Intellectual disability is a neurodevelopmental condition characterised by global deficits in adaptive and cognitive functioning that begins in the developmental period.1 In the UK, 22% of people with intellectual disability (PwID) are estimated to have co-occurring epilepsy, compared with 1% in the general population.Reference McGrother, Bhaumik, Thorp, Hauck, Branford and Watson2 Prevalence of epilepsy increases with severity of intellectual disability.Reference McGrother, Bhaumik, Thorp, Hauck, Branford and Watson2 It is suggested that PwID have higher rates of epilepsy because of common or related causative mechanisms, which may include structural differences in brain development and genetic predisposition.Reference Fiest, Sauro, Wiebe, Patten, Kwon and Dykeman3
PwID and epilepsy are underrepresented in the research literature.Reference Shankar, Rowe, Van Hoorn, Henley, Laugharne and Cox4 There is continued health inequity in PwID, with epilepsy recognised as the most common long-term health condition associated with premature mortality in PwID.Reference Devinsky, Spruill, Thurman and Friedman5,Reference White6 An estimate from national mortality review programmes reveals that around 60% of PwID die before 65 years of age and that approximately one-third of those that die have epilepsy.Reference White6 The average number of long-term health conditions of the deaths reviewed was 2.48.Reference White6
PwID and epilepsy have increased rates of multimorbidity (two or more chronic conditions) and polypharmacy (five or more regular medicines), compared with the general population.Reference White6–Reference Kinnear, Morrison, Allan, Henderson, Smiley and Cooper8 Multimorbidity is closely associated with polypharmacy, which increases the risk of adverse drug reactions.Reference O'Dwyer, Peklar, Mulryan, McCallion, McCarron and Henman9 A retrospective cohort study (n = 904) reviewing PwID and co-occurring epilepsy found that over half have a physical health comorbidity and a third have a psychiatric comorbidity.Reference Sun, Perera, Henley, Angus-Leppan, Sawhney and Watkins10 There is a three times higher likelihood of Sudden Unexpected Death in Epilepsy (SUDEP) in PwID than the general population.Reference Watkins, Linehan, Brandt, Snoeijen-Schouwenaars, McGowan and Shankar11,Reference Young, Shankar, Palmer, Craig, Hargreaves and McLean12
Complex social support needs of PwID with epilepsy
Social care plays a significant role in epilepsy management.Reference Gabrielsson, Tromans, Newman, Triantafyllopoulou, Hassiotis and Bassett13,Reference Newman, Rudra, Burrows, Tromans, Watkins and Triantafyllopoulou14 In this context, the term ‘social care’ broadly refers to non-medical, practical and personal support.Reference Gabrielsson, Tromans, Newman, Triantafyllopoulou, Hassiotis and Bassett13,Reference Newman, Rudra, Burrows, Tromans, Watkins and Triantafyllopoulou14 PwID require significant social care, given the range of complex health and daily care needs.Reference Gabrielsson, Tromans, Newman, Triantafyllopoulou, Hassiotis and Bassett13 There is most likely a variation in the level of support that PwID with epilepsy receive in the community, dependent upon the complexity of their needs.Reference Gabrielsson, Tromans, Newman, Triantafyllopoulou, Hassiotis and Bassett13,Reference Newman, Rudra, Burrows, Tromans, Watkins and Triantafyllopoulou14 It is recognised that care settings of PwID and epilepsy could influence outcomes, including issues such as the risk of SUDEP.Reference Gabrielsson, Tromans, Newman, Triantafyllopoulou, Hassiotis and Bassett13–Reference Young, Shankar, Henley, Rose, Cheatle and Sander15 It is also recognised that older PwID and epilepsy (for PwID defined as >40 years of ageReference Watkins, Henley, Sun, Perera, Angus-Leppan and Sawhney16) are more likely to be in professional care, having higher levels of multimorbidity and polypharmacy but are likely to receive fewer clinical reviews for their epilepsy.Reference Watkins, Henley, Sun, Perera, Angus-Leppan and Sawhney16,Reference Sun, Watkins, Henley, Laugharne, Angus-Leppan and Sawhney17 However, there is a limited evidence base regarding understanding the influence of social care provision on epilepsy outcomes and risk in PwID.Reference Newman, Rudra, Burrows, Tromans, Watkins and Triantafyllopoulou14
This investigation explored the clinical characteristics of PwID with epilepsy across different care settings. It compares subgroups of those PwID who live independently or with family, with those who live with support of professional care staff.
