Hostname: page-component-78c5997874-ndw9j Total loading time: 0 Render date: 2024-11-10T11:08:13.498Z Has data issue: false hasContentIssue false
  • English
  • Français

Psychoses sans Frontieres: towards an interdisciplinary understanding of psychosis risk amongst migrants and their descendants

Part of: Editorials

Published online by Cambridge University Press:  13 September 2018

J. Dykxhoorn  and
J. B. Kirkbride Open the ORCID record for J. B. Kirkbride [Opens in a new window]
J. Dykxhoorn
Affiliation:
PsyLife group, Division of Psychiatry, UCL, London, UK
J. B. Kirkbride*
Affiliation:
PsyLife group, Division of Psychiatry, UCL, London, UK
*
Author for correspondence: James B. Kirkbride, E-mail: j.kirkbride@ucl.ac.uk
Rights & Permissions [Opens in a new window]

Abstract

Understanding the excess risk of psychotic disorders in migrant and ethnic minority groups has long been an important research focus in psychiatric epidemiology and public mental health. Heterogeneity between migrant groups based on the region of origin, minority status and other socioeconomic factors may provide clues as to the underlying aetiological mechanisms explaining this risk, as well as informing our general understanding of psychotic disorders. Nonetheless, disentangling the mechanisms underlying this association has been the focus of more speculation and theory to date than empirical research. Now more than ever, we need to move beyond studies which demonstrate excess rates in migrant and ethnic minority groups to novel population-based studies which identify the determinants and mechanisms through which this risk is shaped. In this paper, we review the main hypotheses proposed to explain these disparities and the current level of support for them. We then highlight recent evidence from epidemiology and neuroscience which provides important new clues in our understanding of the aetiology of psychotic disorders. We concluded with suggestions for future interdisciplinary research to prevent this public mental health inequality within a generation.

Keywords

EpidemiologyMental HealthMinority Issues and Cross-Cultural PsychiatryPublic HealthSchizophrenia
Type
Editorial
Information
Epidemiology and Psychiatric Sciences , Volume 28 , Issue 2 , April 2019 , pp. 146 - 152
Copyright
Copyright © Cambridge University Press 2018 

Overview of psychosis risk in migrant and ethnic minority groups

Understanding the excess risk of psychotic disorders in migrant and ethnic minority groups has long been an important research focus in psychiatric epidemiology and public mental health. First observed by Ødegaard (Reference Ødegaard1932) in the 1930s, further epidemiological research in the past four decades has consistently demonstrated that migrants and their children have, on average, over twice the risk of developing psychosis compared with native-born individuals (Cantor-Graae and Selten, Reference Cantor-Graae and Selten2005; Bourque et al., Reference Bourque, Van Der Ven and Malla2011). Further research suggests that the association between psychosis and migration may extend to third generation groups (Coid et al., Reference Coid, Kirkbride, Barker, Cowden, Stamps, Yang and Jones2008; Amad et al., Reference Amad, Guardia, Salleron, Thomas, Roelandt and Vaiva2013). The exact risk appears to vary based on the region of origin and visible minority status (Bourque et al., Reference Bourque, Van Der Ven and Malla2011), with black African and Caribbean groups in Europe at up to 5 times higher risk than their white European counterparts. To date, much of this research has been conducted in Northern Europe, including a large number of studies from the UK, Sweden, Denmark and the Netherlands (Cantor-Graae et al., Reference Cantor-Graae, Pedersen, McNeil and Mortensen2003; Fearon et al., Reference Fearon, Kirkbride, Morgan, Dazzan, Morgan, Lloyd, Hutchinson, Tarrant, Lun Alan Fung, Holloway, Mallett, Harrison, Leff, Jones and Murray2006; Hogerzeil et al., Reference Hogerzeil, van Hemert, Veling and Hoek2016; Hollander et al., Reference Hollander, Dal, Lewis, Magnusson, Kirkbride and Dalman2016). More recently these findings have been extended to other European settings, including France (Tortelli et al., Reference Tortelli, Morgan, Szoke, Nascimento, Skurnik, de Caussade, Fain-Donabedian, Fridja, Henry, Ezembe and Murray2014) and Italy (Tarricone et al., Reference Tarricone, Mimmi, Paparelli, Rossi, Mori, Panigada, Carchia, Bandieri, Michetti, Minenna, Boydell, Morgan and Berardi2012; Lasalvia et al., Reference Lasalvia, Bonetto, Tosato, Zanatta, Cristofalo, Salazzari, Lazzarotto, Bertani, Bissoli, De Santi, Cremonese, De Rossi, Gardellin, Ramon, Zucchetto, Amaddeo, Tansella and Ruggeri2014), extending the international evidence base. While less research has been conducted outside of Europe, studies from North America show similar trends (Bresnahan et al., Reference Bresnahan, Begg, Brown, Schaefer, Sohler, Insel, Vella and Susser2007; DeVylder et al., Reference DeVylder, Oh, Yang, Cabassa, Chen and Lukens2013; Anderson et al., Reference Anderson, Cheng, Susser, McKenzie and Kurdyak2015). Two studies in Israel have found discrepant findings. The first found increased psychosis risk in both migrants and their children (Weiser et al., Reference Weiser, Werbeloff, Vishna, Yoffe, Lubin, Shmushkevitch and Davidson2008), although the second found no such evidence for children of migrants compared with Israeli-born individuals (Corcoran et al., Reference Corcoran, Perrin, Harlap, Deutsch, Fennig, Manor, Nahon, Kimhy, Malaspina and Susser2009).

