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Ethnic inequities in multimorbidity among people with psychosis: a retrospective cohort study

Published online by Cambridge University Press:  18 July 2022

D. Fonseca de Freitas*
Affiliation:
Department of Psychological Medicine, Institute of Psychiatry, Psychology and Neuroscience, King's College London, London, UK Department of Psychiatry, University of Oxford, Oxford, UK
M. Pritchard
Affiliation:
Department of Psychological Medicine, Institute of Psychiatry, Psychology and Neuroscience, King's College London, London, UK Biomedical Research Centre Nucleus, South London and Maudsley NHS Foundation Trust, London, UK
H. Shetty
Affiliation:
Biomedical Research Centre Nucleus, South London and Maudsley NHS Foundation Trust, London, UK
M. Khondoker
Affiliation:
Norwich Medical School, University of East Anglia, Norwich, UK
J. Nazroo
Affiliation:
Sociology, School of Social Sciences, University of Manchester, Manchester, UK
R. D. Hayes
Affiliation:
Department of Psychological Medicine, Institute of Psychiatry, Psychology and Neuroscience, King's College London, London, UK
K. Bhui
Affiliation:
Department of Psychiatry, University of Oxford, Oxford, UK Nuffield Department of Primary Care Health Sciences, University of Oxford, Oxford, UK
*
Author for correspondence: D. Fonseca de Freitas, E-mail: [email protected]
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Abstract

Aims

Research shows persistent ethnic inequities in mental health experiences and outcomes, with a higher incidence of illnesses among minoritised ethnic groups. People with psychosis have an increased risk of multiple long-term conditions (MLTC; multimorbidity). However, there is limited research regarding ethnic inequities in multimorbidity in people with psychosis. This study investigates ethnic inequities in physical health multimorbidity in a cohort of people with psychosis.

Methods

In this retrospective cohort study, using the Clinical Records Interactive Search (CRIS) system, we identified service-users of the South London and Maudsley NHS Trust with a schizophrenia spectrum disorder, and then additional diagnoses of diabetes, hypertension, low blood pressure, overweight or obesity and rheumatoid arthritis. Logistic and multinomial logistic regressions were used to investigate ethnic inequities in odds of multimorbidity (psychosis plus one physical health condition), and multimorbidity severity (having one or two physical health conditions, or three or more conditions), compared with no additional health conditions (no multimorbidity), respectively. The regression models adjusted for age and duration of care and investigated the influence of gender and area-level deprivation.

Results

On a sample of 20 800 service-users with psychosis, aged 13–65, ethnic differences were observed in the odds for multimorbidity. Controlling for sociodemographic factors and duration of care, compared to White British people, higher odds of multimorbidity were found for people of Black African [adjusted Odds Ratio = 1.41, 95% Confidence Intervals (1.23–1.56)], Black Caribbean [aOR = 1.79, 95% CI (1.58–2.03)] and Black British [aOR = 1.64, 95% CI (1.49–1.81)] ethnicity. Reduced odds were observed among people of Chinese [aOR = 0.61, 95% CI (0.43–0.88)] and Other ethnic [aOR = 0.67, 95% CI (0.59–0.76)] backgrounds. Increased odds of severe multimorbidity (three or more physical health conditions) were also observed for people of any Black background.

Conclusions

Ethnic inequities are observed for multimorbidity among people with psychosis. Further research is needed to understand the aetiology and impact of these inequities. These findings support the provision of integrated health care interventions and public health preventive policies and actions.

Type
Original Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press

Introduction

Ethnic inequitiesFootnote 1 in health have been reported (Sproston and Mindell, Reference Sproston and Mindell2006; Nazroo et al., Reference Nazroo, Falaschetti, Pierce and Primatesta2009; El-Sayed et al., Reference El-Sayed, Scarborough and Galea2011; Watkinson et al., Reference Watkinson, Sutton and Turner2021). For example, previous studies suggest a higher prevalence of obesity, hypertension and cardiovascular disease among Black people in the UK (Sproston and Mindell, Reference Sproston and Mindell2006; Nazroo et al., Reference Nazroo, Falaschetti, Pierce and Primatesta2009; El-Sayed et al., Reference El-Sayed, Scarborough and Galea2011; Schofield et al., Reference Schofield, Saka and Ashworth2011) and higher risk of diabetes has been observed among people of Black Caribbean, Indian, Pakistani, Bangladeshi and Chinese background (Nazroo et al., Reference Nazroo, Falaschetti, Pierce and Primatesta2009). Evidence suggests Black and South Asian people have an earlier onset of the majority of illness (Kuan et al., Reference Kuan, Denaxas, Gonzalez-Izquierdo, Direk, Bhatti, Husain, Sutaria, Hingorani, Nitsch, Parisinos, Lumbers, Mathur, Sofat, Casas, Wong, Hemingway and Hingorani2019) and the prevalence of multiple long-term conditions (MLTC, or multimorbidity) is observed to be higher in almost all minoritised ethnic groups in the UK (Mathur et al., Reference Mathur, Hull, Badrick and Robson2011; Bisquera et al., Reference Bisquera, Turner, Ledwaba-Chapman, Dunbar-Rees, Hafezparast, Gulliford, Durbaba, Soley-Bori, Fox-Rushby, Dodhia, Ashworth and Wang2021; Watkinson et al., Reference Watkinson, Sutton and Turner2021). Also, health-related quality of life and self-rated health, a predictor of mortality, is poorer in several minoritised ethnic groups (Evandrou et al., Reference Evandrou, Falkingham, Feng and Vlachantoni2016; Watkinson et al., Reference Watkinson, Sutton and Turner2021).