Method
An England and Wales multicentre retrospective cohort study was performed. The Strengthening the Reporting of Observational studies in Epidemiology (STROBE) checklist was utilised to design and report this study (Supplementary information 1, available at https://doi.org/10.1192/bjo.2024.45).
Data were collected from participating National Health Service (NHS) centres by case-note review of electronic health records. Participating sites were recruited through individual invitation in October 2022. The inclusion criteria were adults (aged 18 years and over) with a diagnosis of both intellectual disability and epilepsy, known to community learning disability and/or epilepsy health teams at the time of data collection. Data were entered onto a predesigned spreadsheet (Appendix 1). Information was collected on demographic status including gender and age, and the severity of intellectual disability divided into mild and moderate/profound; physical and psychiatric comorbidities; medication variables including number of medications, types of medication and as required (‘pro re nata' [p.r.n.]) medications; epilepsy data including seizure profile and presence of seizure in the 6 months prior to data collection. The living situation was defined as ‘professional’ (that is those living in state-sponsored care facilities), ‘living with family’ or ‘other’. Those living independently were categorised as other. No patient identifiable data were collected. Individual data-sets from each participating service were combined into a single data-set prior to analysis.
Statistical analysis
The initial analysis was descriptive, summarising data for all study participants. An additional analysis further compared the ‘nature of care’ groups. Of particular interest was the people's residential status, ‘nature of care’ (i.e. whether living with family, with professional carer support or other setting), and the association between this factor and variables including polypharmacy. A subgroup analysis was completed for patients aged over 40 years, as age is considered a significant risk factor variable (older adult cohort).Reference Watkins, Henley, Sun, Perera, Angus-Leppan and Sawhney16,Reference Sun, Watkins, Henley, Laugharne, Angus-Leppan and Sawhney17 Comparisons were also made between those aged over and under 40.
All analyses were performed using regression methods. For all outcomes, an unadjusted analysis was performed, following by an analysis adjusted for age, gender and severity of intellectual disability. Binary outcomes were analysed using logistic regression, whereas ordinal logistic regression was used for ordinal outcomes. Multinomial logistic regression was used for categorical with unordered categories. One continuous outcome, number of medications, was analysed using linear regression. This was given a log transformation before analysis, due to its positively skewed distribution.
Ethics statement
We confirm that we have read the journal's position on issues involved in ethical publication and affirm that this report is consistent with those guidelines.
Ethics and governance
Each NHS centre registered the data collection as an audit/service evaluation and undertook Data Protection Impact Assessments (DIPA) in line with local policies. Approval was gained by each site from local information governance teams. Only de-identified data were submitted to the central data-set. This process was overseen by an information governance lead to ensure that data extraction and transfer was in compliance with the General Data Protection Regulation (GDPR). This study did not require formal ethical approval as per the NHS Health Research Authority tool (see http://www.hra-decisiontools.org.uk/research/index.html in Supplementary information 2). We confirm that we have read the journal's position on issues involved in ethical publication and affirm that this report is consistent with those guidelines.
Data sharing
Anonymised participant data and the data dictionary are available along with the study protocol and can be requested from the corresponding author.
Results
Summary of study data for all participants (Supplementary information 3: Supplementary Tables 1–3)
Data were collected from 618 patients across six specialist centres in England and Wales. The mean age of the patient group was 39.9 years old (±14.5), and over half (61%) were male. The most common care setting was professional for 338 PwID (55%), whereas 258 PwID (42%) lived with their family. All analyses were compared between these two settings only. There were a small number of patients who received care in other settings (2.5%, n = 16) and a small number who did not report their care setting (n = 4). These were excluded from the analysis.
Three-quarters of patients (n = 460; 75%) had moderate/profound levels of intellectual disability severity. A fifth (n = 128, 21%) had one or more genetic conditions. Over a third (n = 234; 38%) of PwID were also autistic, and 4% (n = 22) had comorbid ADHD. A quarter of PwID had an affective disorder (n = 159; 26%), with a similar proportion having challenging behaviour (n = 160; 28%).
Having generalised seizures only was the most common type of seizure, which accounted for 59% of PwID (n = 361). Around two-thirds (65%; n = 400) of PwID had had a seizure in the previous 6 months.
A third (n = 212; 34%) of PwID had no diagnosed physical conditions, with 5% having five or more physical conditions (n = 29). Non-genetic epilepsy syndrome was present in 3% of PwID (n = 16).
