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Therapeutic Advances in Drug Safety logoLink to Therapeutic Advances in Drug Safety
. 2018 Jun 20;9(9):535–557. doi: 10.1177/2042098618782785

Medication use and potentially inappropriate prescribing in older adults with intellectual disabilities: a neglected area of research

Maire O’Dwyer 1,, Philip McCallion 2, Mary McCarron 3, Martin Henman 4
PMCID: PMC6116771  PMID: 30181861

Abstract

It is known that for all adults, prevalence of potentially inappropriate prescribing (PIP) and polypharmacy increases with advancing age and morbidity. This has been associated with adverse drug reactions and poor outcomes. As a result, screening tools have been developed to identify PIP and to improve prescribing and health outcomes.

A growing body of evidence supports the fact that there are even greater concerns among older adults with intellectual disability (ID) who are living longer than before but still have premature mortality and poorer health outcomes compared with the general population. They have different patterns of multimorbidity, with higher rates of epilepsy and mental health conditions. Polypharmacy is prevalent and some prescribing practices may be inappropriate. High exposure to anticholinergic and sedative medicines has additional adverse effects on quality of life. There may also be underutilization of clinically needed therapies. There has been substantial controversy internationally relating to extensive use of psychotropic medicines, particularly off-label use for challenging behaviours.

Despite the mounting evidence and concerns about the impact of PIP on quality of life, health and safety for people with ID, appropriate methods to measure PIP are lacking, which represents an important gap in the research literature. Differences in morbidity and medicines use patterns in this population mean instruments used to identify inappropriate medicines in the older population are not suitable. In this perspective article we outline the specific health and medicinal needs for people with ID, the prevalence of polypharmacy and presentation of chronic health conditions in older adults with ID. We provide an overview of the psychotropic medicine classes most frequently used in people with ID which carry substantial risk. We highlight studies to date that have attempted to assess PIP and present research priorities to improve prescribing, health outcomes and quality of life for people with ID.

Keywords: intellectual disability, polypharmacy, older adults, potentially inappropriate prescribing, psychotropics

Outline

It is known that for all adults, prevalence of potentially inappropriate prescribing (PIP) and polypharmacy increases with advancing age and morbidity. This has been associated with increased risk of adverse drug reactions (ADRs) and poor outcomes. As a result, screening tools have been developed to identify PIP and to improve prescribing and health outcomes.1,2

A growing body of evidence supports the fact that there are even greater concerns among older adults with intellectual disability (ID) who are living longer than previously but still have premature mortality and poorer health outcomes compared with the general population.3 They have different patterns of multimorbidity, in particular much higher rates of epilepsy and mental health conditions.4,5 Polypharmacy is prevalent and some prescribing practices may be inappropriate.6,7 High exposure to anticholinergic and sedative medicines has additional adverse effects on quality of life.8 There may also be underutilization of clinically needed therapies.9 There has been substantial controversy internationally relating to extensive use of psychotropic medicines, particularly off-label use for challenging behaviours.6,10

Despite the mounting evidence and concerns about the impact of PIP on quality of life, health and safety for people with ID, appropriate methods to screen for and measure PIP are lacking,11 which represents an important gap in the research literature. Differences in morbidity and medicine use patterns in this population mean instruments used to identify inappropriate medicines in the older population are not suitable. In this perspective article we outline the specific health and medicinal needs for people with ID, the prevalence of polypharmacy and presentation of chronic health conditions in older adults with ID. We provide an overview of the psychotropic medicine classes most frequently used in people with ID, which carry substantial risk [e.g. antipsychotics, anticholinergics, antiepileptics (AEDs), polypharmacy]. We highlight studies to date that have attempted to assess PIP and present research priorities to improve prescribing, health outcomes and quality of life for this vulnerable patient group.

Introduction

With the growing number of older adults and increases in age-related chronic disease, multiple medicines use has increased and polypharmacy is commonplace.12,13 Medications play a critical role in maintaining health and so management of chronic conditions with polypharmacy is increasingly recommended, and in some circumstances may be therapeutically beneficial. Polypharmacy is generally understood to refer to the concurrent use of multiple medicines in one individual.14 Polypharmacy is an important risk factor for PIP.15 PIP in older adults occurs when medicines prescribed have no clear evidence-based indication, carry a substantially higher risk of adverse side effects compared with use in younger people, and are not cost effective.16 PIP encompasses a set of prescribing practices which include overprescribing, misprescribing and underprescribing.17 There is evidence of more prescribing errors and a higher prevalence of adverse drug reactions (ADRs) with the increasing number of drugs prescribed.18,19 In the general population, falls, increased risk of mortality, and associated impaired physical and cognitive function have been associated with PIP.13,14 The relationship between polypharmacy, multimorbidity and PIP has received increasing attention in the general older population.14,15 A number of prescribing criteria have been developed to assess PIP in older adults1 and there is an increasing focus on deprescribing as a means of reducing PIP.20

People with ID comprise 1–3% of the population. ID is ‘a disability characterized by significant limitations in both intellectual functioning and adaptive behaviour, which covers many everyday social and practical skills’.21 ID is the preferred term for a condition also referred to as developmental disabilities in the USA and Canada, and learning disability in the UK.22 There are variations in both intellectual and adaptive functioning among people with ID, and hence their capacity to live and function independently varies.23 There are various aetiologies of ID, including genetic (X-linked, other chromosomal), metabolic, teratogenic (congenital infections, chemical agents), central nervous system (CNS) defects, other birth defects, neonatal, perinatal, causes that are multifactorial, and causes which are unknown.24

Despite increases in life expectancy in people with ID, there are striking disparities compared with the general population. The Confidential Enquiry of Premature Deaths of People with Intellectual Disabilities (2013) in the UK, suggests that, on average, men with ID die 13 years earlier compared with the population in England and Wales, and on average, women die 20 years earlier.25 This enquiry concluded that many of these deaths may be avoidable.

It has been estimated that people with ID have up to 2.5 times more health problems compared with the general population, and different patterns of morbidity.2628 Furthermore, health needs for people with ID are often unmet and unrecognized, meaning poorer health status may often be avoidable.22,29

A concern has emerged in Ireland and in other developed countries, as deinstitutionalization and community integration for people with ID are taking or place. Greater use of primary rather than specialized care in the community raises challenges as there may not be specialist knowledge of the unique health, prescribing and medicine use issues for people with ID among general practitioners, pharmacists and nurses.30

Although not a formal systematic review, a rigorous approach was undertaken, including an electronic search of PubMed, Medline, Embase, Science Direct and Cochrane database of systematic reviews to identify relevant studies examining polypharmacy, psychotropic medicine use and PIP in adults with ID between 1998 and February 2018. Search terms used for each database included ‘intellectual disabilities’, ‘multimorbidity’, ‘older adults’, ‘psychotropic medicines’, ‘antiepileptic drugs’, ‘antipsychotics’, ‘anticholinergics’, ‘antiepileptics’, ‘potentially inappropriate prescribing’, ‘polypharmacy’. We then screened the references of initial identified articles to find further relevant material (snowball approach). Websites relating to policy matters on ID were also screened to identify further relevant articles. In addition, we examined relevant prescribing guidelines and commentary papers available for adults with ID and personal archives as referenced throughout. Only articles written in English language were reviewed.

In this article we outline the specific health and medicine related issues for people with ID, provide perspectives on studies to date that have assessed the prevalence of polypharmacy in older adults with ID, medicines most frequently used in people with ID which carry risk, studies that have attempted to assess PIP (giving consideration to how appropriateness is assessed), and present research and practice priorities to improve prescribing, health outcomes and quality of life for this vulnerable patient group.

Chronic health conditions in people with ID

Poor health status in the ID population is multifactorial, and risks include genetic predisposition to certain diseases, social determinants such as less favourable circumstances and discrimination experienced by people with ID, residential circumstances that may promote unhealthy lifestyle choices, and inactivity.31 People with ID experience a different pattern of chronic diseases, with higher prevalence of mental health and neurological conditions,4,32 and higher rates of multimorbidity (two or more chronic conditions) compared with the general population. In a representative cross-sectional study of 753 adults with ID aged over 40 years in Ireland, 71.2% had multimorbidity.4 In a cohort study in the Netherlands of 1047 older adults with ID who received paid support, 80% had multimorbidity.32 A recent population-based cross-sectional study in Scotland of 1023 adults over 16 years of age found that after a comprehensive health assessment, 98.7% had multimorbidity.33 This is compared with an estimate of 23.2% multimorbidity in the general population in Scotland.34 In adults with ID, health conditions may be classified as related to the ID (such as epilepsy or mobility problems), as syndrome related (such as hypothyroidism in people with Down’s syndrome), or as secondary health conditions (such as obesity)35 (Table 2).

Table 2.

Conditions associated with ID, syndrome related and secondary to ID (adapted from van Schrojenstein Lantman and Walsh, and O’Dwyer).43,44

Associated Syndrome related Secondary
● Epilepsy
● Visual problems
● Mobility problems, including cerebral palsy
● Mental ill health
● Psychosis
● Alzheimer’s disease
● Hypgonadism
● Congenital heart disease (Down’s syndrome and William syndrome)
● Hypothyroidism (Down’s syndrome)
● Obesity
● Gastro-oesophageal reflux disease
● Constipation
● Fractures
● Untreated caries
● Edentulous
● Sexually transmitted diseases

People with ID may be poor reporters of their own health and in most cases the history of the present illness must be determined from caregivers or family members rather than the patient. In general, accuracy of diagnosis becomes increasingly challenging and complex as severity of the disability and communication impairments increase.36 Diagnostic overshadowing occurs when an emotional or behavioural problem is misattributed to the ID itself, rather than a comorbid condition.37

Medication use challenges in people with ID

The principal medical and pharmaceutical care needs of people with ID are no different from those of the general population. However, there are some unique pharmaceutical care challenges in providing appropriate pharmacotherapy to people with ID (Table 1).

Table 1.

Issues associated with medicine use in people with intellectual disability (ID).