Despite this exception, the overwhelming body of evidence reveals a strong, consistent association between migrant status and psychosis risk, marking this out as a critical and pressing public mental health priority. Heterogeneity between migrant groups based on the region of origin, minority status and other socioeconomic factors may provide clues as to the underlying aetiological mechanisms explaining this risk, as well as informing our general understanding of psychotic disorders. Nonetheless, disentangling the mechanisms underlying this association has been the focus of more speculation and theory to date than empirical research. In this paper, we argue that now more than ever, we need to move beyond studies which consistently and robustly demonstrate a disproportionate burden of psychotic disorders is shouldered by a few migrants and ethnic minority groups, to novel population-based studies which seek to identify the determinants and mechanisms through which this risk is shaped. In the next section, we briefly review the main hypotheses which have been proposed to explain these severe mental health disparities and the current level of support for them. In the following two sections, we highlight recent evidence from epidemiology and neuroscience generating important new clues in the search for aetiological factors which account for the excess psychosis risk in some migrant groups. We conclude with suggestions for future research.

Main hypotheses

Several hypotheses have been proposed to explain excess risks in several migrants and ethnic minority groups (see Box 1). Here, we provide a brief overview of those hypotheses and the current strength of evidence to support them.

Box 1: Main hypotheses proposed to account for higher rates of psychotic disorder in migrants and their descendants

Legend: Main hypotheses to explain elevated psychosis risk in migrants and their descendants. The current evidence most consistently supports a social adversities hypothesis, while sociodemographic and selection effects have been refuted on the basis of reasonable evidence. Other hypotheses have been refuted, but the evidence base to do so is indirect or limited (yellow and red boxes, right hand column), suggesting this may be premature. Novel hypotheses require investigation. BME: black and minority ethnic.

Prior to migration, several factors have been proposed to explain elevated risk amongst migrant groups (Bhugra, Reference Bhugra2000; Fung et al., Reference Fung, Jones and Bhugra2009; Hollander et al., Reference Hollander, Dal, Lewis, Magnusson, Kirkbride and Dalman2016). For example, higher background rates of psychotic disorder in migrants’ countries of origin have been proposed as one possible explanation of excess rates in migrant groups. However, research conducted in Jamaica (Hickling and Rodgers-Johnson, Reference Hickling and Rodgers-Johnson1995), Trinidad (Bhugra et al., Reference Bhugra, Hilwig, Hossein, Marceau, Neehall, Leff, Mallett and Der1996) and Barbados (Mahy et al., Reference Mahy, Mallett, Leff and Bhugra1999) has refuted this explanation for the excess rates observed in black Caribbean migrants (Kirkbride et al., Reference Kirkbride, Errazuriz, Croudace, Morgan, Jackson, Boydell, Murray and Jones2012; Tortelli et al., Reference Tortelli, Errazuriz, Croudace, Morgan, Murray, Jones, Szoke and Kirkbride2015). Such research implies that the excess risk of psychosis amongst these migrants cannot be accounted for solely by genetic factors. Although vital, comparable studies outside of the Caribbean are missing. We do not know whether the excess rates of psychotic disorder observed in ethnic minority groups of black African, Pakistani and Bangladeshi origin are due to higher rates in their countries of origin, and further epidemiological studies in other low and middle-income countries are urgently required (see, for example, Morgan et al., Reference Morgan, John, Esan, Hibben, Patel, Weiss, Murray, Hutchinson, Gureje, Thara and Cohen2016).