Polypharmacy, defined as five or more medications, was present in over a third (n = 234; 38%) of patients. Patients had a median of five regular medications. A small number (n = 26; 4%) were prescribed more than ten medications.
Over 40% of patients had three or more anti-seizure medications (ASM) (n = 254; 41%), and 9% were on vagal nerve stimulation (VNS) therapy (n = 53). Over a quarter (n = 173; 28%) of PwID were on antipsychotics, whereas over two-thirds were on p.r.n. medications (n = 409; 68%). In the cohort as a whole, 17% of PwID experienced physical side effects to medications (n = 105), whereas 3% experienced psychiatric side effects (n = 21).
Comparison between nature of care settings
Health conditions and seizure variables (Table 1)
Health conditions and seizure variables according to care setting are summarised in Table 1. There were a small number of PwID who received care in other settings (n = 16) and a small number whose care setting was not known/not reported (n = 4). These were excluded from the analysis. Of those in the analysis, 338 were in a professional setting and 260 were living with family.
Significant results are indicated in bold, i.e. values of p < 0.05. ADHD, attention-deficit hyperactivity disorder.
a. Adjusted for age, gender and severity of intellectual disability.
b. Odds ratios expressed as the odds of the outcome for the group living with family relative to the odds for the group living in professional care.
There are statistically significant differences between the nature of the two care groups in the presence of autism (P = 0.02), psychotic illness (P = 0.03), affective disorders (P = 0.02) and reported frequency of seizures in the previous 6 months (P = 0.04). However, the two groups did not vary in intellectual disability severity, presence of genetic conditions, ADHD, other psychiatric disorders, seizure type, number of physical conditions or the presence of non-genetic epilepsy syndrome.
Autism was significantly more common in those in professional settings. A total of 42% of PwID in this setting were autistic (n = 142), compared with 32% of PwID living with their family (n = 84). Psychotic illness was also more common in the professional setting group (10%; n = 35), compared with 5% of PwID living with family (n = 14). Affective disorders (P = 0.02) and challenging behaviour (P < 0.001) were both significantly more common in the group living in a professional setting. Over a third (37%; n = 116) of PwID in a professional setting had challenging behaviour, compared with only 17% (n = 40) of those living with family.
Seizures in the previous 6 months were slightly less common in PwID in professional settings where 63% (n = 210) in this setting had seizures in this time period, which contrasted with 71% (n = 182) of those living with family.
When the comparison of health conditions was adjusted for age, gender and severity of intellectual disability, further significant differences were identified. People with moderate/profound intellectual disability were significantly more likely to be living in a professional care setting (odds ratio, 95% CI: 0.58 [0.38, 0.88], P = 0.01). The group living with family were significantly more likely to have comorbid physical health conditions (1.55 [1.12, 2.13], P = 0.008). Initial significant findings of a difference in risk of psychotic illness, affective disorders and seizure frequency were no longer significant following adjustment.
Medication and medication side effects
The two groups were also compared in terms of medication variables (Table 2). Statistically significant differences for the total number of medications given (P < 0.001) was found between the nature of the two care groups. This was the case when the number was considered as a continuous variable, in four categories or by defining polypharmacy. The professional setting group had more medications in total. The median number was five medications for the group living in professional settings and four for the group living with family. Almost half (48%; n = 161) had polypharmacy in the professional setting group, compared with 26% (n = 67) in the group living with family.
Significant results are indicated in bold, i.e. values of p < 0.05.
Summary statistics: number (percentage) or median [inter-quartile range]. ASM, anti-seizure medication; VNS, vagal nerve stimulation; p.r.n., as needed ('pro re nata').
a. Adjusted for age, gender and severity of intellectual disability.
b. Odds ratios expressed as the odds of the outcome for group living with family relative to the odds for the group living in professional care.
c. Group difference expressed as the ratio of the number of medications for those living with family relative to the number for those in professional care.
Antipsychotics, other psychotropic medication and p.r.n. medication were also significantly more common in the professional setting group (P < 0.001). Over a third (36%; n = 122) of the professional setting group received antipsychotics, compared with only 18% (n = 46) of the group living with family. There were no differences for ASM and VNS use between the two groups.
Physical side effects of medication were significantly more common in the professional setting group (P = 0.03), occurring in 20% (n = 66) of PwID, compared with 13% (n = 33) of those living with family. The groups did not significantly vary in terms of psychiatric side effects.