Issue Comment
Atypical disease presentation Accurate diagnosis may be complicated by atypical disease presentation, with increased diagnostic difficulty as severity of ID increases37
Comorbidities Many people with ID will have physical comorbidities that may complicate appropriate medical treatment, e.g. swallowing difficulties or dysphagia. The prevalence rates of epilepsy in people with ID are high, with estimates of 14–44%. Many psychotropic agents taken concurrently may have epileptogenic potential37
Frailty Individuals with ID are at risk of earlier onset of frailty,38 making them increasingly susceptible to adverse drug reactions
Consent and capacity for treatment Most people with ID will not have sufficient understanding of treatment benefits and risks, and there is therefore increased onus on the clinician or family/carers to bear the weight of medical-related decisionmaking37
Communication of ADRs and side effects Many people with ID may not be able to self report side effects of medicines, due to limited communication skills
Limited evidence base There is less information about safety of medications in people with ID. ID is often an exclusion criterion from participation in randomized controlled trials.39 Consequently, use of medicines is often based on extrapolation from the general population
Increased sensitivity to medicines People with ID are more likely to experience drug-related side effects.40 Many will have existing brain pathology which may increase neuropsychiatric adverse effects. In adults with ID, there is a large variation in physical stature and physiological function compared with the general population. As a result, there may be different volumes of distribution and variations in hepatic and renal capacities between adults with ID. This is likely to affect the pharmacokinetics of certain drugs and change their pharmacodynamics. It is recognized, however, that evidence in this area is lacking41
Prescribing cascade Due to impaired ability to communicate side effects, people with ID may be at risk of the ‘the prescribing cascade’ or ‘incremental prescribing’
Monitoring requirements Noncompliance or intolerance with some blood tests or other monitoring procedures such as electrocardiograms may result in safety issues with some medicines, or may result in these medicines not being prescribed42
Age-related changes Medicines which may have been previously acceptable may now pose risks as people age due to age-related changes in pharmacokinetics and pharmacodynamics

The risk of harm and complexity of polypharmacy are compounded by age-related risk of adverse effects and the presence of organic dysfunction associated with the ID, which may lead to idiosyncratic responses to drugs. Organic brain dysfunction has been recognized to potentially result in unpredictable response to psychotropic medicines in adults with ID.45 For many adults with ID, the cause of the disability may be due to brain damage. The nature of the brain damage or changes to brain structure may result in altered sensitivity or response to medicines and challenges with determining appropriate doses.41 The way a drug is processed by the body (its pharmacokinetics, i.e. its absorption, distribution, metabolism and excretion) may be different in adults with ID. This may be due to differences in physical stature and other parameters which may result in changes in volumes of distribution, alterations in electrolytes and differences in renal and hepatic capacity. As a result, there may be variations in drug response compared with the general population.

Swallowing difficulties, poor dental health and tooth loss may lead to people with ID being unable to swallow tablets.46 Older adults with ID are more likely to be frail at a younger age, which may increase sensitivity to some medicines. In a cross-sectional study in the Netherlands of 982 adults over 50 years of age with ID, participants had frailty scores similar to adults in the general population over 75 years of age.47 It is likely that age-related and attenuated physiological changes which manifest in frail adults will affect the pharmacokinetics and pharmacodynamics of medicines. Frail older adults may be more susceptible to adverse effects associated with medicines due to the loss of physiological reserve, increase in multimorbidity and polypharmacy.48 People with ID are also at risk of experiencing the ‘prescribing cascade’. This is a phenomenon in which the side effects of drugs are misdiagnosed as symptoms of another problem, resulting in further medications being prescribed, and further risk of side effects and interactions.49

Polypharmacy and the burden and risk of medicines

The population with ID have been identified as being among ‘the most medicated groups in society’, with rates of prescriptions and polypharmacy exceeding those of the general population.28,50,51 Polypharmacy and PIP in older adults with ID raise a number of challenges: difficulties with consent to treatments, a poor evidence base [having an ID is an exclusion criterion for many pharmacological randomized controlled trials (RCTs)], difficulties in communication of symptoms and ADRs, and increased sensitivity and adverse medicine effects resulting from the presence of organic dysfunction associated with the ID52 (Table 1). There are a number of methodological issues relating to studies of polypharmacy carried out to date in the ID population. Many studies that have reported the prevalence of polypharmacy in people with ID have focused on specific drug classes or therapeutic areas such as AED polytherapy53,54 and psychotropic polypharmacy5557 in isolation, as opposed to broader definitions of polypharmacy employed in the older population. In addition, comparisons are further limited by the fact that many ID studies may have had small sample sizes, convenience or clinic samples,58,59 and often only included those living in institutional settings. Older people (particularly over 65 years) are rarely studied. Given that older adults with ID commonly experience multimorbidity and polypharmacy, studies examining the total medication burden are important.

A cross-sectional study of 897 community-dwelling people with ID in the state of Victoria, Australia who had used health services, were aged from 18 to 82 years (over 90% were under 60), and had all levels of ID, reported that over 20% used five to nine medicines60 (Table 3). Polypharmacy was examined among 52,404 adults aged 18–64 years with developmental disabilities in Ontario, Canada receiving primary care services and support from the Ontario Disability Support Group, who were dispensed medications covered by the Ontario Drug Benefit Program.61 In this study, 42.1% of those aged 55–64 years had polypharmacy (at least five medicines), and 3% were taking 11 or more medicines. Both of these studies selected their cohorts from patients who used health services, which may mean that those not taking medicines or without chronic conditions would be under represented or absent.60,61 Polypharmacy was identified as a significant factor associated with prescription errors in a study of 600 older adults with ID (over 50 years) who reported medicines randomly selected from the Healthy Ageing Intellectual Disabilities Study (HA-ID) in the Netherlands.7 This study included participants from independent and residential settings, with most prescription errors detected relating to drugs acting on the CNS (43.2%). In a national survey of general practice differences among 712 individuals with ID and controls (patients with no ID who were matched on age and sex) in the Netherlands, those with ID received four times more repeat prescriptions compared with adults with no ID.28 A cross-sectional study of 736 older adults with ID in Ireland found that 21% took ten or more medicines (excessive polypharmacy) on a regular basis and 35% took five to nine medicines.9

Table 3.

Key studies examining multiple medicines used in populations with intellectual disability (ID).

Title, year, country Aim Setting, population, sample size Definition of multiple medicine use Results
Factors associated with polypharmacy and excessive polypharmacy in older people differ from the general population: a cross-sectional study9
O’Dwyer et al.(2016), Ireland
To determine the prevalence of polypharmacy and excessive polypharmacy in older adults with ID and the clinical and demographic factors associated with polypharmacy and excessive polypharmacy Cross-sectional study of 736 older adults (41–90 years) with ID from wave 1 (2009/2010) of IDS-TILDA, a nationally representative study of older adults with ID in Ireland Polypharmacy was defined as 5–9 medicines. Excessive polypharmacy was defined as 10 or more medicines Polypharmacy was observed in 31.5% of participants and excessive polypharmacy in 20.1%. Living in an institutional setting, reporting a mental health condition or neurological condition were significantly associated with polypharmacy and excessive polypharmacy after adjusting for confounders, but age or sex had no significant effect
Prevalence and factors associated with polypharmacy in Victorian adults with intellectual disability60
Haider et al. (2014), Australia
To describe the prevalence of medicine use and polypharmacy (defined as five or more concomitant medicines), and to investigate the factors associated with polypharmacy in a population of people with ID 897 adults aged 18–82 years (mean age 42 years), with all levels of ID (74% had mild or moderate ID). Participants drawn randomly from the Victorian Population Survey of People with ID. This study contained participants from an administrative database of people with ID who had sought assistance from the Victorian Department of Human Services Concomitant use of 5 or more medicines In the population, 76% used medicines, and 21% were exposed to polypharmacy.
At multivariate analysis, polypharmacy was associated with older age, unemployment, increased health checks and general practitioner (GP) visits. Those with epilepsy, diabetes, stroke, cancer and osteoporosis had more polypharmacy
Title, year, country Aim Setting, Population, Sample Size Definition of multiple medicine use Results
Atlas on the Primary Care of Adults with Developmental Disabilities in Ontario61
Lunsky et al. (2013), Canada
Canada
To explore prevalence and patterns of medication use, with emphasis on those with multiple medicines (defined as two or more) in adults with ID 52,404 adults with ID aged 18–64 years who were receiving income support from the Ontario Disability Support Program, and were eligible to have medications paid for under the Ontario Drug Benefit Program Patterns and number of medicines used on a given date in 2009 (from pharmacy claims data)
Multiple medicines classed as 2 or more, also used threshold of 5 or more dispensed medicines
Of the sample, 26% were dispensed 2–4 medicines, and 21.5% had 5 or more medicines. 39.5% had no medicines dispensed. Antipsychotics (21.1%), benzodiazepines (13.1%) and SSRI antidepressants were most commonly dispensed. The number of medicines increased with age and among those with high morbidity levels and was higher among women (univariate). Those with a psychiatric diagnosis had a greater prevalence of multiple medicine us compared with those with no psychiatric diagnosis
Medication use among Australian adults with intellectual disability in primary healthcare settings: a cross-sectional study62
Doan et al. (2013), Australia
To investigate the extent of medication use in Australian adults with ID living in the community and accessing generic primary health care, and to explore associations between demographic and medical variables and psychotropic medication use 117 adults with ID living in the community in Brisbane (mean age 35 years), all levels of ID. Derived from a larger randomized controlled trial: the Advocacy and Health Study Numbers, and classes of medicines and supplements taken. Medication data reported by person with ID or carer, health assessment carried out by general practitioner Of the 117 participants, 79% reported currently taking medicines, a median of 3 medicines. Psychotropics were most frequently reported by 35%, followed by anticonvulsants (26%), and analgesics and gastrointestinal medicines (25%). Having a psychiatric illness or challenging behaviours were significantly associated with increased odds of using psychotropics
Title, year, country Aim Study Population, Sample Size Definition of multiple medicine use Results
The documentation of health problems in relation to prescribed medication in people with profound intellectual and multiple disabilities63
Van der Heide et al. (2009), The Netherlands
To document if there was an associated health problem documented in the notes for frequently prescribed medicines among people with profound intellectual and multiple disabilities 254 adults from 8 residential settings (46% male, 54% female). All had profound intellectual and multiple disabilities, an estimated intelligence quotient of 25, and profound or severe motor disorders Medication use was defined as a prescribed medication in the previous year, use of 5 or more prescribed medications in the previous year was also analysed (medication and health data from pharmacy and case records) Of the 254 participants, 89% were prescribed 1 or more medicines over the course of 1 year, and 40% were prescribed 5 or more medicines. Overall 92% had a documented reason for medicines use. Most frequently reported classes were laxatives (65%), anticonvulsants (56%), and drugs for peptic ulcer and gastro-oesophageal reflux disease (52%)
Health problems of people with intellectual disabilities: the impact for general practice28
Straetmans et al. (2007), The Netherlands
To analyse health problems and prescription patterns of people with intellectual disabilities registered with GPs, and the differences in health problems between people with intellectual disabilities and controls (without intellectual disabilities) 868 individuals with ID, and 4305 controls (people without ID).
Each individual with ID was matched to 5 people without ID with regard to age, sex and practice. Individuals came from 87 GP practices.
Numbers of acute and repeat prescriptions. All therapeutic classes analysed People with intellectual disabilities paid 1.7 times more visits to GPs and received four times as many repeat prescriptions. Psycholeptics, anticonvulsants and psychoanaleptics were the most frequently reported repeat prescriptions for people with ID. Different morbidity patterns

