxetine, Citalopram, Sertraline, Escitalopram, Fluvoxamine, Paroxetine

Question 8

Mechanism of action of SSRIs?

Answer 8

Selectively inhibit the reuptake of serotonin (5-HT) at synaptic cleft. Not toxic in overdose.

Question 9

Clinical indications of different SSRIs?

Answer 9

Citalopram - depressive illness, panic disorder
Sertraline – depressive illness, OCD, panic disorder, PTSD, social anxiety disorder
Fluoxetine – major depression, bulimia nervosa, OCD
Escitalopram – depressive illness, GAD, OCD, panic disorder, social anxiety disorder
Fluvoxamine – depressive illness, OCD
Paroxetine – major depression, OCD, panic disorder, social anxiety disorder, PTSD, GAD

Question 10

Side effects of SSRIs?

Answer 10

Mild GI, loss of libido, dizziness, dry mouth, blurred vision, sweating, headaches, hyponatraemia.
Suicide risk – risk of suicide can be increased in early stage of treatment due to increased motivation.
Serotonin syndrome.

Question 11

Examples of tricyclic antidepressants?

Answer 11

Dibenzocyclophenates = Amitriptyline, Nortriptyline

Iminodibenzyls = Clomipramine, Imipramine, Trimipramine,

Others = Dosulepin, Doxepin, Lofepramine

Question 12

Mechanism of action of TCAs?

Answer 12

Inhibit reuptake of noradrenaline and serotonin and also have antagonist activities at a variety of neurotransmitter receptors.

Question 13

Clinical indications of TCAs?

Answer 13

Clinical depression – more effective than SSRIs for severe depression, but should be used cautiously in the elderly and physically ill. Should be avoided in suicidal patients due to toxicity in overdose.

Question 14

Side effects of TCAs?

Answer 14

Antimuscarinic = dry mouth, blurred vision, constipation, urinary retention, sedation, nausea
Antiadrenergic = postural hypotension, sedation
Antihistaminergic = sedation, weight gain
Cardiotoxic = Arrhythmias (↑ventricular conduction time - contraindicated in patients with recent MI and in those with heart block)
Neurotoxic = delirium, movement disorders, convulsions

Question 15

Interactions of TCAs?

Answer 15

Dental anaesthetics containing lignocaine, MAOIs

Question 16

Example of a NARI?

Answer 16

Reboxetine

Question 17

Mechanism of NARIs?

Answer 17

Selectively inhibit reuptake of noradrenaline in the brain.

Question 18

Clinical indications of NARIs?

Answer 18

Indicated in severe depression, usually second or third line. More effective than SSRIs in severe depression. Less likely than SSRIs to trigger mania in BAD or convulsions in epilepsy. Very low toxicity and wide safety margin – safe in overdose.

Question 19

Examples of SNRI? (Serotonin and Noradrenaline RI)

Answer 19

Duloxetine, Venlafaxine

Question 20

Mechanism of action of SNRIs?

Answer 20

Selectively inhibit the reuptake of noradrenaline and serotonin in the brain.

Question 21

Indications of SNRIs?

Answer 21

Indicated in treatment-resistant depression – may have better efficacy and more rapid onset of action than SSRIs in some cases.
Also indicated in GAD.

Question 22

Side effects of SNRIs?

Answer 22

Similar side effect profile to SSRIs – may cause hypertension and heart disease so shouldn’t be used in patients with heart disease, uncontrolled hypertension or electrolyte imbalance.

Question 23

Monitoring of SNRIs?

Answer 23

ECG and blood pressure measurement should be undertaken prior to starting treatment and BP measurements should be undertaken at regular intervals thereafter.

Question 24

Example of NaSSa? (Noradrenaline and serotonin -speicifc antidepressant)

Answer 24

Mirtazapine

Question 25

Mechanism of action of NaSSa?

Answer 25

Enhances noradrenergic and serotonergic neurotransmission. Antagonist at 5-HT2 and 5-HT3 receptors and central α2-adrenoreceptors. Increases central noradrenaline release by antagonising inhibitory α2-adrenoreceptors. Also increases serotonin release by both enhancing a facilitatory noradrenergic input to serotonergic cell bodies and antagonising inhibitory pre-synaptic α2-adrenoreceptors on serotonergic neuronal terminals.