When the comparison of medication and medication side effects was adjusted for age, gender and severity of intellectual disability, there was no longer a significant difference in the presence of physical side effects. There was no significant difference to the unadjusted data for any other parameter measured.
Comparison between age categories (age ≤ 40 and age > 40)
Health and seizure variables (Table 3)
The age groups were compared in terms of health and seizure variables (Table 3). There were 358 PwID who were aged 40 or younger, whereas 260 PwID were aged over 40.
Significant results are indicated in bold, i.e. values of p < 0.05. ASD, autism spectrum disorder; ADHD, attention-deficit hyperactivity disorder.
a. Adjusted for gender and severity of intellectual disability.
b. Odds ratios expressed as the odds of the outcome for the group aged >40 relative to the odds for the group aged ≤40.
Autism (P < 0.001) and ADHD (P < 0.001) were significantly more common in the younger age group. Almost half (n = 168, 47%) of those aged 40 and younger were autistic, compared with a quarter (n = 66, 25%) of PwID aged over 40. Conversely, psychotic illness, affective disorders and other psychiatric disorders were less common in the younger age group, compared with older patients. One in five of the younger age group had an affective disorder, which contrasted with one-third of the older age group.
The two groups were not significantly different for level of intellectual disability severity, the presence of genetic conditions and non-genetic epilepsy syndrome. There was some evidence of a difference for challenging behaviour, but this difference did not reach statistical significance.
The seizure variables suggested no evidence of a statistically significant group difference for seizure type (P = 0.09). However, seizures in the previous 6 months were found to be significantly different between groups (P = 0.004). Recent seizures were more common in the younger group, with 247 (70%) having seizures in the previous 6 months, compared with 153 (59%) of the older age group.
The older age group had a significantly higher number of physical conditions than the younger group (P < 0.001). Almost half (n = 115, 45%) of the over 40s had multimorbidity as defined as two or more conditions, compared with just over a quarter (n = 101, 28%) of the younger group.
When the health conditions and seizure variables were adjusted for gender and severity of intellectual disability, the risk of challenging behaviour was significantly more likely in the older adult group (1.56 (1.06, 2.28) P = 0.02).
Medication and medication side effects (Table 4)
The two age groups were also compared in terms of the medication variables. Analysis results are summarised in Table 4. The analyses suggested statistically significant differences between age groups for the total number of medications (P < 0.001), use of VNS (P = 0.007) and antipsychotic (P = 0.002) medication. There was no evidence of a statistically significant difference between age groups for psychotropic medication. The two groups did not differ significantly in terms of ASM and p.r.n. medication.
Significant results are indicated in bold, i.e. values of p < 0.05.
Summary statistics: number (percentage) or median [inter-quartile range]. ASM, anti-seizure medication; VNS, vagal nerve stimulation; p.r.n., as needed ('pro re nata').
a. Adjusted for gender and severity of intellectual disability.
b. Odds ratios expressed as the odds of the outcome for the group aged >40 relative to the odds for the group aged ≤40.
c. Group difference expressed as the ratio of the number of medications for the group living with family relative to the number for those in professional care.
Pwintellectual disability aged 40 or under had a median of four medications, which contrasted with a median of six for those aged over 40. Over half (n = 141, 54%) of older patients had polypharmacy, compared with only a quarter (n = 93, 26%) of the younger age group. Antipsychotic medication was also more common in the older age group, with 92 (35%) on this type of medication, compared with 81 (23%) of the younger age group. Conversely, VNS use was more common in the younger age group (n = 40, 11%), compared with only (n = 13, 5%) of the older age group. Neither the presence of physical or psychiatric side effects demonstrated statistically significant differences between the two age groups.
There were no significant differences in comparison with the unadjusted results when data were adjusted for gender and severity of intellectual disability.
Over-40s comparison based on nature of care setting
Of 260 people aged over 40, the nature of care for three PwID was not known/not reported, and a further six individuals had an ‘other’ care setting. These nine people were omitted from the analysis, leaving 251 for analysis. Within this group, 190 (76%) had a professional care setting, whereas 61 (24%) lived with family. Health condition and seizure variables for the nature of care groups are reported in Table 5.