SSRI, selective serotonin reuptake inhibitor.

A number of factors have been identified as being associated with higher rates of polypharmacy in adults with ID, including living in institutional settings, having mental health conditions, neurological conditions and female sex.9,60 Studies in the ID population have also identified a different pattern of frequently reported medicine classes compared with the general population, reflecting the different patterns of multimorbidity. Among adults with ID, antipsychotics, AEDs, antidepressants and laxatives are the most frequently reported therapeutic classes.9,28,61 These findings are in contrast to the general older population, in which cardiac therapies, analgesics, gastrointestinal agents and antithrombotics are the therapeutic classes more frequently implicated in polypharmacy.64,65

Few studies have examined the impact of medication reviews on polypharmacy and outcomes in people with ID.66 A narrative review examining pharmaceutical care interventions for people with ID, and pharmacists’ contribution to multidisciplinary teams caring for people with ID from 1994 to 2014, identified only eight articles.66 While the evidence base was limited, studies were found to demonstrate that pharmacists did have an impact on identifying therapy-related problems through medication review and improving outcomes in people with ID.67,68

Specific drug classes

Psychotropic use

Psychotropic agents, in particular the antipsychotics, are frequently prescribed in adults with ID. Antipsychotics have been prescribed to manage mental health conditions, and controversially, challenging behaviours in the absence of a diagnosed mental illness.69 In a large national study in the UK of 33,016 adults with ID in primary care, 21% of the cohort had mental illness, 25% had a record of challenging behaviours and 49% had a record of psychotropic prescribing.6 New antipsychotic prescribing was significantly higher in those with challenging behaviour in this study. It has also been reported that 20–45% of adults with ID have been prescribed psychotropic medicines for control of aggression and self injury.70 Their widespread use has been subject to criticism and concerns relating to the quality of prescribing. With less information available about the safety and efficacy of these agents in people with ID, particularly the effects of long-term use and prescribing in older adults, use of these drugs is often based on extrapolation of knowledge from the general population.71

People with ID are frequently treated with more than one psychotropic medicine. There are clinical situations in psychiatry when the use of more than one psychotropic medication from the same or a different class may be indicated, justified and considered ‘rational polypharmacy’. The addition of an antipsychotic agent to a mood stabilizer for acute mania, for example, is an example of rational or empirically supported polypharmacy.72 However, use of multiple agents may be irrational and increase the risk of adverse effects, drug interactions and medication errors in older adults with ID.2,72 One small study by Mahan and colleagues found a greater prevalence of side effects, including general effects on the CNS, in people with ID taking two or more psychotropics than in those who reported taking one.73 A recent cohort study by Sheehan and colleagues as part of the Health Improvement Network database from UK primary care found that people with ID had a significantly higher incidence of movement side effects associated with antipsychotics compared with a control group cohort of adults without ID.74 Table 4 summarizes key studies examining medicines acting on the CNS in adults with ID.

Table 4.

Key studies examining psychotropics and other centrally acting medicines in people with ID.

Title, year, country Aim Setting, sample size Definition of centrally acting medicine Results
Antipsychotic use with and without comorbid psychiatric diagnosis among adults with intellectual and developmental disabilities69
Lunsky et al., [2017] Canada
To characterize antipsychotic use among adults with ID in Ontario, Canada and compare profiles of those taking antipsychotics with and without psychiatric diagnosis 51,881 adults with ID under 65 years who were in receipt of drug benefits in Ontario over 6 years Antipsychotic use: classified by injectable, oral atypical and typical antipsychotics Of the 51,881 adults, 39.2% (n = 20,316) were dispensed an antipsychotic medication. Of those living in group homes, 56.4% received an antipsychotic. In total, 28.9% of those dispensed antipsychotics did not have a psychiatric diagnosis. Those who received antipsychotics and did not have a diagnosis were more likely to be older, have used other psychotropics (antidepressants and benzodiazepines) and were less likely to use ambulatory and acute care
Movement side effects of antipsychotic drugs in adults with and without intellectual disability: UK population-based cohort study74
Sheehan et al. (2017), UK
To compare the incidence of movement side effects of antipsychotic medicines among adults with ID 9013 adults with ID and a control group of 34,242 adults without ID. Participants from primary care: cohort study from the Health Improvement Network database Antipsychotic medicines based on the British National Formulary codes The overall incidence of recorded movement side effects was higher in the ID group compared with the control group: 275 per 10,000 person years and 248 per 10,000 person years respectively. Incidence of any recorded movement side effect was significantly higher in people with ID after adjustment for potential confounders. Movement side effects of parkinsonism and akathisia demonstrated the greatest difference between the groups. Neuroleptic malignant syndrome, was not commonly reported but was three times more common in people with intellectual disability who were prescribed antipsychotic medicines
Title, year, country Aim Study Population, Sample Size Definition of centrally acting medicines Results
Prevalence of psychotropic drug use in adults with intellectual disability: positive and negative findings from a large scale study57
Tsiouris et al. (2012), USA
To examine the prevalence and factors associated with psychotropic drug use among adults with ID in New York state 4,069 adults with ID (including autism spectrum disorder) living in a range of settings who received services from the New York State for People with Developmental Disabilities in 2006–7 (this represented 47% of those who used services) Psychotropics consisted of antipsychotics (typical and atypical); mood stabilizers (anticonvulsants, and lithium); antidepressants; antianxiety agents; anti-impulsives; stimulants; and hypnotics 58% received psychotropics, 39% used typical antipsychotics, and 6% typical, 23% antidepressants, 19% mood stabilizers, and 16% antianxiety agents. Almost 50% had a psychiatric disorder, 38% had a psychiatric disorder and challenging behaviours, and 13% used psychotropics for behaviour alone. There were differences in use varying by geographic region
Antiepileptic drugs with mood-stabilizing properties and their relation with psychotropic drug use in institutionalized epilepsy patients with intellectual disability75
Leunissen et al. (2011), The Netherlands
To investigate whether the use of mood-stabilizing Antiepileptic drugs (AEDs) in patients with ID and epilepsy is associated with a different use of psychotropic drugs Retrospective cohort study of 246 patients with ID and epilepsy in an institution in the Netherlands. The mean age of the study population was 47.9 years. Data were gathered from electronic patient files In the population, AEDs were used for control of epilepsy, they were not used primarily for mental or behavioural symptoms. Mood-stabilizing AEDs studied were carbamazepine, valproic acid, and lamotrigine. Psychotropic drugs were divided into four groups: antipsychotics, antidepressants, anxiolytics, and others (including lithium, propranolol, psychostimulants). Clobazam, clonazepam, diazepam, midazolam and clorazepate were not included in the anxiolytics group Almost all (98.4%) took an AED, with 72.4% taking 3 or more AEDs. Carbamazepine was the most commonly reported AED, followed by valproic acid and lamotrigine. 41.5% took psychotropics, 14.6% took antidepressants, 30.5% took antipsychotics, and 11.8% took anxiolytics. There was a significantly lower use of antidepressants in those using lamotrigine. There were significantly fewer prescriptions of anxiolytics among those using AEDs with mood-stabilizing properties. An inverse relationship between the drug load of the mood-stabilizing AEDs alone or combined and the use of psychotropic drugs
Title, Year, Country Study Aim Study population, Sample Size Definition of centrally acting medicines Results
Emerging trends in the use of drugs to manage challenging behaviour of people with intellectual disability76
McGillivray and McCabe (2006), Australia
To investigate patterns, and combinations of psychotropic use in people with ID who had been reported to have had chemical restrain in Victoria, Australia Retrospective sample, N = 873. All had ID and were subject of report to the Intellectual Disability Review Panel in 2000 concerning the use of chemical restraint IDPS Act in Victoria, Australia. Age range 6.8–87.7 years (mean of 37.0 years). Notification forms for monthly report to Intellectual Disability Review Panel concerning use of chemical restraint by staff for each person who received a restrictive intervention. Sex, age, type of medication from March 2000 and 1993 Six groups: antipsychotics, antidepressants, anticonvulsant/mood stabilizers, psychostimulants, antianxiety/sedatives and others. Antianxiety and sedative drugs were combined to form a single group. Clonazepam was reclassified from an anticonvulsant to an anxiety sedative. Lithium was classed with the anticonvulsants in a group called anticonvulsants/mood stabilizers. Anticholinergics were included in others 4.5% of the population were chemically restrained. Antipsychotics thioridazine, haloperidol and chlorpromazine were most widely reported (60.0% of those in 2000, and 81.4% in 1993). In 2000, 21% received antidepressants, an increase on 9.7% in 1993. Increase in anticonvulsants or mood stabilizers was noted: 16.3% in 2000 versus 11% in 1993. Intraclass polypharmacy: in 1993, 13.8% of those administered antipsychotics had intraclass polypharmacy compared with 8.4% in 2000. In 2000, 53.8% were routinely administered more than one different class of drug (interclass polypharmacy)
Title, year, country Aim Study Population, Sample Size Definition of centrally acting medicine Results
Psychotropic medication in adults with mental retardation: prevalence, and prescription practices77
Holden and Gitlesen (2004), Norway
To investigate prevalence of psychotropic use in people with ID living in the community in Norway, and the relationship with prescribing guidelines Retrospective sample. 300 participants drawn from people with mental retardation who were receiving health or educational services. All were adults and living in community settings. A caregiver or parent was given a questionnaire about demographics, mental health conditions, problem behaviour and psychotropic medication use First-generation neuroleptics, second-generation neuroleptics, SSRI antidepressants, other antidepressants, anticonvulsants, anxiolytics, mood stabilizers and stimulants Of the population, 37.4% received any psychotropic agent, 19.4% used typical antipsychotics, 12.2% used atypical antipsychotics, 85% used SSRI antidepressants, 2.4% used other antidepressants, 5.1% used anticonvulsants, 1.4% used anxiolytics. On average, medications had been used for 5.5 years (first-generation antipsychotics for 9 years). 54.3% of medications were indicated for psychiatric diagnosis alone, or with problem behaviours. 23.7% of all antipsychotics recorded were for people with a psychosis diagnosis
Title, year, country Aim Study Population, Sample Size Definition of centrally acting medicine Results
Statewide longitudinal survey of psychotropic medication use for persons with mental retardation: 1994 to 200078
Spreat et al. (2004), USA
To examine longitudinal patterns of psychotropic medication use between 1994 and 2000 All available 3187 people in 2000 represented 84% of the total service population with ID registered for services. Another sample contained 2248 persons who lived in residential facilities in 1994 and 2000. A third sample was 200 individuals who lived in residential facilities in 1994 and 2000, and 167 individuals who were in residential facilities in 1994, and supported living arrangements in 2000 Psychotropic medication classes; anxiolytics, antipsychotics, antidepressants, soporific/hypnotics, or sedatives, and anticonvulsants to treat mental illness In 2000, 34.3% took psychotropics, antipsychotics were most frequent (20%), then antidepressants (15.8%), anxiolytics (11.1%), and anticonvulsants for mental illness (6.9%). 31.7% of those in nursing homes took antipsychotics compared with 19.6% in supported living. Use of antidepressants was more consistent across settings. Use of antidepressants increased from 5.5% in 1994, to 15% in 2000. Overall there was increased use of psychotropic medications for those who moved from an institutional setting to a community setting
Title, year, country Study Aim Study Population, Setting Definition of centrally acting medicines Results
Receipt of psychotropic medication by people with intellectual disability in residential settings56
Robertson et al. (2000), UK
To examine the patterns and factors associated with psychotropic use, particularly antipsychotics, across three different residential settings for adults with ID N = 500, 86 lived in community, 133 in residential, 281 in community dispersed housing Medication data, taken regularly or as required was distinguished. Adaptive Behaviours Scale used. Aberrant Behaviour Checklist and Psychiatric Assessment Schedules for Adults with Developmental Disabilities used to screen for mental health and autistic spectrum.
Psychoactive medication classes: hypnotics, anxiolytics, antipsychotics (oral or depot), antidepressants, AEDs, anti-Parkinson drugs (categorized regularly or as required)
People living in residential settings were significantly more likely to receive psychotropics on a regular and as required basis. Antipsychotics were reported to be used on a regular basis by 56% in residential settings, 27% in dispersed housing and 17% in village communities. 11% of those living in residential settings received an antipsychotic and antidepressant combination. Factors associated with antipsychotic use included more challenging behaviours, having no mobility problems, living in a residential setting. Mental health was not a key predictor of use
Title, year, country Study Aim Study Population, Setting Definition of centrally acting medicines Results
Prevalence of psychotropic and anticonvulsant drug use among North Dakota group home residences79
Burd et al. (1997),
USA
To examine the prevalence and factors associated with psychotropic or anticonvulsant use among individuals with ID living in group homes N = 1384. Individuals with ID living in group homes, had IQ measures for ID. Mean age 41 years, 12% of the cohort were 61 years or over. 19% had a psychiatric diagnosis, 23% had a seizure diagnosis Psychoactive medications (neuroleptics, antidepressants, antianxiety agents, anticonvulsants, stimulants, lithium, β blockers, antihypertensives, clonidine, hydroxyzine, antiparkinson medications). Medication use analysed in the presence or absence of psychiatric or seizure diagnosis. Multiple medicines and polypharmacy defined as use of more than one psychotropic or anticonvulsant medicine 38% of participants were taking one or more psychotropic or anticonvulsant medicine. Anticonvulsants were used by one quarter of the residents. 20% of the sample used medicines other than anticonvulsants. 11% were taking more than one medication (polypharmacy): 28% of those who were receiving psychotropic or anticonvulsant medicines were receiving multiple medicines. Those who reported a psychiatric diagnosis were 3.4 times more likely to report multiple medicines