Selective migration of individuals at risk of psychosis was one of the earliest hypotheses proposed to explain elevated rates in migrants (Ødegaard, Reference Ødegaard1932). Current evidence strongly refutes this possibility (Lundberg et al., Reference Lundberg, Cantor-Graae, Kahima and Östergren2007; van der Ven et al., Reference van der Ven, Dalman, Wicks, Allebeck, Magnusson, van Os and Selten2015), notwithstanding evidence that exposure to pre-migratory traumas partially increases psychosis risk in migrants (Hollander et al., Reference Hollander, Dal, Lewis, Magnusson, Kirkbride and Dalman2016). Experiences of trauma or social adversity may be important push factors for some migrants who choose – or are forced – to emigrate. In non-migrants, exposure to trauma (Schäfer and Fisher, Reference Schäfer and Fisher2011), loss (Morgan et al., Reference Morgan, Kirkbride, Leff, Hutchinson, McKenzie, Morgan, Dazzan, Craig, Doody, Jones, Murray, Fearon, Hutchinson, McKenzie, Morgan, Dazzan, Doody, Jones, Murray and Fearon2007) or cumulative disadvantage (Morgan et al., Reference Morgan, Kirkbride, Hutchinson, Craig, Morgan, Dazzan, Boydell, Doody, Jones, Murray, Leff and Fearon2008) may increase psychotic disorder and symptoms, particularly amongst those vulnerable to psychosis (Spauwen et al., Reference Spauwen, Krabbendam, Lieb, Wittchen and Van OS2006). A recent study in Sweden found refugees were 66% more likely to be diagnosed with schizophrenia than non-refugee migrants from the same regions of origin (Hollander et al., Reference Hollander, Dal, Lewis, Magnusson, Kirkbride and Dalman2016), consistent with a role for trauma exposure in the aetiological pathway. Direct evidence for such an effect, is, however, missing and should be a priority for future epidemiological research in this field. Recently, frequently moving house in childhood and adolescence, which may both result from and generate social instability, has been associated with increased risk of future psychotic disorders (Price et al., Reference Price, Dalman, Zammit and Kirkbride2018).

In addition to exposures prior to migration, migration itself may be a risk factor for psychosis. Migration can be a stressful or traumatic experience, particularly when people encounter difficulties during transit, in obtaining temporary residence in a ‘transit’ country, or if detained upon arrival in the host country (Al-Baldawi, Reference Al-Baldawi2002). Like other stressors, if these occur during vulnerable developmental periods, this may increase psychosis risk; several studies have shown that migration during childhood and adolescence increases risk (Veling et al., Reference Veling, Hoek, Selten and Susser2011; Pedersen and Cantor-Graae, Reference Pedersen and Cantor-Graae2012; Kirkbride et al., Reference Kirkbride, Hameed, Ioannidis, Ankireddypalli, Crane, Nasir, Kabacs, Metastasio, Jenkins, Espandian, Spyridi, Ralevic, Siddabattuni, Walden, Adeoye, Perez and Jones2017). Differential migration experiences, including the presence of family members, access to resources and the social and economic position of the migrants may also affect the level of stress experienced during the migration process (Al-Baldawi, Reference Al-Baldawi2002), but further research is needed to better understand these different experiences. While factors prior to and during migration may explain some of the elevated risks amongst migrants, they are not able to account for the observed excess risk in children of migrants (Bourque et al., Reference Bourque, Van Der Ven and Malla2011), suggesting that post-migratory factors must also affect psychosis risk.

