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Clozapine use in old age psychiatry

Published online by Cambridge University Press:  25 April 2018

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Summary

Clozapine is one of the most effective drugs available to psychiatrists for treating psychosis. It is currently licensed for use in treatment-resistant schizophrenia and psychosis in Parkinson's disease, but its use in old age psychiatry is very uncommon. With the ageing population, and the increased incidence of psychosis in older patients, it is important to consider whether this is a drug that is not being used to its full advantage.

LEARNING OBJECTIVES

  • Appreciate the differences in titration and monitoring of clozapine in older adults, compared with working-age adults

  • Consider the efficacy of clozapine in older people and its impact on mortality

  • Understand the side-effect profile of clozapine in older adults

DECLARATION OF INTEREST

None.

Type
Articles
Copyright
Copyright © The Royal College of Psychiatrists 2018 

A survey undertaken by Paranthaman & Baldwin (Reference Paranthaman and Baldwin2006) showed that specialists in old age psychiatry were not familiar with or confident in using clozapine in older patients, particularly because of the lack of available evidence on its safety. In the same survey, 61 consultants (45% of responders) had patients who were on clozapine and 39 had started at least one patient on the medication.

Use in treatment-resistant schizophrenia

It is estimated that 1% of the population will experience schizophrenia in their lifetime (Royal College of Psychiatrists 2015). The National Institute for Health and Care Excellence (NICE) guidelines recommend the use of clozapine in patients whose schizophrenia remains unresponsive to treatment despite trialing at least two different antipsychotic medications, one of which should be an atypical antipsychotic (NICE 2014). Similar to their younger counterparts, older patients with a new diagnosis of schizophrenia will experience hallucinations, delusions and, to a lesser extent, thought disorder (Tune Reference Tune and Salzman2003). Those who are diagnosed with schizophrenia in early adult life, but develop a chronic course as they grow older, tend to have more problems with negative symptoms. Where older patients differ from younger adults is in their response to pharmacological treatment, which can be unpredictable and variable. Some antipsychotics show serious side-effects such as cerebrovascular events (Kohen Reference Kohen, Lester and Lam2010).

Use in Parkinson's disease

Around 0.2% of the UK population will be affected by Parkinson's disease in their lifetime, with the average age at onset at 60 years (http://www.parkinsonsdiseaseearlysymptoms.com/tag/parkinsons-disease-statistics). Psychosis is seen in the advanced stages and it therefore follows that antipsychotics will more likely be needed in older patients. These patients are very likely to have comorbidities and to be subject to polypharmacy, which it is particularly important to consider. NICE guidelines on the management of psychotic symptoms in Parkinson's disease advise reducing the use and dose of antiparkinsonian medications and avoiding typical antipsychotics (NICE 2017). However, if the benefits of an antipsychotic outweigh the risks, then the guidelines state that clozapine should be the medication of choice for treating psychosis. There are two common causes of psychotic symptoms in Parkinson?s disease. The first is an iatrogenic side-effect of antiparkinsonian drugs and the second is organic processes in the brain. Between 20 and 30% of people with Parkinson's disease will develop psychotic symptoms, with an increased prevalence seen in the later stages of the disease (Kuzuhara Reference Kuzuhara2001).

Titration

In older adults (>65 years of age), the mean therapeutic dose for clozapine is 25–100 mg/day (Gareri Reference Gareri, De Fazio and Russo2008): by comparison, the mean therapeutic dose for working-age adults is 300–600 mg/day. Higher doses may be found in patients who were started on clozapine in adulthood and progressed to old age services while still on it. It is usual for higher doses to be split into twice daily administration, with the larger dose in the evening. This relates to the side-effects profile of the drug, which includes sedation and orthostatic hypotension, and it helps reduce the risk of falls in older patients. There is no specially devised titration regime to be used in older adults, only the general advice of increasing doses slowly and using the minimum effective dose (Table 1). If a patient responds adequately to a low dose then there is no rationale to trial higher doses. General advice is that rapid titration can lead to unwanted side-effects.