SSRI, selective serotonin reuptake inhibitor.

Antipsychotic agents have been the most broadly reported medicines for people with ID and comorbid psychopathology.80 While antipsychotic pharmacotherapy has an important role in managing psychopathology, the role of antipsychotics in dealing with challenging behaviours has less evidence and more risk of harm.80 The National Institute for Health and Care Excellent issued guidelines about appropriate responses to challenging behaviours in adults with ID in 2015. These guidelines highlighted that antipsychotic medication should only be considered to manage behaviours which challenge if psychological or other interventions alone do not produce change within an agreed timeframe; treatment for a coexisting mental or physical health condition has not led to a reduction in behaviour; and the risk to the person or others is very severe (because of violence, aggression or self injury).81 In the UK, the 2012 Department of Health Review ‘Transforming care: a national response to Winterbourne View Hospital’ highlighted ‘deep concerns’ about overuse of psychotropic medicines in people with ID.82,83

There are few studies of high quality in relation to medication efficacy in the long-term treatment of challenging behaviour in the absence of mental illness, or of the associated risks with treatment. However, key findings that have emerged include the following:

  1. The proportion of people with ID who are prescribed psychotropic medicines, in particular antipsychotics, exceeds that in those with a recorded diagnosis of mental illness.6,69

  2. A RCT of typical (haloperidol) and atypical (risperidone) antipsychotics versus placebo for aggressive behaviour in people with ID found no significant advantage for either antipsychotic.45

  3. Antipsychotics are often more frequently used to treat challenging behaviour rather than schizophrenia in this population, despite little or no evidence for their effectiveness and some evidence of detrimental side effects.84,85

Despite these findings, antipsychotics may be prescribed continuously for many years, often resulting in chronic adverse effects. Findings include the following:

  1. Substantial potential for deleterious side effects such as tardive dyskinesia, akathisia, pseudo-Parkinsonism in the case of first-generation antipsychotics such as chlorpromazine and haloperidol.74,40

  2. Increased risk of metabolic side effects and weight gain in the case of atypical antipsychotics.86

Antiepileptic drugs

The prevalence of epilepsy in people with ID is high, with estimates of 14–44%,87 compared with estimates of 1.1% in the general population. Many people with ID have epilepsy that is ‘refractory’ to treatment, due to underlying abnormalities of the nervous system, and may have idiosyncratic responses to treatment.88,89 It has been reported that only 25–35% of patients with ID may become seizure free.90

While the principles of AED therapy for an older person with ID are essentially the same as the general older population, there are unique issues that also need to be addressed. These include higher frequencies of epilepsy that may be refractory to treatment, atypical presentation of symptoms, seizures of multiple types and the presence of comorbidities. There is a limited evidence base associated with the safety and effectiveness of AED use in the ID population.91,92 While the incidence of side effects may be as high as 58% in the general population receiving AED treatment,93 people with ID who have epilepsy are less likely to report side effects, particularly cognitive adverse effects.94 A systematic review of tools to measure side effects of AEDs highlighted that, of 108 measures identified, only 8 were appropriate for use in adults with ID, and only 2 measures had been designed for use in people with ID.95 As a result, side-effect detection is likely to be overly reliant on carer reports and side effects remains under detected. This represents a challenge for doctors, pharmacists and other health professionals in assessing the efficacy and safety of treatment in adults with epilepsy.

There are few high-quality observational and intervention studies of the treatment of epilepsy in ID cohorts.96 A Cochrane review assessing pharmacological interventions for epilepsy in people with ID identified 14 RCTs and highlighted how under investigated this population is with regards to treatments for epilepsy.97 The authors also noted variable study designs, small sample sizes and high dropout rates among some studies, which limited reliability of results. This review noted that ‘a moderate reduction in seizure frequency and occasional seizure freedom was obtained’ with use of therapeutic interventions. As the review pooled all AEDs together, comments or recommendations about the relative efficacy of each AED could not be made. The UK Royal College of Psychiatrists guidelines on prescribing AEDs for people with epilepsy and ID recommend lamotrigine and sodium valproate as the AEDs that should generally be considered as appropriate first-line treatments in the population with ID. These recommendations are based on evidence of efficacy and side effects and clinical experience.98

Both seizures and AEDs may play a role in behavioural disturbances in people with ID and epilepsy.99 As people with ID are at increased risk of mood disorders and epilepsy, using an AED for its mood-stabilizing effects as well as an anticonvulsant is commonplace.50,99 Concurrent use of psychotropics in the population with epilepsy carries risk due to the potential for drug–drug interactions (DDIs): some psychotropics, including the first-generation antipsychotics, reduce the anticonvulsant activity of first-generation AEDs such as carbamazepine.50 Pharmacists and prescribers therefore need to be vigilant for DDIs between AEDs and psychotropics. Moreover, many enzyme-inducing AEDs may lower the plasma levels of other psychotropics, for example selective serotonin reuptake inhibitor antidepressants, and impair control of psychiatric symptoms.100

Anticholinergic medicines

Medications with anticholinergic effects have been associated with central and peripheral side effects, such as sedation, confusion, dry mouth and constipation. The risk of adverse outcomes increases with increasing anticholinergic exposure.101103 Older adults are particularly vulnerable to anticholinergic adverse effects due to a high probability of exposure to medicines with anticholinergic properties to treat age-related morbidities. They may also experience increased age-related sensitivity to anticholinergic-related cognitive adverse effects.102,103 Medical conditions which are commonly presented in older people, such as urinary dysfunction, constipation and dementia, may be worsened by the use of anticholinergics.104,105 Anticholinergic medications have been highlighted as being potentially inappropriate in older and frail adults,1,106 including vulnerable older people and those with dementia.107

People with ID may experience the ‘prescribing cascade’ in relation to anticholinergic medicines, for example, prescribing of anticholinergic medications for movement disorders to treat extrapyramidal symptoms associated with antipsychotic agents, a practice no longer recommended in older adults.1 Medications which people with ID may have been taking for many years may start to produce anticholinergic side effects that may go unrecognized because they had not previously presented a problem.