Ethnic health inequities have been largely associated with differences in socioeconomic status (income, education, occupation) (Nazroo and Williams, Reference Nazroo, Williams, Marmot and Wilkinson2006; Dubath et al., Reference Dubath, Gholam-Rezaee, Sjaarda, Levier, Saigi-Morgui, Delacrétaz, Glatard, Panczak, Correll, Solida, Plessen, von Gunten, Kutalik, Conus and Eap2021). However, evidence suggests that ethnic inequities persist after controlling for socioeconomic factors, though such models may contain residual confounding (Nazroo, Reference Nazroo1998; Nazroo and Williams, Reference Nazroo, Williams, Marmot and Wilkinson2006; Evandrou et al., Reference Evandrou, Falkingham, Feng and Vlachantoni2016; Larsen et al., Reference Larsen, Pedersen, Friis, Glümer and Lasgaard2017; Ashworth et al., Reference Ashworth, Durbaba, Whitney, Crompton, Wright and Dodhia2019; Verest et al., Reference Verest, Galenkamp, Spek, Snijder, Stronks and van Valkengoed2019; Watkinson et al., Reference Watkinson, Sutton and Turner2021). Economic adversity is related to greater exposure to negative, stressful life events (Hatch and Dohrenwend, Reference Hatch and Dohrenwend2007), which in turn increase the odds of worse health and multimorbidity (Lin et al., Reference Lin, Wang, Lu, Chen and Guo2021). Minoritised ethnic groups are also more likely to face discrimination which has been associated with worse mental and physical health conditions, including psychosis, diabetes and cardiovascular diseases (Karlsen and Nazroo, Reference Karlsen and Nazroo2002; Harris et al., Reference Harris, Tobias, Jeffreys, Waldegrave, Karlsen and Nazroo2006; Paradies et al., Reference Paradies, Ben, Denson, Elias, Priest, Pieterse, Gupta, Kelaher and Gee2015; Freitas et al., Reference Freitas, Fernandes-Jesus, Ferreira, Coimbra, Teixeira, Moura, Gato, Marques and Fontaine2018; Pearce et al., Reference Pearce, Rafiq, Simpson and Varese2019; Oh et al., Reference Oh, Glass, Narita, Koyanagi, Sinha and Jacob2021a). Negative, stressful events contribute to the dysregulation of physiological functions, affecting the stress response, the immune system and leading to bodily inflammation, all of which are related to ill health (McEwen, Reference McEwen1998; Beckie, Reference Beckie2012; Goosby et al., Reference Goosby, Straley and Cheadle2017; O'Connor et al., Reference O’Connor, Thayer and Vedhara2021). The disruption of bodily functions in response to stress was termed as allostatic load by McEwen (Reference McEwen1998), and it represents the wear and tear of body. Adverse life events are also related to poorer health habits (e.g. poor sleep, substance use, lack of exercise) which can lead to the onset of health conditions (Halonen et al., Reference Halonen, Vahtera, Kivimäki, Pentti, Kawachi and Subramanian2014; Williams et al., Reference Williams, Lawrence, Davis and Vu2019). Social disadvantage, as a whole, has also been identified as a key factor in the onset of psychosis and has been suggested to be a major explanatory factor for the higher prevalence of psychosis amongst ethnic minority groups and migrants in industrialised countries (Morgan et al., Reference Morgan, Knowles and Hutchinson2019; Jongsma et al., Reference Jongsma, Gayer-Anderson, Tarricone, Velthorst, van der Ven, Quattrone, di Forti, Menezes, Del-Ben, Arango, Lasalvia, Berardi, La Cascia, Bobes, Bernardo, Sanjuán, Santos, Arrojo, de Haan, Tortelli, Szöke, Murray, Rutten, van Os, Morgan, Jones and Kirkbride2021a, Reference Jongsma, Karlsen, Kirkbride and Jones2021b; Bhui et al., Reference Bhui, Havorsrud, Mooney and Hosang2021).