Question 26

Clinical indications of NaSSa?

Answer 26

Used as second or third line treatment for depression (severe)

Question 27

Side-effects of NaSSa?

Answer 27

Weight gain, sedation, dry mouth. Becomes less sedative as dose is increased.
Less sexual side effects than other antidepressants. Safe in overdose.

Question 28

Examples of MAOIs?

Answer 28

Phenelizine, Isocarboxazid, Tranylcypromine

Question 29

Mechanism of MAOIs?

Answer 29

Inhibit metabolic degradation of monoamines by monoamine oxidase.

Question 30

Interactions of MAOIs?

Answer 30

• Interact with tyramine-containing foods (cheese, red wine) –> inhibition of peripheral metabolism of tyramine –> hypertensive crisis. Also avoid indirectly acting sympathomimetic amines (amphetamine, ephedrine, fenfluramine, phenylpropanolamine) – present in many cough mixtures and nasal decongestants.
• Avoid L-Dopa, pethidine, insulin and barbituates.
• Can interact dangerously with tricyclics
• TCA/SSRI should not be started until 2 weeks after stopping a MAOI. A MAOI should not be started until at least 7-14 days after stopping a TCA/SSRI.

Question 31

Monitoring/overdose in MAOIs?

Answer 31

Overdose = extremely serious and should lead to immediate hospitalisation. Signs/symptoms may be absent in initial 12-hour period following overdose.

Question 32

Example/mechanism of RIMA? (reversible inhibitor of monoamine oxidase A)

Answer 32

Moclobemide – selective for MAO-A, not B. Is also reversible so can be displaced by tyramine, therefore much less likely to cause a food or drug interaction.

Question 33

Examples of first generations antipsychotics?

Answer 33

Butyrophenones = Haloperidol
Thioxanthenes = Flupentixol, Zuclopenthixol
Diphenylbuytlpiperidines = Pimozide
Aliphatic (Phenothiazines) = Chlorpromazine, Levomepromazine
Piperazines (Phenothiazines) = Fluphenazine, Trifluoperazine
Piperidines (Phenothiazines) = Pipotiazine palmiate

Question 34

Mechanism of action of first generation antipsychotics?

Answer 34

Block postsynaptic dopamine D2 receptors in the CNS. Antidopaminergic action on the mesolimbic system is the effect required – dopamine hypothesis. Antidopaminergic action on other systems (tuberoinfundibular and nigrostriatal pathways) results in adverse side effects.

Question 35

Clinical indications of 1st gen antipsychotics

Answer 35

Indicated in the treatment of schizophrenia, the acute symptoms of mania and psychotic symptoms resulting from organic disorders and psychoactive substance abuse.

Question 36

Classes of side-effects of 1st gen antipsychotics?

Answer 36

Tuberoinfundibular (dopamingergic)
Nigrostriatal (dopaminergic)
Acetylcholine (muscarinic)
Adrenaline/noradrenaline
Histamine
Neuroleptic malignant syndrome

Question 37

Tuberoinfundibular (dopaminergic) side effects of 1st gen antipsychotics?

Answer 37

Dopamine is prolactin inhibitory factors, so typical antipsychotics cause hyperprolactinaemia –> galactorrhoea, gynaecomastia, menstrual disturbances, reduced sperm count and reduce libido.

Question 38

Nigrostriatal (dopaminergic) side effects of 1st gen antipsychotics?

Answer 38

Antidopaminergic action on NS system results in extrapyramidal side-effects (EPSE).
Parkinsonism, Acute Dystonias, Akathisia, Tardive Dyskinesia.

Question 39

Antimuscarinic side-effects of 1st gen antipsychotics?

Answer 39

Dry mouth, blurred vision, urinary retention, nasal congestion, constipation. Central antimuscarinic actions can lead to convulsions and pyrexia.

Question 40

Adrenaline/noradrenaline side effects of 1st gen antipsychotics?

Answer 40

Postural hypotension, failure of ejaculation

Question 41

Histamine side effects of 1st gen antipsychotics?