It is likely that many older adults with ID would have a high burden of anticholinergic medicines due to the high prevalence of use of psychotropic agents. An observational cross-sectional study of 736 older adults with ID identified that there was a high burden of anticholinergic use: 70% of adults with ID had anticholinergic exposure. Older age and having a mental health condition were significantly associated with having a high Anticholinergic Cognitive Burden (ACB) score (ACB score 5+).8 Those with high burden were more likely to report chronic constipation and daytime drowsiness. Antipsychotics, anticholinergics and AEDs were the highest contributors to the burden in the population, accounting for 35%, 16% and 11% of the burden respectively. These findings were in contrast to a previous cross-sectional study of 6666 Irish community-dwelling adults in the general population over 50 years of age in whom cardiac agents were most commonly reported.108 There have been no longitudinal studies to date on the outcomes of anticholinergic exposure and long-term effects on physical and cognitive function in older adults with ID. There has been research carried out in the older population examining the risks associated with cumulative sedative and anticholinergic burden through use of the Drug Burden Index (DBI) tool and associations with adverse outcomes such as cognitive decline.109 Findings from a cross-sectional study of 677 older adults with ID in Ireland identified that 54% had a high DBI score (score of 1+).110 This study identified that this high burden was associated with higher levels of dependence, as measured by the Barthel Index.

Measuring PIP

Few studies to date have examined PIP in older adults with ID. In an observational pilot study of 27 adults with ID living in residential facilities, STRIP (Systematic Tool to Reduce Inappropriate Prescribing) was applied to medication records to identify the prevalence of drug-related problems (DRPs). This tool has been developed for older patients with polypharmacy in the Netherlands.111 For this study, DRPs were identified by applying the STOPP/START (Screening Tool of Older Persons Prescriptions/Screening Tool to Alert Doctors to Right Treatment) criteria. In addition, the pharmacist carrying out the medication review identified additional DRPs based on their professional judgment and guidelines on appropriate prescribing in people with ID or the general population. At least one DRP was identified for each person with ID in the pilot study, and after 6 months, 15.7% of interventions recommended from the review had been implemented. In another study in the Netherlands, a structured medication review in a treatment facility for people with mild and borderline ID and behavioural problems was described.112 Here DRPs were defined and identified by the pharmacist and were categorized into those relating to drug selection (e.g. duplication, DDI, lack of indication, unclear indication) and those related to dosage/formulation (e.g. dosage too high, inappropriate formulation). Prevalence and types of DRPs among 55 patients with ID who were taking at least one psychotropic medicine were examined. This study identified a prevalence of DRPs of 34%. The most common DRP identified was a prescribed medicine having no indication or an unclear indication. In this study, the pharmacist and psychiatrist implemented a care plan and 60% of recommended actions were executed. A cross-sectional study in the Netherlands examined the prevalence and risk factors for prescription errors in 600 adults aged 50 years and over with ID from the Health Ageing and Intellectual Disability Study.7 Participants taking at least one medicine were screened for prescription errors, which were defined as prescriptions that were not in accordance with current prescribing standards. Types of error were classified into dosage errors (dose too high or low) and therapeutic errors, including DDIs, time interaction, unnecessary drug therapy. Prevalence of errors was 47.5% and relevant errors (those that required a change of pharmacotherapy) were identified in 26.8% of individuals. Older age, higher frailty, less severe level of ID, polypharmacy and use of CNS medicines were associated with prescription errors. No study to date has used a tool specifically developed and validated for adults with ID.

A recent study in Sweden used a national register of 7936 adults with ID who were matched to people from the general population and examined the prevalence of PIP compared with those in the general population.113 This was carried out using a list of medicines that may need extra attention in older adults, published by the Swedish National Board of Health and Wellbeing. Adults with ID were more likely to be prescribed PIPs, including anticholinergic medicines, benzodiazepines and antipsychotics, but less likely to be prescribed nonsteroidal anti-inflammatory drugs. A limitation of the study was that there was no information on clinical diagnosis and no ID-specific PIPs.

Deprescribing

In the general population, deprescribing as a means of reducing PIP is gaining increasing attention.20,114 To date, deprescribing initiatives in the population with ID have generally focused on antipsychotics.115 In a study in the Netherlands which took place in six service providers for people with ID, the reasons why physicians did not discontinue off-label use of antipsychotics were examined as part of an antipsychotic discontinuation trial. Prevalence of antipsychotics use was 30% among 3299 participants. Reasons for not discontinuing were previous unsuccessful attempts, objections from legal representatives, and presence of an autism spectrum disorder with a large variance in reasoning between the service providers.116 A pilot RCT of drug reduction of 22 adults with ID treated with risperidone for challenging behaviour with no known current or previous psychosis was carried out in the UK.117 Of the 22 participants, 59% achieved progression through the stages of reduction and the study found no clinically important changes in the participant’s level of aggression or challenging behaviour at the end of the study. The findings were limited by the small number of participants, difficulties in recruitment and limited availability of alternative behavioural interventions.

A systematic review identified that antipsychotics may be reduced or discontinued in a large proportion of adults with ID who use them for challenging behaviour, but the authors concluded that this may not be without adverse effects. These risks included unmasking of a mental disorder and withdrawal reaction.115 However, no predictors of poor response could be reliably identified in the available studies. Due to the scarcity of data and limitations of the available studies, no conclusions or recommendations at a population level could be made by the authors and they recommended an individualized approach to treatment and regular medication review.

In response to reports published in England highlighting inappropriate use of antipsychotics and psychotropics, NHS England initiated the ‘Stopping over medication of people with a learning disability, autism or both (STOMP)’ project.10 This is a 3-year project (ending in 2019) and the STOMP pledge was signed by partners in the UK, including NHS England, the Royal College of Psychiatrists and the Royal Pharmaceutical Society. Health care professionals in England are being trained to support this initiative. Activities include ensuring that those receiving a psychotropic medicine for challenging behaviour have a positive behaviour support plan, audits of psychotropic use to assess the impact of the project on a quarterly basis, and recommendations for comprehensive monitoring of medicine. As a result, a number of guidelines have been developed, including practice guidelines on psychotropic prescribing from the Royal College of Psychiatrists.118

Underutilization of therapeutic classes

Paradoxically, a patient already exposed to polypharmacy may not receive other medicines due to challenges associated with communication and diagnostic overshadowing and fears of interactions with drugs already prescribed. In a study of polypharmacy in older adults with ID in Ireland, almost half of the cohort reported pain, but only 2% used paracetamol–codeine combinations, and 1% opioids, while a third reported using paracetamol.9 Pain and its appropriate treatment need to be examined in more detail in the ID population.

Priorities for research and practice

Research is needed on the long-term effects of medicines in older adults with ID, particularly psychotropic medicines and sedative and anticholinergic medicines which may adversely affect physical and cognitive outcomes. Since people with ID are often excluded from RCTs, there needs to be more representative longitudinal studies allowing for international comparisons assessing the benefits and risks of polypharmacy. This should include studies on antipsychotics, but also encompass other important classes of medicines that may cause long-term harm, including anticholinergics.

Specific prescribing criteria need to be developed for people with ID to guide identification of PIP at a population level and associated adverse outcomes. Attention should be paid to other medicines that may be underutilized, such as for eye conditions and pain management. This criterion should take into account multimorbidity specific to adults with ID, particularly epilepsy and mental health conditions, and should be applicable in different care settings for people with ID. The use of ID-sensitive versions of scales such as the ACB scales, in addition to a review of the patient’s symptoms and screening for side effects, may provide a useful aid in multidisciplinary medication reviews to identify those at risk of medication-related harm. The effectiveness of pharmacists in this context with other patient groups has been acknowledged,119 and needs to be further developed in interventions for patients with ID.

Education of health care professionals in primary care is required as people with ID move into community settings and access primary care. This should include initiatives to carry out comprehensive multidisciplinary medication reviews. Awareness of the potential of the prescribing cascade among all healthcare professionals is required. There is a need for increased visibility of the complex health issues in adults with ID, addressed through education of pharmacists and general practitioners in primary care and students at undergraduate level.92 There is an important opportunity for pharmacists to lead these efforts.

Complex interventions have been increasingly used in the general older population to reduce PIP.120,121 Similar types of interventions to improve prescribing and health outcomes in older adults with ID should be explored. A multifaceted intervention may be more effective than one single intervention by targeting behaviours among prescribers, pharmacists and other health care professions. These interventions should include stakeholder views of patients and carers or family members, involving people with ID and their families who experience polypharmacy in the decisionmaking processes.