People with psychosis and other severe mental illness (SMI; such as bipolar) have an elevated risk of multiple long-term conditions (or multimorbidity), with higher incidence of diabetes, hypertension, asthma, chronic obstructive pulmonary disease and chronic kidney disease (Woodhead et al., Reference Woodhead, Ashworth, Schofield and Henderson2014; Stubbs et al., Reference Stubbs, Koyanagi, Veronese, Vancampfort, Solmi, Gaughran, Carvalho, Lally, Mitchell, Mugisha and Correll2016; Rodrigues et al., Reference Rodrigues, Wiener, Stranges, Ryan and Anderson2021). However, there is limited evidence on ethnic inequities in multimorbidity among people with psychosis. A recent study reported that people from a minoritised ethnic background show an increased risk of diabetes in the first year of psychotic illness, while no major changes were observed in White people (Gaughran et al., Reference Gaughran, Stahl, Stringer, Hopkins, Atakan, Greenwood, Patel, Smith, Gardner-Sood, Lally, Heslin, Stubbs, Bonaccorso, Kolliakou, Howes, Taylor, Di Forti, David, Murray and Ismail2019). No ethnicity-related difference in overall weight (body mass index), or changes in it, were observed. However, increases in central obesity (mean waist circumference) were observed among minoritised ethnic women and White men, but no major changes were observed in minoritised ethnic men or White women (Gaughran et al., Reference Gaughran, Stahl, Stringer, Hopkins, Atakan, Greenwood, Patel, Smith, Gardner-Sood, Lally, Heslin, Stubbs, Bonaccorso, Kolliakou, Howes, Taylor, Di Forti, David, Murray and Ismail2019). One meta-analysis of the side-effects of antipsychotics in metabolic function reported an association between a higher proportion of non-White ethnicity and greater increases in total cholesterol; however, no significant associations between ethnicity and change in weight, body max index (BMI), LDL cholesterol, HDL cholesterol, triglycerides and glucose were observed (Pillinger et al., Reference Pillinger, Mccutcheon, Vano, Mizuno, Arumuham, Hindley, Beck, Natesan, Efthimiou, Cipriani and Howes2020).

It is important to understand if people in minoritised ethnic groups, who show a higher risk for psychosis compared to their White British counterparts, also show an excessive risk for multimorbidity when living with psychosis. This raises questions about risks for multi-disease onset, and it has implications for preventive care. As mentioned above, studies show that exposure to chronic stress leads to increased allostatic load, which contributes to the onset of physical and mental health conditions (Beckie, Reference Beckie2012; O'Connor et al., Reference O’Connor, Thayer and Vedhara2021). Syndemic theory also suggests that co-occurrence of health conditions is fostered by conditions of poverty and social disadvantage and will lead to worse health outcomes (Singer et al., Reference Singer, Bulled, Ostrach and Mendenhall2017). Thus, people living with mental and physical multimorbidity in conditions of social marginalisation may have a greater likelihood of intensive use of health care resources, worse quality of life and, potentially, reduced life expectancy (Das-Munshi et al., Reference Das-Munshi, Chang, Dutta, Morgan, Nazroo, Stewart and Prince2017, Reference Das-Munshi, Chang, Dregan, Hatch, Morgan, Thornicroft, Stewart and Hotopf2021; Kugathasan et al., Reference Kugathasan, Wu, Gaughran, Nielsen, Pritchard, Dobson, Stewart and Stubbs2020; Watkinson et al., Reference Watkinson, Sutton and Turner2021). To develop targeted preventive health interventions, it is important to identify if minoritised ethnic groups living with psychosis show worse physical health than their White British counterparts.

This study aims to investigate ethnic inequities in multimorbidity, and multimorbidity severity, among a cohort of people with psychosis. Acknowledging differences in multimorbidity related to gender (Larsen et al., Reference Larsen, Pedersen, Friis, Glümer and Lasgaard2017; Gaughran et al., Reference Gaughran, Stahl, Stringer, Hopkins, Atakan, Greenwood, Patel, Smith, Gardner-Sood, Lally, Heslin, Stubbs, Bonaccorso, Kolliakou, Howes, Taylor, Di Forti, David, Murray and Ismail2019; Head et al., Reference Head, Fleming, Kypridemos, Schofield, Pearson-Stuttard and O'Flaherty2021; Watkinson et al., Reference Watkinson, Sutton and Turner2021) and socioeconomic deprivation (Marmot et al., Reference Marmot, Allen, Boyce, Goldblatt and Morrison2020; Dubath et al., Reference Dubath, Gholam-Rezaee, Sjaarda, Levier, Saigi-Morgui, Delacrétaz, Glatard, Panczak, Correll, Solida, Plessen, von Gunten, Kutalik, Conus and Eap2021; Head et al., Reference Head, Fleming, Kypridemos, Schofield, Pearson-Stuttard and O'Flaherty2021), we investigate interaction effects. We hypothesise that people of a minoritised ethnic background present higher multimorbidity than White British people and that this is amplified for minoritised ethnic women and minoritised ethnic people living in more deprived areas.

Method

Setting

This retrospective cohort study used data from the electronic health records (EHRs) of the South London and Maudsley (SLaM) National Health Service (NHS) Foundation Trust. SLaM's catchment area comprises four ethnically diverse London boroughs (Southwark, Lewisham, Lambeth and Croydon) covering 1.3 million people. Access to clinical records was obtained via the Clinical Record Interactive Search (CRIS) system (Stewart et al., Reference Stewart, Soremekun, Perera, Broadbent, Callard, Denis, Hotopf, Thornicroft and Lovestone2009; Perera et al., Reference Perera, Broadbent, Callard, Chang, Downs, Dutta, Fernandes, Hayes, Henderson, Jackson, Jewell, Kadra, Little, Pritchard, Shetty, Tulloch and Stewart2016). CRIS was established under robust data protection and governance framework and received approval from the Oxford C Research Ethics Committee (18/SC/0372) to be used as a de-identified dataset for secondary data analysis (Stewart et al., Reference Stewart, Soremekun, Perera, Broadbent, Callard, Denis, Hotopf, Thornicroft and Lovestone2009; Perera et al., Reference Perera, Broadbent, Callard, Chang, Downs, Dutta, Fernandes, Hayes, Henderson, Jackson, Jewell, Kadra, Little, Pritchard, Shetty, Tulloch and Stewart2016). Projects using CRIS are submitted for approval to a service-user led oversight committee; this project's reference is 20-075.