Significant results are indicated in bold, i.e. values of p < 0.05. ASD, autism spectrum disorder; ADHD, attention-deficit hyperactivity disorder.
a. Adjusted for age, gender and severity of intellectual disability.
b. Odds ratios expressed as the odds of the outcome for the group living with family relative to the odds for the group living in professional care.
c. Unable to calculate the odds ratios due to no occurrences in one group. Analysis using Fisher's exact test.
Statistically significant differences between the nature of the two care groups are found for the presence of autism (P = 0.002) and challenging behaviour (P = 0.002). However, the two groups did not demonstrate statistically significant differences for the other variables examined.
Autism and challenging behaviour were more common in PwID living in professional settings with 29% (n = 56) of PwID reported autistic, compared with 10% (n = 6) of those living with family. Challenging behaviour occurred in over a third (n = 66, 38%) of patients in a professional setting, compared with 16% (n = 9) of those living with family.
Medication variables are summarised in Table 6. Statistically significant differences were found between the nature of the two care groups for the total number of medications given (P = 0.02). This was the case when the number was considered as a continuous variable, in four categories or by defining polypharmacy. The professional group had more medications in total. The median number was six medications for the group living in professional settings, but there was a median of five for the group living with family. Over half (58%; n = 111) in the professional setting group had polypharmacy , compared with 41% (n = 25) in the group living with family. Antipsychotics were significantly more common in the professional setting group (P = 0.03) with 40% (n = 76) of them receiving antipsychotics, compared with 21% (n = 13) of the group living with family.
Significant results are indicated in bold, i.e. values of p < 0.05.
Summary statistics: number (percentage) or median [inter-quartile range]. ASM, anti-seizure medication; VNS, vagal nerve stimulation; p.r.n., as needed ('pro re nata').
a. Adjusted for age, gender and severity of intellectual disability.
b. Odds ratios expressed as the odds of the outcome for the group living with family relative to the odds for the group living in professional care.
c. Group difference expressed as the ratio of the number of medications for those living with family relative to the number for those in professional care.
There were no statistically significant differences between the two groups for ASM, VNS, other psychotropic and p.r.n. medications. The occurrence of neither physical nor psychiatric side effects of medication varied significantly between people living in professional settings, and those living with family.
When adjusted for age, gender and severity of intellectual disability, there was no longer a significant difference in total number of medications prescribed between settings in the over 40 group. The adjustment did identify a significantly higher risk of physical health conditions in the group living with family (1.84 (1.06, 3.21) P = 0.03).
Discussion
As the UK strives to provide greater opportunity and choice of care setting for PwID, this study provides clinically useful information to help understand the differences in clinical characteristics present across different care settings.
Three-quarters of the PwID are diagnosed with moderate/profound intellectual disability, illustrating the positive correlation between level of intellectual disability and seizures.Reference McGrother, Bhaumik, Thorp, Hauck, Branford and Watson2 In this study, 38% were diagnosed with ASD and 4% diagnosed with ADHD. The levels of comorbid neurodevelopmental disorders in this sample are similar to those in previous research in the PwID and epilepsy populations.Reference Sun, Perera, Henley, Angus-Leppan, Sawhney and Watkins10
In this study, 55% were found to live in professional care settings and 42% with family. National data for England record that 78.3% of adults with intellectual disability live in community, either with family or in their own homes, and 21.7% live in residential, nursing or hospital settings.18 The higher proportion living in residential care in this study is likely contributed to by the complexities of needs for this patient group with the dual diagnosis of intellectual disability and epilepsy.
Polypharmacy is present in over half of this sample. Antipsychotics were prescribed to 28%, although only 8% had a diagnosed psychotic disorder. This is similar to findings of previous studies,Reference Sun, Perera, Henley, Angus-Leppan, Sawhney and Watkins10 and further demonstrates that in PwID and epilepsy populations, there are high levels of antipsychotic prescribing for non-psychotic matters. This is of particular interest in this group as antipsychotic medications have the potential to lower the seizure threshold, and therefore it is imperative to ensure that prescription of antipsychotics is clinically justified and closely monitored. A significant proportion of antipsychotics prescribed for other reasons may be targeted at behaviours perceived as challenging, present in 28% of the total cohort. Behaviours that challenge can be difficult to clinically differentiate from seizure presentations, and this difficulty could contribute to high levels of both antipsychotic and ASM medications.Reference Kinney, Chester, Tromans, Alexander, Angus-Leppan and Bagary19
Interestingly, behaviour perceived as challenging was more than twice as likely to be present in those living in professional care (37%), compared with those in a family environment (17%). This may be linked to the finding that professional care is associated with significantly increased rates of neurodevelopmental and psychiatric comorbidities (autism, affective disorders and psychosis).
