Antipsychotics withdrawal in adults with intellectual disability and challenging behaviour: study protocol for a multicentre double-blind placebo-controlled randomised trial

Soon after the development of antipsychotics (AP) in the 1950s, they started to be prescribed to people with intellectual disability (ID) [1]. At present, AP use is still high in people with ID. Depending on the heterogeneity of the study population, 14–45% of people with ID use AP [2‐8]. Only 22.5% of people with ID have a registered indication such as psychotic disorder or psychotic symptoms [2]. Therefore in the majority of people with ID, AP are prescribed off-label, mostly for challenging behaviour and over long periods [2].

The prevalence of challenging behaviour in people with ID is between 12 and 60%, depending on the definition used and type of cohort [9‐11]. The most common presentations of challenging behaviour are aggression, destructive behaviour and self-injurious behaviour [9, 10, 12]. Other presentations are shouting, sexual problem behaviour and pica (an eating disorder with persistent ingestion of non-nutritive substances) [9, 11, 13]. The prevalence of challenging behaviour increases with the severity of the ID [10, 12], and is higher in people with autism or communication and/or social problems [10, 12]. Challenging behaviour can also be related to physical problems, such as pain, visual problems, sleep problems and urinary incontinence [12, 14]. Psychiatric disorders, like depression or anxiety disorder, are common in people with ID, but difficult to recognise [15‐17]. Particularly in people with moderate, severe or profound ID, psychiatric disorders might present with more diffuse manifestations of symptoms. This may result in diagnostic overshadowing, as symptoms of psychiatric disorders are falsely attributed to the ID itself [18]. The consequence is that people with ID and a psychiatric disorder will not receive the right treatment, which can result in off-label AP use.

Despite the long history, almost no research has been done on the (long-term) effectiveness of AP for challenging behaviour in people with ID. Brylewski et al. (2004) concluded in their Cochrane review that there is no evidence from randomised controlled trials that suggests that AP is either helpful or harmful for adults with ID and challenging behaviour [19]. Their review highlighted a lack of good-quality trials [19]. Tyrer et al. (2008) demonstrated that, after 4 weeks of risperidone, haloperidol or placebo use, aggression decreased in people with ID, with the placebo group showing the greatest improvement [20]. Possible causes for this reduction in aggression were a placebo effect, a psychological effect of an external intervention and/or a spontaneous improvement in their behaviour [20].

Jesner et al. (2007) concluded in their Cochrane review that risperidone can be beneficial for some features of autism in people with and without ID, but the available evidence is limited due to the small sample sizes of the three included studies, the lack of a standardised outcome measure allowing comparison of the studies and a lack of long-term follow-up.

One of the possible positive effects that AP might have is a reduction in sleep disturbances, which are common in people with ID [21]. The sedating effect of AP may improve sleep in people with ID and challenging behaviour [22]. Sleep disturbances are associated with problem behaviour in people with ID [23]. Therefore off-label AP for challenging behaviour may in fact be treating (unrecognised) sleep problems.

Despite the lack of evidence for the effectiveness of AP in reducing challenging behaviour, AP are often prescribed for a long period in people with ID. To illustrate, 78% of the participants in the study of De Kuijper et al. (2010) had used AP for more than 10 years [2].

Although evidence for any effect of the long-term use of AP on challenging behaviour in people with ID is missing, there is convincing evidence that side effects, such as diabetes, metabolic syndrome, extrapyramidal side effects, decreased threshold for seizures, emotional blunting and hyperprolactinemia, are common and clinically relevant [24‐27]. The occurrence of side effects is particularly important because this is a vulnerable population with many comorbidities. These side effects are at least partly reversible after withdrawal of AP [25, 28].

Extrapyramidal side effects may frequently be missed in people with ID. Comorbidities such as spasticity, hypertonia, tics or repetitive behaviour make it difficult to distinguish between these comorbidities and extrapyramidal side effects due to AP use. Certain movement disorders, such as akathisia and dyskinesia, can also incorrectly be regarded as challenging behaviour. This can lead to an inadequate treatment with a further increase of the AP dose, while withdrawal is indicated.