At the time of writing, CRIS enabled access to the de-identified information, in the free-text and structured fields, of the clinical records of over 400 000 service-users. One way to efficiently access and code information on the free-text fields is by using Natural Language Processing (NLP) algorithms, which eliminate the need for researchers to read and code large volumes of text (Perera et al., Reference Perera, Broadbent, Callard, Chang, Downs, Dutta, Fernandes, Hayes, Henderson, Jackson, Jewell, Kadra, Little, Pritchard, Shetty, Tulloch and Stewart2016; Jackson et al., Reference Jackson, Patel, Jayatilleke, Kolliakou, Ball, Gorrell, Roberts, Dobson and Stewart2017; CRIS NLP Service, 2021). These algorithms analyse text and identify the condition of interest, distinguishing true events from false positives (e.g. notes about a condition without the service-user having that condition) (Perera et al., Reference Perera, Broadbent, Callard, Chang, Downs, Dutta, Fernandes, Hayes, Henderson, Jackson, Jewell, Kadra, Little, Pritchard, Shetty, Tulloch and Stewart2016; Jackson et al., Reference Jackson, Patel, Jayatilleke, Kolliakou, Ball, Gorrell, Roberts, Dobson and Stewart2017). More information on the NLP algorithms used with CRIS can be found on CRIS NLP Service webpage (CRIS NLP Service, 2021). The study is reported according the RECORD statement (Benchimol et al., Reference Benchimol, Smeeth, Guttmann, Harron, Moher, Petersen, Sørensen, von Elm and Langan2015).

Participants

SLaM service-users who meet the following inclusion criteria: (i) had a schizophrenia spectrum disorder [WHO ICD-10 codes F20–F29, on structured and free-text fields of the electronic records (CRIS NLP Service, 2021)], diagnosed between 1 January 2007 and 31 December 2020, (ii) were aged between 13 and 65 years at the time of that diagnosis, (iii) had at least one clinical event between 1 January 2007 and 31 December 2020 and (iv) had information regarding ethnic identity.

Variables

Multimorbidity and multimorbidity severity

Based on the current information available on CRIS we were able to identify the prevalence of six LTCs: asthma, bronchitis, diabetes, hypertension, low blood pressure, overweight or obesity and rheumatoid arthritis. Multimorbidity is commonly defined as the coexistence of two or more long-term health conditions [NICE (National Institute for Health and Care Excellence), 2016; Johnston et al., Reference Johnston, Crilly, Black, Prescott and Mercer2019]; so among the cohort of people with a schizophrenia spectrum disorder, multimorbidity was recognised when there was evidence of at least one physical health condition. To assess severity of multimorbidity, we further analysed the odds for the presence of one or two physical health conditions, and the presence of three or more physical health conditions.

The information regarding physical health conditions relied on the use of NLP algorithms (CRIS NLP Service, 2021) and this information was collected during the study's observation period, from 01/01/2007 to 31/12/2020. All algorithms used in this study showed good performance, with precision over 90% and recall over 76% (except for bronchitis, where recall was observed to be 48%) (CRIS NLP Service, 2021). The NLP algorithm identifying asthma analyses mentions of asthma in text. Similarly, bronchitis identification is based on statements of chronic obstructive pulmonary disease, chronic bronchitis, centrilobular emphysema or other terms related to bronchitis. Information on diabetes was derived from a combination of four sources of information: physical health forms, results from blood analysis where the haemoglobin A1c (HbA1c) test (which measures average blood sugar levels) indicated diabetes, and NPL algorithms to identify medications for diabetes or in-text evidence of diabetes. Hypertension was identified via the use of two NLP algorithms: one that focuses on mentions of hypertension problems in the text, and another that analyses information regarding blood pressure; high blood pressure was identified when the systolic pressure was above 140 mmHg, or the diastolic pressure was above 90 mmHg. Low blood pressure was determined when systolic pressure was below 90 mmHg, or the diastolic pressure was below 60 mmHg. To identify overweight or obesity, at any point during the observation period, we used an NLP algorithm that identified Body Mass Index (BMI) values; the information was coded as evidence of overweight or obesity when the BMI was between 25 and 50. Data regarding rheumatoid arthritis was derived from a NLP algorithm identifying mentions of rheumatoid arthritis in text (CRIS NLP Service, 2021).

Exposure and control variables

Ethnicity was derived from 16 NHS categories. White British ethnicity was used as a reference category in the analyses. We used most of the original NHS categories, but due to small samples, we grouped together the mixed ethnicity categories (comprising White and Black African, White Black and Caribbean and White and Asian), and grouped together the other ethnic categories (Other Ethnicity, Gypsy/Irish Traveller group and Arab). Other sociodemographic data comprised gender, age at diagnosis and area-level deprivation. Area-level deprivation was based on the English Indices of Deprivation 2015 (Department for Communities and Local Government, 2015); we retrieved the decile of the index of multiple deprivations attributed to the lower-layer super output area of the service-users address at the diagnosis date. Based on these deciles and considering the high deprivation level in the SLaM catchment area, four groups were derived: most deprived (comprising people living in deciles 1 and 2, corresponding the 20% most deprived areas in England), second-most deprived (comprising people living in decile 3 and 4), middle deprivation (comprising people living in decile 5 and 6), least deprived (comprising deciles 7 to 10, corresponding to the 40% least deprived areas).