TABLE 1 Clozapine prescribing for treatment-resistant schizophrenia and Parkinson's disease in older adults (>65 years of age)

Monitoring

Current guidelines on commencing and monitoring clozapine are detailed in Box 1. Blood tests are used to monitor for agranulocytosis, the incidence and fatality rate of which has greatly reduced since the introduction of blood monitoring (from 0.3 to 0.01% (eMC 2017)). Patients undergoing titration are also required to have physical health observations at set intervals, pre- and post-dose, using the Lester Positive Cardiometabolic Health Resource (the Lester Tool). Blood tests are used to monitor for metabolic syndrome and electrocardiograms (ECGs) to check for prolonged QTc interval or signs of any other developing abnormalities. In terms of monitoring clozapine and norclozapine plasma levels, neither NICE nor the Maudsley Prescribing Guidelines (Taylor Reference Taylor, Patron and Kapur2015) give any guidance on frequency, but some individual trusts suggest annual monitoring. There are no separate guidelines for monitoring in older patients.

BOX 1 Guidelines on commencing and monitoring clozapine in older adults (>65 years of age)

Clozapine should be started at a dose of 12.5 mg once daily

Blood pressure, temperature and pulse should be monitored hourly for first 6 h

ECGs should be done at baseline and after dose increases. Once stabilised, patients should be offered an ECG annually

Neutrophil count should be monitored as follows:

  • weekly for the first 18 weeks of treatment

  • at 2-week intervals between weeks 18 and 52

  • after 1 year of treatment, if neutrophil counts are stable, patients may be monitored at 4-week intervals

  • monitoring must continue throughout treatment and for at least 4 weeks after discontinuation

If the patient is tolerating clozapine, the dose can be increased by 25–50 mg each day, until a dose of 300 mg/day is reached

Further dose increases should be made slowly in increments of 50–100 mg each week

A plasma level of 350 µg/L should be aimed for to ensure an adequate trial, but response may occur at a lower plasma level

(Taylor et al, Reference Taylor, Patron and Kapur2015)

Pharmacokinetics and pharmacodynamics of clozapine

Clozapine differs from other antipsychotics in its receptor binding profile. As a rule, antipsychotics work on D2 dopamine receptors, but clozapine's affinity for D4 receptors is ten times greater (Sanyal Reference Sanyal and Van Tol1997). This becomes a significant factor when considering neuroleptic malignant syndrome (NMS), which is the result of central D2 receptor blockade. In addition, it is well known among specialists that the risk of NMS is higher in those with Parkinson's disease or Lewy body dementia, because of central dopamine blockade, and therefore antipsychotic use should be avoided if possible. If an antipsychotic is necessary, clozapine is one of the best options because of its lower affinity for D2 receptors. It also has a greater specificity for the limbic system, compared with other antipsychotics, hence its low incidence of extrapyramidal adverse effects and its usefulness in Parkinson's disease. Further information is detailed in Box 2.

BOX 2 Pharmacokinetics of clozapine

  • Clozapine is a tricyclic dibenzodiazepine derivative

  • 27–50% of a dose reaches systemic circulation

  • Levels peak at 2.1 h if administered twice daily

  • The drug's half-life ranges from 6 to 33 h

  • Steady state concentration is reached in 7–10 days

  • The volume of distribution is 1.6 L/kg

  • 95% is bound to plasma proteins

  • It is metabolised through hepatic enzymes (CYP1A2 and CYP3A4)

  • Clozapine is broken down into norclozapine and clozapine-N-oxide: these are pharmacologically active with a similar action to clozapine but with weaker effect and shorter duration

  • 50% is excreted in the urine and 30% in the faeces

(Curran & Bullock, Reference Curran and Bullock2005)

It is worth considering the changes in the drug's pharmacokinetics in older adults. Increased volume distribution and decreased hepatic clearance will likely mean that older people do not metabolise clozapine as efficiently as working-age adults, leading to higher plasma levels and putting patients at increased risk of side-effects (Crooks Reference Crooks, O'Malley and Stevenson1976).

Contraindications

Box 3 lists contraindications to clozapine use in older adults.

BOX 3 Contraindications to clozapine use in older adults (>65 years of age)

  • Hypersensitivity to the active substance

  • Patient unable to undergo regular blood tests

  • History of toxic or idiosyncratic granulocytopenia/agranulocytosis (with the exception of chemotherapy)

  • History of clozapine-induced agranulocytosis

  • Clozapine treatment must not be started concurrently with substances known to have a substantial potential for causing agranulocytosis; concomitant use of depot antipsychotics is to be discouraged

  • Impaired bone marrow function

  • Uncontrolled epilepsy

  • Alcoholic or other toxic psychoses, drug intoxications, comatose conditions

  • Circulatory collapse and/or CNS depression of any cause

  • Severe renal or cardiac disorders

  • Active liver disease associated with nausea, anorexia or jaundice; progressive liver disease; hepatic failure