Answer 41

edation (can be a benefit), weight gain

Question 42

What is neuroleptic malignant syndrome?

Answer 42

Potentially fatal toxic delirious state. Characterised by: autonomic dysfunction (hyperthermia, tachycardia, labile blood pressure, pallor, sweating); fluctuating level of consciousness; muscular rigidity; urinary incontinence.
Requires urgent medical treatment. Lab results show ↑serum CK and ↑WBC count.

Question 43

What can you do for people on 1st gen antipsychotics who are bad at taking their medications?

Answer 43

Typical AP medication can be given by depot injection – administered by deep IM injection at intervals of 2-8 weeks. Benefit is improved compliance, less potential for abuse/overdose and improved bioavailability.

Only one atypical AP medication available for depot – risperidone.

Question 44

What are the EPSEs of 1st gen antipsychotics?

Answer 44

1. Acute dsytonias
2. Akathisia
3. Parkinsonism
4. Tardive dyskinesia

Question 45

What is acute dystonia?

Answer 45

Often painful spastic contraction of certain muscles or muscle groups most commonly affecting the neck, eyes and trunk. For example, tongue protrusion, grimacing, torticollis. May respond to anticholinergics (procyclidine).

Question 46

What is akathisia?

Answer 46

(Greek – not to sit) Distressed feeling of inner restlessness manifested by fidgety leg movements, shuffling of feet, pacing etc. May respond to anticholinergics, propranolol, cyprohepatadine (antihistamine), benzodiazepines or clonidine.

Question 47

What is parkinsonism?

Answer 47

Parkinsonian triad of tremor, muscle rigidity and bradykinesia. May respond to anticholinergics.

Question 48

What is tardive dyskinesia?

Answer 48

Involuntary, repetitive, purposeless movements of the tongue, lips, face, trunk, and extremities that may be generalised or affect only certain muscle groups, typically orofacial muscle groups. TD occurs after several months or years of antipsychotic treatment and is often irreversible. No consistently beneficial treatment and may be exacerbated by anticholinergics.

Question 49

Examples of second gen (atypical) antipsychotics?

Answer 49

Sulpiride, Thioridazine, Clozapine, Risperidone, Amisulpride, Olanzapine, Quetiapine, Zotepine, Aripiprazole, Paliperidone

Question 50

Novel 3rd gen antipsychotic?

Answer 50

Aripiprazole = novel 3rd generation AP (dopamine-serotonin system stabiliser). Good efficacy in treating +ve symptoms, -ve symptoms and affective symptoms and is better tolerated than other APs

Question 51

Clinical indications of atypical antipsychotics?

Answer 51

NICE guidelines recommend using one of the atypical antipsychotics other than clozapine as first-line treatment for schizophrenia.

Question 52

Mechanism of atypical antipsychotics?

Answer 52

Have lower propensity to cause EPSEs – due to fact that primary action is not D2 receptor blockade. Have a greater action than typical antipsychotics on other receptors, such as other dopaminergic receptors, 5-HT receptors, α-adrenergic, histamine and muscarinic receptors.

Question 53

Side effects of atypical antipsychotics?

Answer 53

All = Weight gain, dizziness, postural hypotension (to avoid – begin treatment with dose titration). Hypoglycaemia/TIIDM (esp. with clozapine, risperidone and olanzapine) Neuroleptic malignant syndrome may occur rarely.

Clozapine = Neutropenia and agranulocytosis

Risperidone = GI disturbances and hyperprolactinaemia. Not many anticholinergic or weight gain/sedation side effects.

Quetiapine = QT prolongation – not anticholinergic side effects.

Zotepine = QT prolongation

Question 54

Investigations before starting atypical antipsychotics?

Answer 54

Bloods – FBC; U&E; LFT; RBS/HbA1c; Prolactin; Lipids & cholesterol.

Physical – weight; BP; pulse.

ECG – particularly if specified in summary of product characteristics, physical examination shows specific CV risk, or if history of CVD or smoker.

Question 55

Clozapine monitoring?

Answer 55

regular haematological monitoring (weekly for first 18 weeks and at least fortnightly for first year of treatment). After a year, at least four-weekly. Should be withdrawn permanently if leucocyte count falls below 3000mm-3 or if the absolute neutrophil count falls below 1500mm-3

Question 56

Examples of lithium medications?