To control for the surveillance bias associated with the availability of information, we included a measure that estimated everyone's observation period, commencing with the date of the first diagnosis of SSD after 2007 and finishing at the end of the study's observation period (31/12/2020), or date of death.

Statistical analysis

Logistic regression analyses were conducted to investigate the association between ethnicity and multimorbidity (one or more physical health conditions) while controlling for other sociodemographic information and the observation period's length. Multinomial regression analyses were used to investigate association between ethnicity and morbidity severity, considering no multimorbidity, 1 or 2 physical health conditions and 3 or more physical health conditions. We tested interactions between ethnicity and gender and ethnicity and area-level deprivation in the predictive model for multimorbidity by using the likelihood ratio test comparing the models with and without the interaction terms, with adjustments for age, area-level deprivation and gender, respectively. Statistical analyses were conducted using STATA 15 (StataCorp, 2017).

Results

Participants

The sample comprises 20 800 service-users who met the inclusion criteria; 10% of those meeting the inclusion criteria were excluded because of missing or uncertain ethnicity data. Analyses revealed there were no gender differences between those excluded from the cohort due to missing data on ethnicity and the remaining cohort (47% v. 45% women). The median age at diagnosis for people without ethnicity data was one year earlier (35.9 v. 36.9 years), they were also a little more likely to live in less deprived areas (e.g. proportion living in the least deprived deciles, 7.8% v. 11.8%), and the length of observation period in SLaM was shorter for those with missing data on ethnicity (2.1 v. 8.5 years). The largest ethnic group in the cohort was people of White British ethnicity (35%), followed by Black British or other Black background (15%), Black African (14%), Black Caribbean (9%) and other White ethnicity (9%) (Table 1). The majority of the cohort comprised men (61%), and the median age at diagnosis was 37 years. Most people lived in highly deprived neighbourhoods (38% living in the 20% most deprived areas in England). Further information on the sample description is presented in Table 1.

Table 1. Characteristics of the study's cohort

Notes: aProportions for area-level deprivation were calculated from available data.

The most prevalent conditions were hypertension (46%), followed by diabetes (32%), overweight or obesity (26%), low blood pressure (25%) and asthma (15%); bronchitis (3%) and rheumatoid arthritis (1%) were not common (Table 1). Information on the sociodemographic and clinical factors stratified by ethnicity are presented in Table 2.

Table 2. Ethnic differences in the sociodemographic factors and health conditions

Ethnicity and odds for multimorbidity

The results from the logistic regression analyses (Table 3) showed that adjusting for age, gender, area-level deprivation and observation period, compared to White British people, Black African [aOR = 1.41, 95% CI (1.23–1.56)], Black Caribbean [aOR = 1.79, 95% CI (1.58–2.03)] and Black British people [aOR = 1.64, 95% CI (1.49–1.81)] were more likely to have multimorbidity (psychosis plus one physical health condition). Reduced odds for multimorbidity were observed among people of Chinese [aOR = 0.61, 95% CI (0.43–0.88)] and Other ethnicities [aOR = 0.66, 95% CI (0.58–0.75)]. The magnitude of these differences was even higher when comparing the odds for severe multimorbidity, having 3 or more physical health conditions (Table 3). No significant differences in odds for multimorbidity were observed between White British and people of South Asian background or Asian British, Irish, other White background and mixed race. However, in the model regarding multimorbidity severity, people of White Other ethnicity were observed to have reduced odds for 3 or more physical health conditions [aOR = 0.78, 95% CI (0.66–0.92)], compared to White British people. The effects of ethnicity on multimorbidity did not differ by gender or level of deprivation as indicated by the statistically non-significant interaction terms in the logistic models [likelihood ratio (LR) test based chi-squared = 14.45(12), p = 0.273 for ethnicity × gender and 44.48(36), p = 0.148 for ethnicity × deprivation interactions respectively].

Table 3. Odd ratios (OR) for having multimorbidity and multimorbidity severity compared to having no physical health conditions

Notes: a – results from logistic regression; b – results from multinomial regression. Significant results are indicated in bold.

Discussion

We investigated ethnic inequities in risks of multimorbidity in people with psychosis, using data from the electronic health records of South London and Maudsley NHS Trust. Black African, Black Caribbean and Black British people with psychosis have around 1.5 greater odds for multimorbidity, and around twice the odds for severe multimorbidity (i.e. psychosis plus three physical health conditions). People of Chinese ethnicity and Other ethnicity had reduced odds for multimorbidity. This is the first study that investigates potential ethnic inequities in multimorbidity among a cohort of people with psychosis. These findings are partly in line with a study that observed a greater risk of the development of diabetes among minoritised ethnic people within the first year of treatment for psychosis (Gaughran et al., Reference Gaughran, Stahl, Stringer, Hopkins, Atakan, Greenwood, Patel, Smith, Gardner-Sood, Lally, Heslin, Stubbs, Bonaccorso, Kolliakou, Howes, Taylor, Di Forti, David, Murray and Ismail2019). Also, the pattern of observed inequities is partially similar to a study of multimorbidity among a national sample of older adults (Watkinson et al., Reference Watkinson, Sutton and Turner2021). Similar findings are the greater risk observed among Black people, the reduced odds among Chinese people and the absence of differences among people with Mixed ethnicity (Watkinson et al., Reference Watkinson, Sutton and Turner2021). However, in our study, we did not observe increased odds for multimorbidity among people of South Asian, Asian British or other ethnicities. The age difference of the samples and the fact that we only investigated six health conditions, while the study of multimorbidity among older adults investigated 14 (Watkinson et al., Reference Watkinson, Sutton and Turner2021), may be the reasons for differences in findings.