  • Paralytic ileus

(DrugBank 2016)

Mortality

Treatment-resistant schizophrenia

In schizophrenia, the mortality rate is four times that of the general population, with statistics suggesting that people with schizophrenia die 10 years earlier than the general population (Parks Reference Parks, Svendsen and Singer2006). Capasso et al (Reference Capasso, Lineberry and Bostwick2008) carried out a 55-year follow-up study looking at the causes of mortality in schizophrenia and the most common were found to be cardiovascular, followed by cancer. This is consistent across several studies. Clozapine is the most effective drug at lowering mortality in schizophrenia, as shown in an 11-year follow-up study (Tiihonen Reference Tune and Salzman2009).

Pridan et al (Reference Pridan, Swartz and Baruch2015) looked specifically at clozapine use in patients aged 60–80+ in a retrospective analysis and found the mortality rate to be 18%. This is compared with a mortality rate of 18.6% with other antipsychotics, suggesting that clozapine treatment is safe in older patients with treatment-resistant schizophrenia.

Parkinson's disease

In Parkinson's disease, modern medicine usually means that life expectancy is not limited, but in advanced stages quality of life can become poor because of the unpleasant symptoms. Treating patients with antipsychotics often means a fine balance between reducing psychosis and preserving motor function. Hack et al (Reference Hack, Fayad and Monari2014) studied 36 patients (mean age 68.3 years) with Parkinson's disease on clozapine and found a mortality rate of 8.6% over an 8-year period. However, the authors indicated that the deaths were not directly related to clozapine use, but resulted from complications of the disease.

Polypharmacy

As already noted, people over 65 years of age often have multiple comorbidities and are therefore subject to polypharmacy. Research found that 45% of older adults attending an emergency department were taking five or more medications and 11% are taking ten or more (Banerjee Reference Banerjee, Mbamalu and Ebrahimi2011). A balance of under- and overprescribing is needed to avoid prescribing cascades and there are now several tools available to review a patient's medications and identify any drugs that are unnecessarily contributing to polypharmacy. One that has been used widely across general practice is STOPP/START (Screening Tool of Older People's Prescriptions/Screening Tool to Alert to Right Treatment), for which there is a strong evidence base (Gallagher Reference Gallagher, Ryan and Byrne2008). It consists of a list of 65 STOPP criteria and 22 START criteria, and has good interrater reliability. This is a tool that psychiatrists might want to use before commencing clozapine in an older patient, to help reduce the risk of drug interactions. Examples are shown in Table 2. Clinicians might also want to consider the effect of prescribing other psychotropics while a patient is on clozapine. The British National Formulary (BNF) highlights that commonly used antidepressants, in particular fluoxetine and paroxetine, can lead to an increase in plasma clozapine levels, and therefore risk potential toxicity (Joint Formulary Committee 2017). Sertraline has a similar effect, but to a lesser degree. Clozapine use with lithium can increase the risk of extra-pyramidal side-effects and neurotoxicity, and serious adverse events have been reported with concomitant use of clozapine and benzodiazepines.

TABLE 2 STOPP/START examples of medication review in older adults (>65 years of age)

STOPP/START, Screening Tool of Older People's Prescriptions/Screening Tool to Alert to Right Treatment; SSRI, selective serotonin reuptake inhibitor.

Efficacy

Treatment-resistant schizophrenia

Clozapine has been shown to be the most effective drug in treating schizophrenia, with research suggesting that it helps in up to 30–50% of those who have failed to respond to other antipsychotics (Kane Reference Kane, Honigfeld and Singer1988). One study (Sajatovic Reference Sajatovic, Ramirez and Garver1998) looked at clozapine's clinical effectiveness in 329 patients. Interestingly, they found a bigger therapeutic advantage in those aged 55 to 64 years, compared with those aged 65 years and older, with mean improvements of 19.8% (55 to 64) and 5.7% (over 65) on the Brief Psychiatric Rating Scale (BPRS). Pridan et al (Reference Pridan, Swartz and Baruch2015) found that clozapine was generally well tolerated, with a reduction in hospital readmission rates, and found no difference in dose or response between patients aged 60–69 years and those aged 70–79 years. Nobody discontinued clozapine because of side-effects and it had no impact on existing comorbidities.