Answer 56

Lithium carbonate and lithium citrate – lithium is a cation (L+) which is not metabolised.

Question 57

Clinical indications of lithium?

Answer 57

Prophylaxis of BAD, treatment of mania/hypomania, treatment of resistant depression, prophylaxis of recurrent depression, treatment of aggression, treatment of self-mutilation.
Should only be started if there is clear intention to use it for at least 3 years, as poor compliance and intermittent treatment may lead to rebound mania.

Question 58

Side effects of lithium? (short-term)

Answer 58

Fatigue, drowsiness, dry mouth, metallic taste, polydipsia, nausea, vomiting, weight gain, diarrhoea, fine tremor, polyuria, muscle weakness, oedema – do not treat oedema with diuretics as loop/thiazide diuretics reduce lithium excretion and can lead to intoxication.

Question 59

Side-effects of lithium? (long-term)

Answer 59

Thyroid function disturbances (goitre, hypothyroidism, hyperthyroidism); memory impairment; nephrotoxicity; cardiovascular changes (T wave flattening on ECG, arrhythmias).

Question 60

Interactions of lithium?

Answer 60

ACE-i, thiazide diuretics and NSAIDs all can cause toxicity due to reduced renal excretion.
Carbamezapine – can result in neurotoxicity, prefer valproate.
Lithium is teratogenic – can cause Epstein anomaly. Excreted into breast milk so breastfeeding not advisable.

Question 61

Lithium toxicity - level and causes?

Answer 61

Occurs over 1.5mm/L. Caused by drugs (NSAIDs, diuretics), renal failure, UTI, dehydration. Patient needs to be informed that maintaining adequate fluid balance is important.

Question 62

Signs of lithium toxicity?

Answer 62

Mild drowsiness and sluggishness progressing to giddiness with ataxia; lack of co-ordination; anorexia; blurred vision; tinnitus; dysarthria; vomiting; diarrhoea; coarse tremor; muscle weakness and twitching.

Question 63

Symptoms of litihum >2?

Answer 63

Hyperreflexia and hyperextension of limbs; toxic psychoses; convulsions; syncope; oliguria.

Question 64

Management of lithium toxicity?

Answer 64

MEDICAL EMERGENCY – stop Li, give fluids, diuresis/dialysis; treat cause.

Question 65

Lithium monitoring? (before administration?

Answer 65

Need baseline investigations before administration – physical/weight, U&Es, renal function, TFTs, Ca2+, ECG, pregnancy test.

Question 66

Lithium monitoring? (after administration and long term)

Answer 66

Serum levels should be taken at 12 hours post-dose (usually in morning) and monitored at 5-7 day intervals until patient is stabilised, and at 3-4 monthly intervals thereafter. Renal function and TFTs should also be monitored.

Question 67

Examples of anticonvulsants?

Answer 67

Valproate, carbamezapine, lamotrigine

Question 68

Mechanism of action of anticonvulsants?

Answer 68

Enhance the action of GABA (inhibitory neurotransmitter) – precise mode of action in prophylaxis of BAD is unclear.

Question 69

Indications of valproate?

Answer 69

BAD prophylaxis (alone or as adjunct to lithium) – similar efficacy but quicker onset of action and is of particular benefit in rapid-cycling.

Question 70

Indications of carbamezapine?

Answer 70

Lithium-resistant BAD (2nd/3rd line), resistant mania, resistant depression. Particularly rapid-cycling.

Question 71

Indications of lamotrigine?

Answer 71

More effective against relapses of depression than against relapses of mania, can be used both in treatment of relapses of bipolar depression and in the prophylaxis of BAD.

Question 72

Side effects of valproate?

Answer 72

Often better tolerated than lithium, especially if lithium levels need to be maintained above 0.8 mmol/L. Nausea, tremor, sedation, weight gain, alopecia, blood dyscrasias, hepatotoxicity and pancreatitis. Can cause neural tube defects and other malformations in foetus – should be avoided in women of child-bearing age.

Question 73

Side effects of carbamezapine?