Despite concerns about side effects and questionable efficacy, the successful withdrawal of AP is not self-evident. In a systematic review, it was found that complete withdrawal from off-label AP was achieved in 4–74% of the people with ID and challenging behaviour, and the proportion of unsuccessful attempts to reduce or discontinue AP was between 0 and 96% [29]. The effects of withdrawal on challenging behaviour are not clear. De Kuijper et al. found that mean ABC (Aberrant Behaviour Checklist) ratings improved significantly for those who achieved complete withdrawal, but baseline ABC scores were significantly lower in people who achieved complete withdrawal versus those who had not achieved complete withdrawal [30]. The wide range in the degree of success of withdrawal could be explained by differences in study designs, heterogeneity of study populations, and methodological shortcomings such as lack of a good description of the intervention, small sample size, selection bias, a lack of blinding of the intervention, no control group or no matched control group and incomplete reporting [29].

We hypothesised three possible reasons for AP withdrawal failure [31]. These hypotheses are as follows:

The study is being conducted within the Academic Collaborative Center ‘Healthy Ageing and Intellectual Disabilities’ (HA-ID). This is a collaboration between three care organisations for people with ID in the Netherlands (Abrona, Amarant and Ipse de Bruggen) and the Intellectual Disability Medicine research group of Erasmus MC, University Medical Center Rotterdam. In order to include enough participants, we are also recruiting participants within other care organisations (Prinsenstichting and Zideris). The care organisations are located in the west, east and south of the Netherlands. They give support to people with borderline to profound ID.

To investigate our hypotheses, we designed a multicentre double-blind, placebo-controlled randomised AP withdrawal trial with a non-inferiority design. See Fig. 1 for the flow chart of the study procedures.

In this study we focus on the withdrawal of risperidone or pipamperone. These AP are the most commonly used AP (over long periods) in people with ID and challenging behaviour in the Netherlands [30]. They are also available in liquid form, enabling gradual dosage adaptation in a placebo-controlled design. For all participants, risperidone or pipamperone tablets will be replaced with medication in a liquid form at the same dose with the same daily administration. If a participant takes the AP more than twice a day, their own physician will be asked to convert it into administration twice a day, in accordance with the prescription policy, before the start of the study. The withdrawal group will have their AP dose reduced by 25% every 4 weeks. In the control group the AP dose will remain unchanged. This is a cautious withdrawal scheme, which has been used in previous studies [30, 33]. We have also opted for this relatively long period between dose reductions to extinguish acute withdrawal symptoms [34]. Dose reduction will start 2 weeks after the participant has switched to the liquid form. The blinding of risperidone/pipamperone or placebo will be broken after 22 weeks. Thereafter, participants will be followed for an open-label period of 18 weeks and they will receive their care as usual. In this follow-up period, the participant’s own team of physicians and behavioural scientists decide on the further treatment: e.g. maintaining the withdrawal, restarting AP, maintaining AP or starting AP withdrawal if no withdrawal was done. The total study duration is 40 weeks (or shorter in case of premature breaking of the randomisation; in other words the duration is equal to ‘week of breaking the randomisation’ + 18 weeks). See Fig. 2 for visualisation of the intervention design.

The primary outcome measure in this study is the percentage of participants completing the protocol in the withdrawal group compared to the percentage in the control group. This will be studied based on a non-inferiority design (the withdrawal group is non-inferior compared to the control group). The sample size is determined using the following formula: n ≥ ((p_c(1 – p_c) + p_e(1 – p_e)) / δ₀²) x (Z_α + Z_β)² [36, 37]. P_c is the percentage completing the protocol in the control group; p_e is the percentage completing the protocol in the withdrawal group. A previous study showed that 82% completed the protocol [38]. Because we assume non-inferiority, p_c = p_e = 0.82. We have assumed a drop-out rate in the control group of 20% (based on previous experiences with research in people with ID). We consider a difference of 20% in the drop-out rate between the two groups to be clinically relevant (δ = 0.2). For a power of 0.8 (Z_β = Z_0.2 = .84), one-tailed with α of 0.025 (Z_α = Z_0.025 = 1.96), we need a sample size of 56 participants in each group (n = 112 in total). In order to correct for drop-out from the study that is not related to the intervention, we aim to include 10% more (n = 122).

All the assessments will be carried out by trained behavioural scientists, ID physicians or trainee ID physicians. Each participant will be measured by the same researcher throughout the entire study period wherever possible. The clinical assessment (height, weight, blood pressure etc.) will be performed by a doctor’s assistant or nurse. Data from these assessments will be collected and stored using a web-based electronic data collection system (OpenClinica). Data from the questionnaires and surveys will be collected using Lime Survey and GemsTracker. These programs are password protected.

Data will be processed and stored for a period of 15 years. At the end of the study, signed informed consent forms and other participant documents will be stored at the participant’s care organisation. Recruitment of the participants started in March 2019 and is still ongoing as at July 2021. We expect to complete data collection by summer 2022.