Parkinson's disease

Efficacy in Parkinson's disease has been confirmed by Pollack et al (Reference Pollack, Tison and Rascol2004), who found an improvement on the Clinical Global Impressions (CGI) scales and Positive and Negative Syndrome Scale (PANSS) and reported that over half of their patients had recovered completely from their psychotic symptoms by the end of the 5-year follow-up study. The average age of the sample in the clozapine group was 71.2 years. Adverse effects observed were reported to be mild to moderate and could be controlled with slower titration. Similar findings were reported by the Parkinson Study Group (Reference Tiihonen, Lönnqvist and Wahlbeck1999). The mean dose of clozapine used was 24.7 mg (s.d. = 6.25–50 mg). Again, they found improvements in the CGI, BPRS and the Scale for the Assessment of Positive Symptoms (SAPS). However, at the end of this double-blind trial, all 53 participants were allowed to trial clozapine and 6 subsequently died. The authors concluded that these deaths were not related to clozapine: three of the patients were nursing home residents and two had advance directives in place. A further study supporting efficacy (Klein Reference Klein, Gordon and Pollack2003) looked at 32 individuals (mean age 73 years) with Parkinson's disease over a 5-year period. Only 3 participants stopped clozapine because of side-effects and 1 for personal reasons; 19 individuals were able to continue, with improvement in baseline rating scales. The remaining 9 stopped clozapine because of improvement in symptoms, which did not return after ceasing medication.

Adverse effects

The Clinical Antipsychotic Trials of Intervention Effectiveness (CATIE) showed that the majority of patients were unlikely to adhere to their prescribed antipsychotic medication because of intolerable side-effects (Lieberman Reference Lieberman, Stroup and McEvoy2005). When compared with the other atypical antipsychotics in the CATIE study, clozapine had a significantly longer time to discontinuation (median = 10.5 months), suggesting that individuals were better able to tolerate its side-effects. Those on olanzapine, risperidone and quetiapine stayed on their medication for only 2–3.5 months. It is worth taking this into consideration in the older population, who are more vulnerable to side-effects.

Barak et al (Reference Barak, Wittenberg and Naor1999) reviewed the use of clozapine in older adults: 133 patients were observed, only 15 of whom reported side-effects. In addition, there were 7 cases of agranulocytosis or leukopenia. The authors concluded that clozapine was safe and effective in older patients.

Agranulocytosis

One of the more serious risks of clozapine use, and therefore the most monitored, is agranulocytosis. A reduction in white blood cells could ultimately lead to a severe infection, sepsis or death. One study (Alvir Reference Alvir, Lieberman and Safferman1993) of 11 555 individuals on clozapine found that the risk ratio for agranulocytosis with increasing age was 1.06 (95% CI 1.05–1.08). Neither the dose of clozapine nor the plasma levels seemed to predict the increased risk of agranulocytosis, and it therefore appears that age-related changes in clozapine clearance may account for the increased incidence in older people. Along with the increased incidence with age, this study also confirms that there is an increased incidence in women, with a risk ratio of 1.60 (95% CI 0.99–2.58).

There have been several studies of drug-induced agranulocytosis in older people for a wide range of drugs, including clozapine. The suggested mortality for an older patient with drug-induced agranulocytosis is 20%, with causes of death usually including sepsis, shock or pneumonia (Andrès Reference Andrès, Mourot and Keller2014). Several factors indicate a poor outcome. Along with age and septic shock, these include the presence of metabolic syndromes such as renal failure. Therefore, this must be considered when starting clozapine in an older patient. Guenette et al (Reference Guenette, Powell and Johnston2013) studied 48 individuals, aged 65 and over, on clozapine and found 6 cases of mild neutropenia, but no participants met the criteria for agranulocytosis. However, the rate of neutropenia (12.5%) was much higher than previously reported.

Cardiac side-effects

Regular clinical observations are taken while patients are titrated onto clozapine, usually pre- and post-dose. As well as checking temperature, this is to monitor for changes in heart rate and blood pressure. This is significant in older people because of an age-related decline in noradrenaline levels, which contributes to lower blood pressure (Salzman Reference Salzman2005). Therefore, orthostatic hypotension is expected to be more common in older patients than in their working-age counterparts and particular attention needs to be paid to polypharmacy, as the cumulative hypotensive effect of other prescribed medications is likely to contribute to dizziness and falls. The impact of orthostatic hypotension can be reduced by using lower doses of clozapine and a slow titration.

Among the most commonly used drugs in Parkinson's disease are dopamine agonists, a side-effect of which is hypotension. The additive effect with clozapine could put patients at increased risk of dizziness, fainting and falls. Hypotension can also be a symptom of Parkinson's disease itself and is a further contributory factor.