Multiple studies have investigated the reasons for ethnic inequities in health. Except for a few conditions (e.g. sickle cell anaemia) that have a simple genetic basis, studies have failed to provide sound biological explanations for the ethnic inequities observed (Dressler et al., Reference Dressler, Oths and Gravlee2005; Adler and Rehkopf, Reference Adler and Rehkopf2008). Geographical variance in the prevalence of health conditions, as well as the significant associations between area deprivation, income, education and occupation with multimorbidity, suggest that differences in health and multimorbidity are more likely rooted in social conditions than are due to innate biological vulnerabilities (Nazroo, Reference Nazroo1998; Evandrou et al., Reference Evandrou, Falkingham, Feng and Vlachantoni2016; Stubbs et al., Reference Stubbs, Koyanagi, Veronese, Vancampfort, Solmi, Gaughran, Carvalho, Lally, Mitchell, Mugisha and Correll2016; Larsen et al., Reference Larsen, Pedersen, Friis, Glümer and Lasgaard2017; Verest et al., Reference Verest, Galenkamp, Spek, Snijder, Stronks and van Valkengoed2019; Dugravot et al., Reference Dugravot, Fayosse, Dumurgier, Bouillon, Rayana, Schnitzler, Kivimaki, Sabia and Singh-Manoux2020; Dubath et al., Reference Dubath, Gholam-Rezaee, Sjaarda, Levier, Saigi-Morgui, Delacrétaz, Glatard, Panczak, Correll, Solida, Plessen, von Gunten, Kutalik, Conus and Eap2021). Studies show that exposure to stress is associated with the dysregulation of the hypothalamic-pituitary-adrenal (HPA) axis and related cortisol awakening response (CAR), with implications for metabolic and inflammatory processes, further dysregulation of the immune response and multi-illness onset (O'Connor et al., Reference O’Connor, Thayer and Vedhara2021). Furthermore, social epigenetics studies report evidence of change in DNA methylation leading to epigenetic ageing amongst people who faced childhood adversity, low socioeconomic status in childhood and adulthood, perceived discrimination and neighbourhood disadvantage (Martin et al., Reference Martin, Ghastine, Lodge, Dhingra and Ward-Caviness2022).

The observed ethnic inequities could probably be driven by inequities in the social determinants of health beyond the included measure of area deprivation, including social marginalisation, racial discrimination, and, for migrants, the stresses related to migration and acculturation (Hatch and Dohrenwend, Reference Hatch and Dohrenwend2007; Allen et al., Reference Allen, Balfour, Bell and Marmot2014; Cabinet Office, 2018; Jongsma et al., Reference Jongsma, Gayer-Anderson, Tarricone, Velthorst, van der Ven, Quattrone, di Forti, Menezes, Del-Ben, Arango, Lasalvia, Berardi, La Cascia, Bobes, Bernardo, Sanjuán, Santos, Arrojo, de Haan, Tortelli, Szöke, Murray, Rutten, van Os, Morgan, Jones and Kirkbride2021b; Marmot et al., Reference Marmot, Allen, Boyce, Goldblatt and Morrison2020; Nazroo et al., Reference Nazroo, Bhui and Rhodes2020; Bhui et al., Reference Bhui, Havorsrud, Mooney and Hosang2021). For instance, experiences of racism and racial discrimination have been related to worse mental and physical health, including the onset of psychosis, diabetes, respiratory illness and hypertension (Karlsen and Nazroo, Reference Karlsen and Nazroo2002; Karlsen et al., Reference Karlsen, Nazroo, McKenzie, Bhui and Weich2005; Paradies et al., Reference Paradies, Ben, Denson, Elias, Priest, Pieterse, Gupta, Kelaher and Gee2015; Pearce et al., Reference Pearce, Rafiq, Simpson and Varese2019; Williams et al., Reference Williams, Lawrence, Davis and Vu2019; Jongsma et al., Reference Jongsma, Gayer-Anderson, Tarricone, Velthorst, van der Ven, Quattrone, di Forti, Menezes, Del-Ben, Arango, Lasalvia, Berardi, La Cascia, Bobes, Bernardo, Sanjuán, Santos, Arrojo, de Haan, Tortelli, Szöke, Murray, Rutten, van Os, Morgan, Jones and Kirkbride2021a). Health-related behaviours could mediate the relationships between social adversity and the onset of multimorbidity (Goosby et al., Reference Goosby, Straley and Cheadle2017; Williams et al., Reference Williams, Lawrence, Davis and Vu2019; Bhui et al., Reference Bhui, Havorsrud, Mooney and Hosang2021). The findings may also reflect the shared aetiology of mental and physical health conditions. One study has reported an association between the number of psychotic symptoms and number of physical health conditions (Moreno et al., Reference Moreno, Nuevo, Chatterji, Verdes, Arango and Ayuso-Mateos2013). The role of social stress, allostatic load, bodily inflammation and coagulation have been related to the onset of disorders in physical health, as well as psychosis; these mechanisms may explain multimorbidity with psychosis (Beckie, Reference Beckie2012; Goosby et al., Reference Goosby, Straley and Cheadle2017; Howes and McCutcheon, Reference Howes and McCutcheon2017; Lund et al., Reference Lund, Brooke-Sumner, Baingana, Baron, Breuer, Chandra, Haushofer, Herrman, Jordans, Kieling, Medina-Mora, Morgan, Omigbodun, Tol, Patel and Saxena2018; Heurich et al., Reference Heurich, Föcking, Mongan, Cagney and Cotter2022).