Professional care settings were associated with an increased number of overall medications, presence of polypharmacy, antipsychotic prescribing, other psychotropic medication and p.r.n. medications. The group in professional care settings had a median of five medications, where for those living with family the median number of medications was four. There was no difference in the number of physical health comorbidities between the two groups. Twice as many in professional care settings receive antipsychotics compared with those living with family (36% versus 18%). It is possible that this may reflect an increased likelihood of complexity in physical and mental health comorbidity in those living in professional care. It is also possible that this reflects differences in ways of supporting those with challenging behaviours in professional versus family environments. It should be noted that physical side effects of medications were more common in those living in professional care settings. It could also be linked to a lack of health-specific knowledge and training, poor resources to engage PwID socially and less appreciation of the complexity of holistic care.Reference Gabrielsson, Tromans, Newman, Triantafyllopoulou, Hassiotis and Bassett13
Subgroup analysis: PwID with epilepsy aged 40 years and over
PwID aged 40 years and over were more likely to live in professional care than the overall cohort (76% versus 55%). This may reflect increased care needs as people age, and/or the lack of ability of family members (often parents) to continue to meet the people's care needs.
The older adult cohort were prescribed a greater number of medications and had increased rates of polypharmacy and antipsychotic prescribing. PwID aged under 40 years had a median of four medications, with a median of six for those aged 40 and over. Furthermore, those in the older adult group living in professional care settings were on a median of six medications compared with five for those living with family. In the older adult cohort, those people living in professional care settings were more likely to be prescribed antipsychotics. This suggests an increased risk of polypharmacy in professional settings for those aged over 40.
There is evidence to suggest a strong association between PwID and epilepsy in those aged over 40, and a risk of polypharmacy.Reference Watkins, Henley, Sun, Perera, Angus-Leppan and Sawhney16 This study highlights that there is also an association with increased risk for those of any age living in a professional care setting, compared with those living with family. The use of antipsychotics is also higher for older adults in professional care settings. These findings have been replicated in previous studies. A population study in Sweden identified increased antipsychotic prescribing for PwID who live in supported housing (professional care) compared with those in community,Reference Axmon, Ahlström, Gagnemo Persson and Eberhard20 and place of care has previously been associated with increased polypharmacy in older PwID, independent of other factors including severity of intellectual disability.Reference O'Dwyer, Peklar, McCallion, McCarron and Henman21 Our study is the first to associate the subgroup of PwID and epilepsy in care to be of higher risk of polypharmacy in an already vulnerable population. There is pressing need not only to identify this problem but to reconcile it.Reference O'Dwyer, Watkins, McCallion, McCarron, Henman and Shankar22,Reference Watkins, O'Dwyer and Shankar23
The significant finding of recent seizures being more common in the younger group (70%) than older PwID (59%) in the previous 6 months is an interesting one. A recent review found that the likelihood of prevalence of seizure freedom in PwID for at least 1 year increased with age.Reference Branford, Sun, Burrows and Shankar24 Conversely, there is evidence to suggest that multiple ASM prescribing goes up for PwID with each decade of life.Reference Branford, Sun, Burrows and Shankar24 In addition, multiple ASM prescribing is linked also with a higher chance of other psychotropics prescribing including antipsychotics.Reference Branford, Sun, Burrows and Shankar24
Seen together, these patterns suggest the possibility of the use of ASMs for management for behavioural concerns particularly in older PwID.Reference Branford, Sun and Shankar25
Other neurodevelopmental disorders (ASD and ADHD) were more frequently diagnosed in the younger age group. ASD was diagnosed twice as often in the younger cohort than in those aged 40 and over. This is reflected in previous literature demonstrating a diagnostic gap in adults aged over 50 years compared with younger people.Reference O'Nions, Petersen, Buckman, Charlton, Cooper and Corbett26 Neurodevelopmental disorders were not routinely diagnosed until the end of the 20th century,Reference Constantino and Charman27 with many of those older adults with epilepsy and intellectual disability therefore being part of a ‘underdiagnosed, lost generation’ of neurodevelopmental disorders.