Tachycardia is caused by the effect of clozapine on the autonomic nervous system (Lally Reference Lally, Docherty and MacCabe2014). If tachycardia is confirmed as benign, a beta blocker can be used to control the heart rate. Again, this is the recommendation for working-age adults, and there are no guidelines on the use of beta blockers in older adults. In 2016, Lally and colleagues attempted a Cochrane review of evidence for pharmacological interventions for clozapine-induced sinus tachycardia (Lally Reference Lally, Docherty and MacCabe2016). However, no randomised controlled trial matched their inclusion criteria and they were therefore unable to comment on the efficacy of beta-blockers.

Another adverse effect of clozapine is myocarditis, of which tachycardia is a warning sign (Lally Reference Lally, Brook and Dixon2014). This is thought to be due to a hypersensitivity reaction. One study (Ronaldson Reference Ronaldson, Fitzgerald and Taylor2011) found that the onset of myocarditis was usually within the first 5 weeks of commencing clozapine. The same authors suggested obtaining baseline troponin and C-reactive protein (CRP) levels and monitoring these at regular intervals, advising that a significant increase in CRP and an elevation in troponin has a 100% sensitivity for detecting clozapine-induced myocarditis in patients who are experiencing symptoms (malaise, breathlessness, chest pain). Furthermore, clinicians should be aware of the development of cardiomyopathy, which tends to come weeks to months later on after clozapine initiation. There have been single case reports documenting cardiac side-effects of clozapine in older adults, but no studies on a larger scale exist. It is therefore difficult to comment on whether more serious adverse events such as myocarditis and cardiomyopathy happen more frequently in older people, but it is likely that the mortality rate would be higher.

Metabolic syndrome and diabetes

We know that prevalence rates of diabetes and hypertriglyceridemia are higher in older people owing to age-related changes. It is well documented that clozapine causes significant increases in plasma glucose and triglyceride levels compared with other antipsychotics (Lamberti Reference Lamberti, Olson and Crilly2006; Novartis Pharmaceutical Corporation 2013), so it adds to the existing risk factors in older adults. Physicians should work to optimise diabetes control and other risk factors, such as cholesterol and triglyceride levels, to help reduce the long-term risk of cardiovascular events.

Anticholinergic side-effects

Compared with other antipsychotics, clozapine is considered to be highly anticholinergic (Gareri Reference Gareri, De Fazio and Russo2008). Peripheral symptoms, to which older people are much more sensitive, are detailed in Table 3. A large study (Cancelli Reference Cancelli2010) involving 6912 individuals aged 65 years and over on anticholinergics found that they were at an increased risk of cognitive decline and dementia. The risk improved when the suspect drug was stopped.

TABLE 3 Receptor profile of clozapine and related side-effects

Polypharmacy guidelines published by Scottish Government Model of Care Polypharmacy Working Group (2015) state that prescribed medications with anticholinergic properties are contributing to increased morbidity and mortality. They also give advice on how to assess and reduce the anticholinergic burden that includes use of the Modified Anticholinergic Risk Scale (mARS).

Another side-effect due to clozapine's anticholinergic properties is constipation. Constipation should be treated quickly and effectively because of the risk of bowel obstruction and perforation, which could prove fatal. The choice of laxative should be tailored to each patient, considering their medical history and other prescribed medications. Constipation is a common occurrence in older people and can become particularly troublesome if not acted on promptly (Medicine and Healthcare Products Regulatory Agency 2017).

There are no large-scale studies looking specifically at the effect of clozapine's anticholinergic properties in older people.

Hypersalivation

This is considered a common side-effect and it carries a high risk in older patients, given the possibility of aspiration and infection (Table 4). In general, older people are at an increased risk of aspiration pneumonia for a multitude of reasons, including polypharmacy and stroke. Various conservative methods are suggested to reduce the risk of aspiration pneumonia, but pharmacological treatment of hypersalivation in older people is limited. Atropine drops 1%, ipratropium bromide spray and pirenzepine show limited statistical significance (Praharaj Reference Praharaj, Arora and Gandorta2006). More commonly used drugs such as hyoscine hydrobromide should be avoided in older people because of their potential effect on cognition.

TABLE 4 Frequency of commonly reported side-effects of clozapine (18–65 years)

Individuals who have Parkinson's disease with hypersalivation need to be given special consideration, as they are at increased risk of swallowing and choking difficulties. Specialist advice from a speech and language therapist should be sought.

There are no large-scale studies of the risk of clozapine-related hypersalivation in older adults.