This study has implications for integrated care and shows the need for developing targeted interventions to reduced ethnic inequities. Literature suggests there is room for improving the health care provided. Ethnic minority people may not be disadvantaged in terms of contacts with the medical health system; a national representative study shows that after adjusting for self-assessed level of health and number of long-term conditions, people of Caribbean, Indian, Pakistani and Bangladeshi backgrounds were more likely to have had an appointment in the two weeks prior the survey (Nazroo et al., Reference Nazroo, Falaschetti, Pierce and Primatesta2009). However, there is evidence that Asian older adults are more dissatisfied with the care provided by GPs, as compared to White British, and older adults of most ethnic groups report insufficient support from local services to manage their health conditions and have low confidence in that management (Watkinson et al., Reference Watkinson, Sutton and Turner2021).

There are specific barriers to managing physical health among people with psychosis, which range from increased individual risk factors for poorer health (e.g. higher rates of substance use, smoking, lack of exercise and poorer diet), to service-related factors (e.g. lack of clarity in who is responsible for managing health problems among people with psychosis) (De Hert et al., Reference De Hert, Cohen, Bobes, Cetkovich-Bakmas, Leucht, Ndetei, Newcomer, Uwakwe, Asai, Möller, Gautam, Detraux and Correll2011; Moore et al., Reference Moore, Shiers, Daly, Mitchell and Gaughran2015; Bellass et al., Reference Bellass, Lister, Kitchen, Kramer, Alderson, Doran, Gilbody, Han, Hewitt, Holt, Jacobs, Prady, Shiers, Siddiqi and Taylor2021). These barriers can be aggravated for ethnic minority people due to discrimination, difficulties in communication or other cultural barriers. There is evidence that Black people with an SMI are less likely than White counterparts to have psychiatric diagnostic information recorded in hospital records after an emergency hospital admission (Mansour et al., Reference Mansour, Mueller, Davis, Burton, Shetty, Hotopf, Osborn, Stewart and Sommerlad2020). This under-identification potentially is related to reduced opportunities for enhanced continuity of care. The emphasise on increasing comprehensive personalised care may be a useful resource to reduce the ethnic inequities in multimorbidity (as it aims to improve individual levels of self-management of chronic health conditions, as well as to promote opportunities for people to have more community support), and evidence suggests that this leads to improved health outcomes (Coulter et al., Reference Coulter, Entwistle, Eccles, Ryan, Shepperd and Perera2015). However, information on how people with psychosis manage their physical health and any specific initiatives to reduce ethnic inequities in multimorbidity amongst people with psychosis is lacking (Das-Munshi et al., Reference Das-Munshi, Ashworth, Gaughran, Hull, Morgan, Nazroo, Roberts, Rose, Schofield, Stewart, Thornicroft and Prince2016). This study identifies the need to promote integrated care for SMI and multimorbidity (De Hert et al., Reference De Hert, Cohen, Bobes, Cetkovich-Bakmas, Leucht, Ndetei, Newcomer, Uwakwe, Asai, Möller, Gautam, Detraux and Correll2011; Moore et al., Reference Moore, Shiers, Daly, Mitchell and Gaughran2015; Bellass et al., Reference Bellass, Lister, Kitchen, Kramer, Alderson, Doran, Gilbody, Han, Hewitt, Holt, Jacobs, Prady, Shiers, Siddiqi and Taylor2021).