Answer 73

can cause agranulocytosis (do not use with clozapine) and hyponatraemia. Nausea, headache, dizziness, sedation, diplopia, ataxia, skin rashes, blood dyscrasias, hepatotoxicity. Can cause spina bifida if used in pregnancy, but not excreted in breastmilk. Strong CYP450 inducer.

Question 74

Side effects of lamotrigine?

Answer 74

has fewer side-effects compared to lithium, valproate and carbamezapine. Nausea, vomiting, headaches, dizziness, clumsiness, blurred vision and diplopia, flu-like symptoms, sedation, insomnia, skin rash and severe skin reactions.

Question 75

Monitoring of valproate?

Answer 75

Check blood cell counts and LFTs before valproate started, continue monitoring at 6-12 month intervals.

Question 76

Monitoring of carbamezapine?

Answer 76

Should monitor bloods for leukopenia, hyponatraemia and raised LFTs.

Question 77

Monitoring of lamotrigine?

Answer 77

Not routine

Question 78

Examples of benzos used as anxiolytics?

Answer 78

Short-Acting = Lorazepam (high potency), Oxazepam (low potency)

Long-Acting = Alprazolam (high potency), Chlordiazepoxide (low potency), Diazepam

Question 79

Examples of benzos used as hypnotics?

Answer 79

Short-Acting = Temazepam (low potency), Loprazolam, Lormetazepam 
Long-Acting = Flurazepam, Nitrazepam

Question 80

Mechanism of action of benzos?

Answer 80

Bind to benzodiazepine receptors that are linked to GABA A receptors – binding of GABA to a postsynaptic GABA A receptor leads to opening of associated chloride channel, which in turn allows passage of chloride ions into the neurone and hyperpolarisation. Enhances inhibitory action of GABA.

Question 81

Indications of benzos?

Answer 81

Indicated in the short-term relief of severe anxiety. Panic disorders resistant to antidepressant therapy; or can use benzo as a short-term adjunctive therapy at the start of antidepressant treatment to prevent initial worsening of symptoms.
Diazepam/Lorazepam very occasionally administered IV for control of panic attacks.

Question 82

Side effects of benzos?

Answer 82

Psychomotor impairment – performance of complex tasks involving psychological and motor functioning may be impaired.  
Memory impairment (anterograde amnesia), paradoxical or disinhibitory reactions.

Question 83

When/how long should benzos be prescribed?

Answer 83

Short term (2-4 weeks) -anxiety that is severe with unacceptable distress.
Or insomnia which is severe and disabling.

Question 84

When does benzo dependence/withdrawal manifest?

Answer 84

If taken regularly for 4 weeks or more, tolerance and dependence may develop –> ‘benzodiazepine withdrawal syndrome’.

Question 85

Symptoms of benzo withdrawal?

Answer 85

Anxiety symptoms, low mood, abnormal experiences (depersonalisation, derealisation, hypersensitivity to sensations in all modalities, distorted perception of space, tinnitus, formication, strange taste in mouth), influenza-like symptoms, psychological/neurological symptoms (epileptic seizures, confusional states, psychotic episodes), insomnia, loss of appetite and weight.

Question 86

How should regular benzos be withdrawn?

Answer 86

Withdrawal from regular benzodiazepine use should be very gradual in order to avoid these effects – patient may benefit from counselling while withdrawal takes place.

Question 87

Benzos overdose?

Answer 87

Relatively safe in overdose – symptoms of mild to moderate are mainly an intensification of the therapeutic actions. In most cases observation of vital functions is all that is required. Extreme overdosage may cause coma, areflexia, cardio-respiratory depression and apnoea – requires hospitalisation.

Question 88

Antidote for benzos?

Answer 88

Antidote = flumazenil (benzodiazepine antagonist).

Question 89

Examples of Z-drugs?

Answer 89

Zopiclone, Zolpidem, Zalepon

Question 90

Mechanism of Z-drugs?

Answer 90

Benzodiazepine agonists that bind to neuronal GABA A receptors.

Question 91

Indications for Z-drugs?

Answer 91

Indicated for short-term use in insomnia (up to 4 weeks in the case of zopiclone and zolpidem, and up to 2 weeks in the case of zaleplon).