Conclusion

People with ID experience poorer health compared with the general population and are at risk of medication-related harm relating to appropriateness and safety of medicine use. While many older adults with ID gain benefit from polypharmacy, PIP carries substantial risk. With the growing older population of people with ID, it is necessary to be vigilant for adverse effects of medicines that may not manifest at younger ages. Evaluating the benefits of polypharmacy and its role in the appropriate treatment of complex comorbidities in older people with ID must be balanced with the risks of adverse outcomes associated with the use of polypharmacy, particularly medicines which have anticholinergic or sedative properties. In particular, the use of multiple psychotropic agents should be frequently evaluated to assess benefits and risks. Prescribing and providing pharmaceutical care in this population should be carried out in a manner that explicitly considers the overall effect of the total drug burden. There is a need for the development of ID-specific validated tools to measure PIP, which would provide health professionals with means to evaluate medication regimens in a structured manner. Health professionals in primary care need education on the unique medical and pharmaceutical care needs of people with ID. When considering prescribing, clinicians should consider risks and benefits, and impact on quality of life. Long-term outcomes of polypharmacy in this population and PIP warrant further research.

Footnotes

Funding: The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: This review was completed as part of a PhD studentship supported by Trinity College Dublin.

Conflict of interest statement: The authors declare that there is no conflict of interest.

Contributor Information

Maire O’Dwyer, School of Pharmacy and Pharmaceutical Sciences, University of Dublin Trinity College, Trinity College Dublin, Dublin, Ireland.

Philip McCallion, School of Social Work, College of Public Health, Temple University, Philadelphia, PA, USA.

Mary McCarron, Faculty of Health Sciences, University of Dublin Trinity College, Dublin, Ireland.

Martin Henman, School of Pharmacy and Pharmaceutical Sciences, University of Dublin Trinity College, Dublin, Ireland.