Mediation analysis discussion
The data suggest some evidence (although not strong) of an association between intellectual disability severity and nature of care (P = 0.10), a difference which is stronger when age/gender is considered (Table 1). Thus, this result potentially suggests some mediation effect of intellectual disability severity on the relationship between nature of care and the outcomes. There is only a relatively weak relationship between intellectual disability severity and age, which is the second ‘predictor’ variable (Table 3). This suggests there is little mediating effect of intellectual disability severity on the relationships between age group and outcomes.
Limitations
This study used routinely collected data from health records and therefore has numerous limitations. It is able only to identify correlation and patterns. The study is retrospective and involved review of clinical records not specifically designed for the purpose of data collection. There are also likely differences in clinical settings and professional practices between services contributing to the study. The cohort studied is complex and derived from specialist services. Therefore, any results must be interpreted in the context of a restricted population.
Implications for clinical practice
This study is the first to highlight differing clinical profiles of PwID and epilepsy dependent on the nature of care setting (family compared with professional) in a UK population. The study suggests that those aged 40 years and over living in professional care settings may have the most complex clinical characteristics. It identifies that both age (older adults >40) and care setting correlate significantly with increased number of medications and use of antipsychotics. These clinical factors have been associated with mortality risk. Additionally, considering their increased mortality risk, the NHS ‘Stopping Over-Medication of People’ with a learning disability, autism or both (STOMP) programme, focused on ‘helping people to stay well and have a good quality of life’,28 should consider particularly focusing on these patient groups. Prescribing generally in older PwID is a challenging issue, particularly if they have epilepsy.Reference O'Dwyer, Watkins, McCallion, McCarron, Henman and Shankar29,Reference Watkins, O'Dwyer and Shankar30 Neurologists and psychiatrists need to be aware of these concerns while managing care in this vulnerable population to prevent iatrogenic harm and to ensure that offered management is in the best interest of the individual. Reducing harm in this complex population would be a step towards closing the gap in health inequalities and premature mortality experienced by PwID and epilepsy.
Implications for research
A larger-scale study exploring the development of clinical risk assessment decision tools may lead to better risk identification and mitigation. There is a need to reconsider how we approach understanding complex clinical populations and their care needs through research. The results from this study highlight some differences in clinical characteristics of the population that may be related to level of risk. However, there is a need for further understanding of the level of care provision provided, particularly by families, and how risk is managed. The data particularly highlight the increased physical health needs of those PwID living with families. An in-depth review would consider access to care, specialist support and any barriers faced. Furthermore, this review is based upon a cohort of people known to services and accessing care. This will not be representative of all PwID. Those people not known to services may be the hardest to reach and engage in research, and the most vulnerable. This includes PwID who are without a fixed home. This study does not focus on ethnicity; however, we know that people from ethnic minority communities may find it hardest to access services, and specific approaches are required to support participation in research.Reference Hatton, Caton and Hastings31
Implications for training and policy
It might be that bespoke training focused on professional care providers needs considering, enumerating the specific concerns identified. Training care professionals on understanding health complexity and on identifying possible ‘domino effects’ of negative influences of multimorbidity and polypharmacy might assist in better outcomes. It could be a part of ongoing basic epilepsy training.Reference Tittensor, Tittensor, Chisanga, Bagary, Jory and Shankar32 This might require specific informed policy from good practice guidance and stakeholder organisations as has been achieved for SUDEP communication.Reference Watkins and Shankar33,Reference Watkins, Shankar and Sander34 The objective needs to be to develop ‘capable communities’ to support this vulnerable and complex group across different setting and across the age span.Reference Shankar35
Supplementary material
Supplementary material is available online at https://doi.org/10.1192/bjo.2024.45
Data availability
The data that support the findings of this study are available from the corresponding author upon reasonable request.
Author contributions
All authors satisfy the International Committee of Medical Journal Editors (ICMJE) guidance by substantially contributing to the design, analysis and interpretation of the work, drafting of the manuscript and final approval of the manuscript, and all agree to be accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved.
Funding
This research did not receive any specific grant from funding agencies in the public, commercial or not-for-profit sectors.
Declarations of interest
R.S. has received institutional and research support from LivaNova, UCB, Eisai, Veriton Pharma, Neuraxpharm, Bial, Angelini, UnEEG and Jazz/GW pharma outside the submitted work. He holds grants from NIHR AI, SBRI and other funding bodies all outside this work. R.S. is a member of the BJPsych Open editorial board. He did not take part in the review or decision-making process of this paper. No other author has any declared a conflict of interest related to this paper.
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