Question 92

Side effects of Z-drugs?

Answer 92

Zopiclone = bitter or metallic taste 
Zolpidem = dose relationship for some CNS and GI side-effects may occur, most frequently in the elderly. Drowsiness, dizziness, diarrhoea, headache, nausea, vomiting, vertigo, asthenia.  
Zaleplon = drowsiness, paraesthesia, dysmenorrhoea and amnesia.

Question 93

Overdose of zopiclone?

Answer 93

should not be life threatening, unless combined with other CNS depressants (including alcohol).

Question 94

Examples of acetylcholinesterase inhibitors?

Answer 94

Donepezil, Rivastigmine, Galantamine

Question 95

Mechanism of action of AchE inhibitors?

Answer 95

Enhance ACh at cholinergic synapses in the CNS, which may slow progression of the disease – reduces time spent in full nursing care. Beneficial effects on cognitive, functional and behavioural symptoms of the disease.

Question 96

Indications of AchE?

Answer 96

First-line agents in treatment of mild-moderate Alzheimer’s dementia.

Question 97

Benefits of donepezil?

Answer 97

Donepezil = Selective, therefore less side-effects; no liver toxicity; predictable kinetics; narrow dose range; only 1 daily dose.

Question 98

Benefits of rivastigmine?

Answer 98

Rivastigmine = Not metabolised by liver and least likely to cause drug-drug interactions. Available in modified release OD form or 24h patch (may be helpful in reducing GI side-effects).

Question 99

Side-effects of donepezil?

Answer 99

Donepezil = nausea, vomiting, diarrhoea, fatigue, insomnia, headache, agitation, aggression and muscle cramps, GI bleed (rare). CONTRAINDICATED in ASTHMA.

Question 100

Side effects of rivastigmine?

Answer 100

Rivastigmine = nausea, diarrhoea, asthenia, anorexia, weight loss, abdominal pain, dizziness, agitation and drowsiness.

Question 101

Side effects of galantamine?

Answer 101

Galantamine = nausea, vomiting, diarrhoea, abdominal pain, fatigue, sleep disturbance, headache and depression. 2x daily dose.

Question 102

NICE guidlines/monitoring of AchE?

Answer 102

Initially prescribe after thorough assessment in a specialist clinic if MMSE is 10 or greater.
Cognitive assessment should be repeated at three months – if patient not responding then the drug should be discontinued. Thereafter prescription should be re-assessed at six-month intervals.

Question 103

Example of NMDA-receptor antagonist?

Answer 103

Memantine

Question 104

Mechanism of NMDA antagonists?

Answer 104

Non-competitive, PCP-site NDMA antagonist. Binds excitatory glutamate in the CNS; protects neurones from glutamate-mediated neurotoxicity. Has a role in LTP and learning/memory function.

Question 105

Indications of memantine?

Answer 105

Approved for treatment of moderately severe to severe AD. Cochrane review indicates use in AD, vascular and mixed dementia. Trials show benefits of memantine augmentation of donepezil.

Question 106

Side effects of memantine?

Answer 106

Common= confusion, dizziness, drowsiness, headache, insomnia, agitation, and/or hallucinations. Less common adverse effects include vomiting, anxiety, hypertonia, cystitis, and increased libido.

Question 107

Antipsychotic use in dementia?

Answer 107

9-fold risk of stroke - APs don’t reduce psychotic experiences in dementia

Question 108

Conditions which allow prescription of APs in dementia?

Answer 108

• There should be a full discussion with the person with dementia and/or carers about the possible benefits and risks of treatment. In particular, cerebrovascular risk factors should be assessed and the possible increased risk of stroke/transient ischaemic attack and possible adverse effects on cognition discussed.
• Changes in cognition should be assessed and recorded at regular intervals. Alternative medication should be considered if necessary.
• Target symptoms should be identified, quantified and documented.
• Changes in target symptoms should be assessed and recorded at regular intervals.
• The effect of comorbid conditions, such as depression, should be considered.
• The choice of antipsychotic should be made after an individual risk–benefit analysis.
• The dose should be low initially and then titrated upwards.
• Treatment should be time limited and regularly reviewed (every 3 months or according to clinical need)