References

  • 1. O’Mahony D, O’Sullivan D, Byrne S, et al. STOPP/START criteria for potentially inappropriate prescribing in older people: version 2. Age Ageing 2014; 2: 213–218. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 2. The American Geriatrics Society Beers Criteria Update Expert Panel. By the American Geriatrics Society Beers Criteria Update Expert Panel. American Geriatrics Society 2015 Updated Beers Criteria for Potentially Inappropriate Medication Use in Older Adults. J Am Geriatr Soc 2015; 63: 2227–2246. [DOI] [PubMed] [Google Scholar]
  • 3. Glover G, Williams R, Heslop P, et al. Mortality in people with intellectual disabilities in England. J Intellect Disabil Res 2017; 61: 62–74. [DOI] [PubMed] [Google Scholar]
  • 4. McCarron M, Swinburne J, Burke E, et al. Patterns of multimorbidity in an older population of persons with an intellectual disability: results from the intellectual disability supplement to the Irish longitudinal study on aging (IDS-TILDA). Res Dev Disabil 2013; 34: 521–527. [DOI] [PubMed] [Google Scholar]
  • 5. Cooper S-A, Smiley E, Morrison J, et al. Mental ill-health in adults with intellectual disabilities: prevalence and associated factors. Br J Psychiatry 2007; 190: 27–35. [DOI] [PubMed] [Google Scholar]
  • 6. Sheehan R, Hassiotis A, Walters K, et al. Mental illness, challenging behaviour, and psychotropic drug prescribing in people with intellectual disability: UK population based cohort study. BMJ 2015; 351: h4326. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 7. Zaal RJ, van der Kaaij AD, Evenhuis HM, et al. Prescription errors in older individuals with an intellectual disability: prevalence and risk factors in the Healthy Ageing and Intellectual Disability Study. Res Dev Disabil 2013; 34: 1656–1662. [DOI] [PubMed] [Google Scholar]
  • 8. O’Dwyer M, Maidment ID, Bennett K, et al. Association of anticholinergic burden with adverse effects in older people with intellectual disabilities: an observational cross-sectional study. Br J Psychiatry 2016; 209: 504–510. [DOI] [PubMed] [Google Scholar]
  • 9. O’Dwyer M, Peklar J, McCallion P, et al. Factors associated with polypharmacy and excessive polypharmacy in older people with intellectual disability differ from the general population: a cross-sectional observational nationwide study. BMJ Open 2016; 6: e010505. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 10. NHS England. Stopping over-medication of people with learning disabilities 2016. London, 2016. [Google Scholar]
  • 11. Stortz JN, Lake JK, Cobigo V, et al. Lessons learned from our elders: how to study polypharmacy in populations with intellectual and developmental disabilities. Intellect Dev Disabil 2014; 52: 60–77. [DOI] [PubMed] [Google Scholar]
  • 12. Kaufman DW, Kelly JP, Rosenberg L, et al. Recent patterns of medication use in the ambulatory adult population of the United States. JAMA 2002; 287: 337–344. [DOI] [PubMed] [Google Scholar]
  • 13. Fulton MM, Riley Allen E. Polypharmacy in the elderly: a literature review. J Am Acad Nurse Pract 2005; 17: 123–132. [DOI] [PubMed] [Google Scholar]
  • 14. Duerden M, Avery T, Payne R. Polypharmacy and medicines optimisation, http://www.kingsfund.org.uk/sites/files/kf/field/field_publication_file/polypharmacy-and-medicines-optimisation-kingsfund-nov13.pdf (2013, accessed 15 December 2017).
  • 15. Nobili A, Garattini S, Mannucci PM. Multiple diseases and polypharmacy in the elderly: challenges for the internist of the third millennium. J Comorb 2011; 1: 28–44. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 16. O’mahony D, Gallagher PF. Inappropriate prescribing in the older population: need for new criteria. Age Ageing 2008; 37: 138–141. [DOI] [PubMed] [Google Scholar]
  • 17. O’Connor MN, Gallagher P, O’Mahony D. Inappropriate prescribing. Drugs Aging 2012; 29: 437–452. [DOI] [PubMed] [Google Scholar]
  • 18. Guthrie B, McCowan C, Davey P, et al. High risk prescribing in primary care patients particularly vulnerable to adverse drug events: cross sectional population database analysis in Scottish general practice. BMJ 2011; 342: d3514. [DOI] [PubMed] [Google Scholar]
  • 19. Gnjidic D, Hilmer SN, Blyth FM, et al. Polypharmacy cutoff and outcomes: five or more medicines were used to identify community-dwelling older men at risk of different adverse outcomes. J Clin Epidemiol 2012; 65: 989–995. [DOI] [PubMed] [Google Scholar]
  • 20. Scott IA, Hilmer SN, Reeve E, et al. Reducing inappropriate polypharmacy: the process of deprescribing. JAMA Intern Med 2015; 175: 827–834. [DOI] [PubMed] [Google Scholar]
  • 21. American Association of Intellectual and Developmental Disabilities. Definition of Intellectual Disability. http://aaidd.org/intellectual-disability/definition#.WxZirYoh2Uk (2014, accessed 21 September 2014).
  • 22. Haveman M, Perry J, Salvador-Carulla L, et al. Ageing and health status in adults with intellectual disabilities: results of the European POMONA II study. J Intellect Dev Disabil 2011; 36: 49–60. [DOI] [PubMed] [Google Scholar]
  • 23. Schalock RL, Luckasson R. American association on mental retardation’s definition, classification, and system of supports and its relation to international trends and issues in the field of intellectual disabilities. J Policy Pract Intellect Disabil 2004; 1: 136–146. [Google Scholar]
  • 24. Ellison JW, Rosenfeld JA, Shaffer LG. Genetic basis of intellectual disability. Annu Rev Med 2013; 64: 441–450. [DOI] [PubMed] [Google Scholar]
  • 25. Heslop P, Blair PS, Fleming P, et al. The Confidential Inquiry into premature deaths of people with intellectual disabilities in the UK: a population-based study. Lancet 2013; 383: 889–895. [DOI] [PubMed] [Google Scholar]
  • 26. van Schrojenstein Lantman-De HM, Metsemakers JF, Haveman MJ, et al. Health problems in people with intellectual disability in general practice: a comparative study. Fam Pract 2000; 17: 405–407. [DOI] [PubMed] [Google Scholar]
  • 27. Haveman M, Heller T, Lee L, et al. Report on the state of science on health risks and ageing in people with intellectual disabilities. IASSID Special Interest Research Group on Ageing and Intellectual Disabilities/Faculty Rehabilitation Sciences, University of Dortmund; ), http://www.rrtcadd.org/Resource/Publications/HP/Brief/assets/State%20of%20Science%20o. 2009(20Health) (accessed 1 July 2017). [Google Scholar]
  • 28. Straetmans JM, van Schrojenstein Lantman-de HM, Schellevis FG, et al. Health problems of people with intellectual disabilities: the impact for general practice. Br J Gen Pract 2007; 57: 64–66. [PMC free article] [PubMed] [Google Scholar]
  • 29. Cooper S-A, Melville C, Morrison J. People with intellectual disabilities: their health needs differ and need to be recognised and met. BMJ 2004; 329: 414. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 30. Lennox N, Kerr MP. Primary health care and people with an intellectual disability: the evidence base. J Intellect Disabil Res 2007; 41: 365–372. [DOI] [PubMed] [Google Scholar]
  • 31. Emerson E, Baines S, Allerton L, et al. Health inequalities and people with learning disabilities in the UK: 2010. Durham: Improving Health & Lives: Learning Disabilities Observatory, 2010. [Google Scholar]
  • 32. Hermans H, Evenhuis HM. Multimorbidity in older adults with intellectual disabilities. Res Dev Disabil 2014; 35: 776–783. [DOI] [PubMed] [Google Scholar]
  • 33. Kinnear D, Morrison J, Allan L, et al. Prevalence of physical conditions and multimorbidity in a cohort of adults with intellectual disabilities with and without Down syndrome: cross-sectional study. BMJ Open 2018; 8: e018292. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 34. Barnett K, Mercer SW, Norbury M, et al. Epidemiology of multimorbidity and implications for health care, research, and medical education: a cross-sectional study. Lancet 2012; 380: 37–43. [DOI] [PubMed] [Google Scholar]
  • 35. van Schrojenstein Lantman-de Valk HM, Walsh PN. Managing health problems in people with intellectual disabilities. BMJ 2008; 337: a2507. [DOI] [PubMed] [Google Scholar]
  • 36. Paton C, Flynn A, Shingleton-Smith A, et al. Nature and quality of antipsychotic prescribing practice in UK psychiatry of intellectual disability services. J Intellect Disabil Res 2011; 55: 665–674. [DOI] [PubMed] [Google Scholar]
  • 37. Taylor D, Paton C, Kapur S. The Maudsley prescribing guidelines in psychiatry. John Wiley and Sons, 2012. [Google Scholar]
  • 38. Evenhuis HM, Hermans H, Hilgenkamp TI, et al. Frailty and disability in older adults with intellectual disabilities: results from the healthy ageing and intellectual disability study. J Am Geriatr Soc 2012; 60: 934–938. [DOI] [PubMed] [Google Scholar]
  • 39. Scheifes A, Stolker J, Egberts A, et al. Representation of people with intellectual disabilities in randomised controlled trials on antipsychotic treatment for behavioural problems. J Intellect Disabil Res 2011; 55: 650–664. [DOI] [PubMed] [Google Scholar]
  • 40. Matson JL, Mahan S. Antipsychotic drug side effects for persons with intellectual disability. Res Dev Disabil 2010; 31: 1570–1576. [DOI] [PubMed] [Google Scholar]
  • 41. Bhaumik S, Gangadharan SK, Branford D, et al. The frith prescribing guidelines for people with intellectual disability. John Wiley & Sons, 2015. [Google Scholar]
  • 42. NHS Scotland: The Pharmaceutical Care of People with Learning Disabilities. NHS Scotland, 2014. [Google Scholar]
  • 43. van Schrojenstein Lantman-de HM, Walsh PN. Managing health problems in people with intellectual disabilities. BMJ 2008; 337: a2507. [DOI] [PubMed] [Google Scholar]
  • 44. O’Dwyer M. Prevalence, patterns and factors associated with multiple medicines use in an ageing population with intellectual disability in Ireland. Doctoral Dissertation, Trinity College; Dublin, 2015. [Google Scholar]
  • 45. Tyrer P, Oliver-Africano PC, Ahmed Z, et al. Risperidone, haloperidol, and placebo in the treatment of aggressive challenging behaviour in patients with intellectual disability: a randomised controlled trial. Lancet 2008; 371: 57–63. [DOI] [PubMed] [Google Scholar]
  • 46. Mac Giolla Phadraig C, McCallion P, Cleary E, et al. Total tooth loss and complete denture use in older adults with intellectual disabilities in Ireland. J Public Health Dent 2015; 75: 101–108. [DOI] [PubMed] [Google Scholar]
  • 47. Schoufour JD, Mitnitski A, Rockwood K, et al. Development of a frailty index for older people with intellectual disabilities: results from the HA-ID study. Res Dev Disabil 2013; 34: 1541–1555. [DOI] [PubMed] [Google Scholar]
  • 48. Gnjidic D, Hilmer SN. Use of potentially inappropriate medications in the care of frail older people. Aging Health 2010; 6: 705–716. [Google Scholar]
  • 49. Rochon PA, Gurwitz JH. Optimising drug treatment for elderly people: the prescribing cascade. BMJ 1997; 315: 1096. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 50. Häβler F, Thome J, Reis O. Polypharmacy in the treatment of subjects with intellectual disability. J Neural Transm 2014: 1–8. [DOI] [PubMed] [Google Scholar]
  • 51. Peklar J, Kos M, O’Dwyer M, et al. Medication and supplement use in older people with and without intellectual disability: an observational, cross-sectional study. PloS One 2017; 12: e0184390. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 52. Taylor D, Paton C, Kapur S. The Maudsley prescribing guidelines in psychiatry. John Wiley & Sons, 2015. [Google Scholar]
  • 53. Espie C, Watkins J, Curtice L, et al. Psychopathology in people with epilepsy and intellectual disability; an investigation of potential explanatory variables. J Neurol Neurosurg Psychiatry 2003; 74: 1485–1492. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 54. Ring H, Zia A, Bateman N, et al. How is epilepsy treated in people with a learning disability? A retrospective observational study of 183 individuals. Seizure 2009; 18: 264–268. [DOI] [PubMed] [Google Scholar]
  • 55. Molyneux P, Emerson E, Caine A. Prescription of psychotropic medication to people with intellectual disabilities in primary health-care settings. J Appl Res Intellect Disabil 1999; 12: 46–57. [Google Scholar]
  • 56. Robertson J, Emerson E, Gregory N, et al. Receipt of psychotropic medication by people with intellectual disability in residential settings. J Intellect Disabil Res 2000; 44: 666–676. [DOI] [PubMed] [Google Scholar]
  • 57. Tsiouris JA, Kim S-Y, Brown WT, et al. Prevalence of psychotropic drug use in adults with intellectual disability: positive and negative findings from a large scale study. J Autism Dev Disord 2012; 43: 719–731. [DOI] [PubMed] [Google Scholar]
  • 58. Stolker JJ, Heerdink ER, Leufkens HG, et al. Determinants of multiple psychotropic drug use in patients with mild intellectual disabilities or borderline intellectual functioning and psychiatric or behavioral disorders. Gen Hosp Psychiatry 2001; 23: 345–349. [DOI] [PubMed] [Google Scholar]
  • 59. Hurley A, Folstein M, Lam N. Patients with and without intellectual disability seeking outpatient psychiatric services: diagnoses and prescribing pattern. J Intellect Disabil Res 2003; 47: 39–50. [DOI] [PubMed] [Google Scholar]
  • 60. Haider SI, Ansari Z, Vaughan L, et al. Prevalence and factors associated with polypharmacy in Victorian adults with intellectual disability. Res Dev Disabil 2014; 35: 3071–3080. [DOI] [PubMed] [Google Scholar]
  • 61. Lunsky Y, Klein-Geltink JE, Yates EA, et al. Medication use. In: Atlas on the primary care of adults with developmental disabilities in Ontario. Toronto, Canada: Institute for Clinical Evaluative Sciences and Centre for Addiction and Mental Health, http://www.ices.on.ca/~/media/Files/Atlases-Reports/2013/Atlas-on-developmental-disabilities/Full-Report.ashx. (2013, accessed 1 June 2017). [Google Scholar]