Strengths and limitations

This study used data from one of the UK's largest secondary mental health facilities, serving an ethnically diverse community. The cohort of the study is representative of South London and Maudsley NHS Trust catchment, and the findings should be generalisable to other ethnically dense urban areas in the United Kingdom. Indeed, most ethnic minorities live in urban areas. Ethnicity was self-defined, within NHS categories; however we could not include other relevant factors that can be related to inequities in health, most importantly migration, which could be associated with potential related barriers in the use of health services and under-detection of health conditions, but also an investigation of the healthy migrant paradox (Helgesson et al., Reference Helgesson, Johansson, Nordquist, Vingård and Svartengren2019; Oh et al., Reference Oh, Goehring, Jacob and Smith2021b). Also, we could not adjust for individual measures socioeconomic status (e.g. income, level of education), experiences of racism and discrimination or other factors of social adversity which have been associated with health inequities (Karlsen and Nazroo, Reference Karlsen and Nazroo2002; Beckie, Reference Beckie2012; Goosby et al., Reference Goosby, Straley and Cheadle2017). There are limitations in using Natural Language Processing (NLP) algorithms to assess the prevalence of physical health conditions, however the use of NLP enabled us to investigate ethnic inequities in a larger sample of people than what would be possible if restricting to people whose data could be linked to other administrative datasets that contain data on physical health, such as the Lambeth DataNet (Woodhead et al., Reference Woodhead, Ashworth, Schofield and Henderson2014). There is the risk of underestimation of the prevalence of some physical health conditions, as they would be managed in primary care and not recorded in SLaM (Gaughran et al., Reference Gaughran, Stahl, Stringer, Hopkins, Atakan, Greenwood, Patel, Smith, Gardner-Sood, Lally, Heslin, Stubbs, Bonaccorso, Kolliakou, Howes, Taylor, Di Forti, David, Murray and Ismail2019). We did not account for potential ethnic differences in psychotic illness severity and healthcare service use (Chui et al., Reference Chui, Gazard, MacCrimmon, Harwood, Downs, Bakolis, Polling, Rhead and Hatch2021; Morris et al., Reference Morris, Sellwood, Edge, Colling, Stewart, Cupitt and Das-Munshi2020), which may affect the availability of information. Moreover, only the conditions relevant to the aetiology and management of psychosis may be reported in SLaM electronic records, so we may have less information on other conditions. We did not adjust for the type of pharmacological treatment for psychosis, which could be related to the presence of the included physical conditions (Baxter et al., Reference Baxter, Harris, Khatib, Brugha, Bien and Bhui2016; Dubath et al., Reference Dubath, Gholam-Rezaee, Sjaarda, Levier, Saigi-Morgui, Delacrétaz, Glatard, Panczak, Correll, Solida, Plessen, von Gunten, Kutalik, Conus and Eap2021). Finally, we could not investigate the timing of the onset of the different health conditions. Future cohort studies are needed to verify and expand on our findings (e.g. Das-Munshi et al., Reference Das-Munshi, Ashworth, Gaughran, Hull, Morgan, Nazroo, Roberts, Rose, Schofield, Stewart, Thornicroft and Prince2016).

Conclusions

This study shows that Black people with psychosis are at higher risk of multimorbidity. Although this study is not focused on aetiology, the findings are consistent with adversity-related onset of disease, where marginalised ethnic groups face higher rates of psychosis and other health conditions when living with this severe mental illness (Dubath et al., Reference Dubath, Gholam-Rezaee, Sjaarda, Levier, Saigi-Morgui, Delacrétaz, Glatard, Panczak, Correll, Solida, Plessen, von Gunten, Kutalik, Conus and Eap2021; Jongsma et al., Reference Jongsma, Karlsen, Kirkbride and Jones2021a; Watkinson et al., Reference Watkinson, Sutton and Turner2021). The observed ethnic inequities in health show the need for integrated care and multi-disease prevention among minoritised ethnic groups.

Data

The data that support the findings of this study are available on request from the corresponding author. The data are not publicly available due to the Information Governance framework and Research Ethics Committee approval in place concerning CRIS data use.

Author contributions

K. B. developed the original idea in relation to new work on syndemics, and developed this with D. F. d. F. K. B., D. F. d. F., M. K., J. N. and R. D. H. were involved in the reviewing the methodology and analytic plans. M. P. and H. S. curated the data. D. F. d. F. undertook all data analyses and wrote the first draft. All authors provided critical insight, reviewed and suggested edits and agreed to the final version.

Financial support

This work utilised the Clinical Record Interactive Search (CRIS) platform, funded and developed by the National Institute for Health Research (NIHR) Biomedical Research Centre at South London and Maudsley NHS Foundation Trust and King's College London. Additionally, this work was supported by the Lankelly Chase Foundation, which funded the work of the Synergi Collaborative Centre (a 5-year national initiative to build a knowledge hub on ethnic inequities and multiple disadvantages in severe mental illness in the UK). The funders of the study had no role in study design, data collection, data analysis, data interpretation, writing of the manuscript or in the decision to submit it for publication.

Conflict of interest

D. F. d. F. has received research funding from Janssen and H Lundbeck for work outside this study. R. D. H. has received research funding from Roche, Pfizer, Janssen and H Lundbeck for work outside this study.

Ethical standards

CRIS dataset received approval from the Oxford C Research Ethics Committee (18/SC/0372). All projects using the CRIS dataset are submitted for approval to an oversight committee led by service-users (this project reference: 20-075). Service-users consent for publication of studies using CRIS data is not required.

Footnotes

1 We use the term inequity in line with the World Health Organisation definition of health equity as ‘the absence of unfair, avoidable or remediable differences among groups of people, whether those groups are defined socially, economically, demographically, or geographically or by other dimensions of inequality (e.g. sex, gender, ethnicity, disability, or sexual orientation).’ (World Health Organization, 2021).

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Table 1. Characteristics of the study's cohort

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Table 2. Ethnic differences in the sociodemographic factors and health conditions

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Table 3. Odd ratios (OR) for having multimorbidity and multimorbidity severity compared to having no physical health conditions