Over-sedation and falls

Sedation is the most common reason for clozapine discontinuation in older patients (Naranjo Reference Naranjo, Hermann and Mittmann1995). It is often a short-lived side-effect, but can persist in older patients, therefore contributing to increased levels of confusion and risk of falls. This risk could be reduced by administering clozapine at bedtime.

In Parkinson's disease there are a multitude of reasons a patient might fall – gait freezing (motor blocks), muscle weakness, hypotension and blurred vision are just a few. Therefore, careful assessment of the risk of falls is required. Pollack et al (Reference Pollack, Tison and Rascol2004) studied the efficacy of clozapine in Parkinson's disease and found that a dose no higher than 50 mg/day was optimal for reducing psychotic symptoms without worsening motor symptoms. The Parkinson Study Group (Reference Tiihonen, Lönnqvist and Wahlbeck1999) found mean improvements in baseline scores without worsening of parkinsonian symptoms when clozapine was used.

Conclusions

From the evidence base on clozapine use in people over 65, which is not extensive, the drug appears to be as effective in that age group as it is in younger adults. Older people can generally tolerate clozapine well and it is a valuable treatment option to reduce the disease burden of psychosis and improve quality of life. Data from large-scale studies are lacking, but from the evidence that is available, clozapine does not appear to significantly increase mortality. As in younger adults, there is a long list of possible side-effects that may affect an older patient, and each case needs to be considered individually to identify which side-effects the person may be vulnerable to and appropriate plans put in place to monitor and reduce these. Using low doses and a slow titration remains appropriate and is the safest way to monitor for emerging side-effects and to identify the lowest therapeutic dose.

There is not enough information and data to develop detailed guidelines and protocols for clozapine titration and monitoring in older people. It is also worth considering the practicalities, cost and impact of in-patient admission for titration onto clozapine and whether this puts patients at unnecessary risk of hospital-acquired infection etc. Some of the studies discussed in this article have included people aged 75 years and over, but usually only one or two participants in each case, and therefore extra caution should be taken in this age group.

To aid the development of age-specific guidelines for older adults, multicentre trials should be carried out to look specifically at clozapine use in those over the age of 65. With dedicated guidelines, clinicians will feel more confident in prescribing clozapine to older people, with the hope that they can have a longer periods of disease stability and are able to remain living independently in the community for longer.

MCQs

  1. 1 As regards psychosis in Parkinson's disease, it is not true that:

    1. a clozapine is the drug of choice to treat the psychosis

    2. b 20–30% of people with Parkinson's disease will develop psychotic symptoms

    3. c thought disorder is the prominent symptom

    4. d psychosis can be an iatrogenic side-effect of antiparkinsonian drugs

    5. e guidelines advise reducing the dose of antiparkinsonian drugs to help with psychotic symptoms.

  2. 2 In clozapine prescribing for older patients:

    1. a the starting dose can be increased in increments of 50 mg/day

    2. b there is a separate age-specific titration regime to follow

    3. c on the first day, the patient should be given a loading dose of 50 mg

    4. d the mean therapeutic dose is 25–100 mg/day

    5. e the patient should have a full blood count (FBC) twice a week until the therapeutic dose is reached.

  3. 3 As regards pharmacokinetics and pharmacodynamics in older adults:

    1. a there is an increase in volume distribution of drugs

    2. b there is an increase in hepatic clearance

    3. c there is an increase in renal clearance

    4. d there is a decrease in gut motility

    5. e there is increased absorption from the small intestine.

  4. 4 The receptor implicated in orthostatic hypotension in clozapine use is:

    1. a H1

    2. b alpha-1

    3. c alpha-2

    4. d 5-HT1C

    5. e muscarinic.

  5. 5 As regards clozapine-induced agranulocytosis:

    1. a the incidence has consistently been found to be 3%

    2. b the risk increases with advancing age

    3. c the risk is higher in men

    4. d it is associated with higher prescribed doses

    5. e it is associated with higher plasma levels.

MCQ answers

1 c 2 d 3 a 4 b 5 b

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Figure 0

TABLE 1 Clozapine prescribing for treatment-resistant schizophrenia and Parkinson's disease in older adults (>65 years of age)

Figure 1

TABLE 2 STOPP/START examples of medication review in older adults (>65 years of age)

Figure 2

TABLE 3 Receptor profile of clozapine and related side-effects

Figure 3

TABLE 4 Frequency of commonly reported side-effects of clozapine (18–65 years)

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