  • 62. Doan TN, Lennox NG, Taylor-Gomez M, et al. Medication use among Australian adults with intellectual disability in primary healthcare settings: a cross-sectional study. J Intellect Dev Disabil 2013; 38: 177–181. [DOI] [PubMed] [Google Scholar]
  • 63. Van der Heide D, Van Der Putten A, Van Den Berg P, Taxis K, Vlaskamp C. The documentation of health problems in relation to prescribed medication in people with profound intellectual and multiple disabilities. J Intellect Disabil Res 2009; 53: 161–168. [DOI] [PubMed] [Google Scholar]
  • 64. Barat I, Andreasen F, Damsgaard EMS. The consumption of drugs by 75-year-old individuals living in their own homes. Eur J Clin Pharmacol 2000; 56: 501–509. [DOI] [PubMed] [Google Scholar]
  • 65. Richardson K, Moore P, Peklar J, et al. Polypharmacy in adults over 50 in Ireland: opportunities for cost saving and improved healthcare. The Irish Longitudinal Study on Ageing, Lincoln Place, Trinity College Dublin, Dublin: 2: 2012. [Google Scholar]
  • 66. O’Dwyer M, Meštrović A, Henman M. Pharmacists’ medicines-related interventions for people with intellectual disabilities: a narrative review. Int J Clin Pharm 2015; 37: 566–578. [DOI] [PubMed] [Google Scholar]
  • 67. Flood B. Bone health medication and adults with intellectual disabilities: an audit of bone health medication dispensed by a pharmacist in long-term care. Br J Learn Disabil 2013; 41: 239–240. [Google Scholar]
  • 68. Thomsen L, Rossing C, Trier H, et al. Improving safety in the medicines use process for disabled persons in residential facilities. Results from a Pilot Study. J Biosafety Health Educ 2014; 2: 2332–0893.1000114. [Google Scholar]
  • 69. Lunsky Y, Khuu W, Tadrous M, et al. Antipsychotic use with and without comorbid psychiatric diagnosis among adults with intellectual and developmental disabilities. Can J Psychiatry 2018. 63: 361–369. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 70. Deb S, Kwok H, Bertelli M, et al. International guide to prescribing psychotropic medication for the management of problem behaviours in adults with intellectual disabilities. World Psychiatry 2009; 8: 181–186. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 71. Santosh PJ, Baird G. Psychopharmacotherapy in children and adults with intellectual disability. Lancet 1999; 354: 233–242. [DOI] [PubMed] [Google Scholar]
  • 72. Kingsbury SJ, Yi D, Simpson GM. Psychopharmacology: rational and irrational polypharmacy. Psychiatr Serv 2001; 52: 1033–1036. [DOI] [PubMed] [Google Scholar]
  • 73. Mahan S, Holloway J, Bamburg JW, et al. An examination of psychotropic medication side effects: does taking a greater number of psychotropic medications from different classes affect presentation of side effects in adults with ID? Res Dev Disabil 2010; 31: 1561–1569. [DOI] [PubMed] [Google Scholar]
  • 74. Sheehan R, Horsfall L, Strydom A, et al. Movement side effects of antipsychotic drugs in adults with and without intellectual disability: UK population-based cohort study. BMJ Open 2017; 7: e017406. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 75. Leunissen C, de la Parra N, Tan I, et al. Antiepileptic drugs with mood stabilizing properties and their relation with psychotropic drug use in institutionalized epilepsy patients with intellectual disability. Res Dev Disabil 2011; 32: 2660–2668. [DOI] [PubMed] [Google Scholar]
  • 76. McGillivray JA, McCabe MP. Emerging trends in the use of drugs to manage the challenging behaviour of people with intellectual disability. J Appl Res Intellect Disabil 2006; 19: 163–172. [Google Scholar]
  • 77. Holden B, Gitlesen JP. Psychotropic medication in adults with mental retardation: prevalence, and prescription practices. Res Dev Disabil 2004; 25: 509–521. [DOI] [PubMed] [Google Scholar]
  • 78. Spreat S, Conroy JW, Fullerton A. Statewide longitudinal survey of psychotropic medication use for persons with mental retardation: 1994 to 2000. Am J Ment Retard 2004;109: 322–331. [DOI] [PubMed] [Google Scholar]
  • 79. Burd L, Williams M, Klug M, et al. Prevalence of psychotropic and anticonvulsant drug use among North Dakota group home residents. J Intellect Disabil Res 1997; 41: 488–494. [DOI] [PubMed] [Google Scholar]
  • 80. Matson JL, Shoemaker ME. Psychopathology and intellectual disability. Curr Opin Psychiatry 2011; 24: 367–371. [DOI] [PubMed] [Google Scholar]
  • 81. National Institute of Health and Clinical Excellence. Challenging behaviour and learning disabilities: prevention and interventions for people with learning disabilities whose behaviour challenges. NICE Guideline NG11, https://www.nice.org.uk/guidance/ng11 (2015, accessed 1 December 2017). [PubMed]
  • 82. Transforming Care and Commissioning Steering Group: Winterbourne View - Time for Change. Transforming the Commissioning of services for people with Learning Disabilities and/or autism: NHS England: Soapbox, 2014. [Google Scholar]
  • 83. Department of Health. Transforming Care: A National Response to Winterbourne View Hospital, Department of Health Review Final Report. NHS England, 2012. [Google Scholar]
  • 84. Clarke DJ. Towards rational psychotropic prescribing for people with learning disability. Br J Learn Disabil 1997; 25: 46–52. [Google Scholar]
  • 85. Kiernan C, Reeves D, Alborz A. The use of anti-psychotic drugs with adults with learning disabilities and challenging behaviour. J Intellect Disabil Res 1995; 39: 263–274. [DOI] [PubMed] [Google Scholar]
  • 86. Williams H, Clarke R, Bouras N, et al. Use of the atypical antipsychotics olanzapine and eisperidone in adults with intellectual disability. J Intellect Disabil Res 2000; 44: 164–169. [DOI] [PubMed] [Google Scholar]
  • 87. Bowley C, Kerr M. Epilepsy and intellectual disability. J Intellect Disabil Res 2000; 44: 529–543. [DOI] [PubMed] [Google Scholar]
  • 88. Branford D, Bhaumik S, Duncan F. Epilepsy in adults with learning disabilities. Seizure 1998; 7: 473–477. [DOI] [PubMed] [Google Scholar]
  • 89. Kiani R, Tyrer F, Jesu A, et al. Mortality from sudden unexpected death in epilepsy (SUDEP) in a cohort of adults with intellectual disability. J Intellect Disabil Res 2014; 58: 508–520. [DOI] [PubMed] [Google Scholar]
  • 90. McGrother CW, Bhaumik S, Thorp CF, et al. Epilepsy in adults with intellectual disabilities: prevalence, associations and service implications. Seizure 2006; 15: 376–386. [DOI] [PubMed] [Google Scholar]
  • 91. Kerr M, Scheepers M, Arvio M, et al. Consensus guidelines into the management of epilepsy in adults with an intellectual disability. J Intellect Disabil Res 2009; 53: 687–694. [DOI] [PubMed] [Google Scholar]
  • 92. Royal College of Psychiatrists. Management of epilepsy in adults with intellectual disability. The Royal College of Psychiatrists Faculty Report CR203, https://www.rcpsych.ac.uk/usefulresources/publications/collegereports/cr/cr203.aspx (2017, accessed 1 February 2018).
  • 93. Gillham R, Baker G, Thompson P, et al. Standardisation of a self-report questionnaire for use in evaluating cognitive, affective and behavioural side-effects of anti-epileptic drug treatments. Epilepsy Res 1996; 24: 47–55. [DOI] [PubMed] [Google Scholar]
  • 94. Javed A, Cohen B, Detyniecki K, et al. Rates and predictors of patient-reported cognitive side effects of antiepileptic drugs: an extended follow-up. Seizure 2015; 29: 34–40. [DOI] [PubMed] [Google Scholar]
  • 95. Copeland L, Meek A, Kerr M, et al. Measurement of side effects of anti-epileptic drugs (AEDs) in adults with intellectual disability: a systematic review. Seizure 2017; 51: 61–73. [DOI] [PubMed] [Google Scholar]
  • 96. Beavis J, Kerr M, Marson AG. Pharmacological interventions for epilepsy in people with intellectual disabilities. Cochrane Database Syst Rev 2007; (3): CD005399. [DOI] [PubMed] [Google Scholar]
  • 97. Jackson CF, Makin SM, Marson AG, et al. Pharmacological interventions for epilepsy in people with intellectual disabilities. Cochrane Database Syst Rev 2015; (9): CD005399. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 98. Royal College of Psychiatrists. Prescribing anti-epileptic drugs for people with epilepsy and intellectual disability. The Royal College of Psychiatrists Faculty Report CR206, https://www.rcpsych.ac.uk/usefulresources/publications/collegereports/cr/cr206.aspx (2017, accessed 1 February 2018).
  • 99. Kerr M, Gil-Nagel A, Glynn M, et al. Treatment of behavioral problems in intellectually disabled adult patients with epilepsy. Epilepsia 2013; 54(Suppl. 1): 34–40. [DOI] [PubMed] [Google Scholar]
  • 100. Ruiz-Giménez J, Sanchez-Alvarez J, Cañadillas-Hidalgo F, et al. Antiepileptic treatment in patients with epilepsy and other comorbidities. Seizure 2010; 19: 375–382. [DOI] [PubMed] [Google Scholar]
  • 101. Sumukadas D, McMurdo ME, Mangoni AA, et al. Temporal trends in anticholinergic medication prescription in older people: repeated cross-sectional analysis of population prescribing data. Age Ageing 2014. 43: 515–21. [DOI] [PubMed] [Google Scholar]
  • 102. Boustani M, Campbell N, Munger S, et al. Impact of anticholinergics on the aging brain: a review and practical application. Aging Health 2008; 4: 311–320. [Google Scholar]
  • 103. Campbell N, Boustani M, Limbil T, et al. The cognitive impact of anticholinergics: a clinical review. Clin Interv Aging 2009; 4: 225–233. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 104. Lechevallier-Michel N, Molimard M, Dartigues JF, et al. Drugs with anticholinergic properties and cognitive performance in the elderly: results from the PAQUID Study. Br J Clin Pharmacol 2005; 59: 143–151. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 105. Feinberg M. The problems of anticholinergic adverse effects in older patients. Drugs Aging 1993; 3: 335–348. [DOI] [PubMed] [Google Scholar]
  • 106. Levy HB, Marcus E-L, Christen C. Beyond the Beers criteria: a comparative overview of explicit criteria. Ann Pharmacother 2010; 44: 1968–1975. [DOI] [PubMed] [Google Scholar]
  • 107. Moran JA, Rafii MS, Keller SM, et al. (eds). The National Task Group on Intellectual Disabilities and Dementia Practices consensus recommendations for the evaluation and management of dementia in adults with intellectual disabilities. Mayo Clin Proc 2013; 88: 831–840. [DOI] [PubMed] [Google Scholar]
  • 108. Richardson K, Bennett K, Maidment ID, et al. Use of medications with anticholinergic activity and self-reported injurious falls in older community-dwelling adults. J Am Geriatr Soc 2015; 63: 1561–1569. [DOI] [PubMed] [Google Scholar]
  • 109. Hilmer SN, Mager DE, Simonsick EM, et al. A drug burden index to define the functional burden of medications in older people. Arch Intern Med 2007; 167: 781–787. [DOI] [PubMed] [Google Scholar]
  • 110. O’Connell J, Burke E, Mulryan N, et al. Drug Burden Index to Define the Burden of Medicines in Older Adults with Intellectual Disabilities: An Observational Cross-Sectional Study. Br J Clin Pharmacol 2018; 84: 553–567. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 111. Zaal RJ, Ebbers S, Borms M, et al. Medication review using a Systematic Tool to Reduce Inappropriate Prescribing (STRIP) in adults with an intellectual disability: a pilot study. Res Dev Disabil 2016; 55: 132–142. [DOI] [PubMed] [Google Scholar]
  • 112. Scheifes A, Egberts TC, Stolker JJ, et al. Structured medication review to improve pharmacotherapy in people with intellectual disability and behavioural problems. J Appl Res Intellect Disabil 2016; 29: 346–355. [DOI] [PubMed] [Google Scholar]
  • 113. Axmon A, Sandberg M, Ahlström G, et al. Prescription of potentially inappropriate medications among older people with intellectual disability: a register study. BMC Pharmacol Toxicol 2017; 18: 68. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 114. Spence D. Bad medicine: polypharmacy. Br J Gen Pract 2017; 67: 562. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 115. Sheehan R, Hassiotis A. Reduction or discontinuation of antipsychotics for challenging behaviour in adults with intellectual disability: a systematic review. Lancet Psychiatry 2017; 4: 238–256. [DOI] [PubMed] [Google Scholar]
  • 116. Kuijper G, Hoekstra P. Physicians’ reasons not to discontinue long-term used off-label antipsychotic drugs in people with intellectual disability. J Intellect Disabil Res 2017; 61: 899–908. [DOI] [PubMed] [Google Scholar]
  • 117. McNamara R, Randell E, Gillespie D, et al. A pilot randomised controlled trial of community-led ANtipsychotic Drug REduction for Adults with Learning Disabilities. Health Technol Assess 2017; 21: 1. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 118. Alexander R, Branford D, Devapriam J. Psychotropic drug prescribing for people with intellectual disability, mental health problems and/or behaviours that challenge: practice guidelines. Faculty Report FR/ID/09. http://www.rcpsych.ac.uk/pdf/FR_ID_09_for_website.pdf, 2016.
  • 119. Alder S, Caslake R, Mangoni AA. Practical advice for prescribing in old age. Medicine 2017; 45: 11–14. [Google Scholar]
  • 120. Murphy ME, Byrne M, Zarabzadeh A, et al. Development of a complex intervention to promote appropriate prescribing and medication intensification in poorly controlled type 2 diabetes mellitus in Irish general practice. Implement Sci 2017; 12: 115. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 121. Cadogan CA, Ryan C, Francis JJ, et al. Development of an intervention to improve appropriate polypharmacy in older people in primary care using a theory-based method. BMC Health Serv Res 2016; 16: 661. [DOI] [PMC free article] [PubMed] [Google Scholar]

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