These factors may include acculturative stresses, social adversity, experiences of discrimination, living in areas of low ethnic density or social defeat. Acculturative stress, including low mastery of the national language(s), has been associated with increased psychological distress in migrants (Fassaert et al., Reference Fassaert, De Wit, Tuinebreijer, Knipscheer, Verhoeff, Beekman and Dekker2011), though this has yet to be examined for psychosis. Acculturating to a new society may also be more challenging for migrants from culturally distant areas, which may explain part of the heterogeneity in risk based on the region of origin. Social adversity, including low socioeconomic status, unemployment, poor housing, poverty, social exclusion and discrimination has been linked to increased risk of developing psychosis (Wicks et al., Reference Wicks, Hjern, Gunnell, Lewis and Dalman2005) and specifically accounts for some (but not all) of the excess psychosis risk in migrant populations (Hjern, Wicks and Dalman, Reference Hjern, Wicks and Dalman2004; Kirkbride et al., 2008). Experiences of interpersonal discrimination and systemic racism in the post-migration environment have also been associated with elevated risk of psychotic symptoms (Oh et al., Reference Oh, Yang, Anglin and DeVylder2014) and disorders (Veling et al., Reference Veling, Selten, Susser, Laan, Mackenbach and Hoek2007) in ethnic minority groups. Furthermore, perceived discrimination has been observed to predict conversion to psychosis in people at high risk of psychotic disorders (Stowkowy et al., Reference Stowkowy, Liu, Cadenhead, Cannon, Cornblatt, McGlashan, Perkins, Seidman, Tsuang, Walker, Woods, Bearden, Mathalon and Addington2016). Not all studies have observed that perceived discrimination is a risk factor for schizophrenia (Veling et al., Reference Veling, Hoek and Mackenbach2008a) and further research on this issue is required. Social defeat, or the prolonged exclusion from the majority group, may play a role in the development of psychosis (Selten and Cantor-Graae, Reference Selten and Cantor-Graae2005; Selten et al., Reference Selten, van der Ven, Rutten and Cantor-Graae2013). Social defeat may also be linked to experiences of interpersonal discrimination and systemic racism, which may include negative stereotyping of people from ethnic minority groups, and can restrict the opportunities available to ethnic minority groups, including educational attainment, access to safe and secure housing, or employment status. While social defeat is an attractive hypothesis, it is yet to be operationalised in empirical research. Nonetheless, there is strong evidence that social adversities increase the risk of psychosis generally, and that migrant groups may be more likely to experience multiple forms of such adversity.

Cultural biases in psychiatric care resulting in the misdiagnosis of psychotic disorders amongst migrant groups have also been suggested as an explanation for excess psychosis risk. However, while racialised stereotypes have been shown to affect clinical judgment, it is not clear that this results in over-diagnosis of schizophrenia within migrant and ethnic minority groups (Lewis et al., Reference Lewis, Croft-Jeffreys and David1990). Use of a ‘culturally-sensitive’ diagnostic tool over standard diagnostic assessments reduced the relative risk of schizophrenia observed in Moroccan migrants in the Netherlands compared with the majority white Dutch population (Zandi et al., Reference Zandi, Havenaar, Smits, Limburg-Okken, van Es, Cahn, Algra, Kahn and van den Brink2010). Nevertheless, use of such a tool has been disputed (Selten et al., Reference Selten, Laan, Veen, Blom, Veling and Hoek2010). Overall levels of non-schizophrenia psychotic disorders remained over four times greater in Moroccan immigrants using either diagnostic tool, making it unlikely that these raised rates could be attributable to misdiagnosis. Nonetheless, it has been suggested that systemic racism within the mental healthcare system could lead to misunderstanding of symptoms, misdiagnosis and non-optimal treatment for those with mental health problems (McKenzie and Bhui, Reference Mckenzie and Bhui2014). Since the consequences of misdiagnosis, or incorrect attribution of excess rates of psychotic disorder in migrant and ethnic minority groups to misdiagnosis, will have harmful effects on the public mental health of these groups, we require carefully-conducted, unbiased epidemiological studies to categorically resolve this issue.

Finally, increased exposure to biological factors before, during and after migration, including infection, obstetric complications, or Vitamin D insufficiency, may also provide clues to the observed elevation in psychosis risk. Limited research has investigated if prenatal infection (Selten et al., Reference Selten, Slaets and Kahn1998; Reference Selten, Van Vliet, Pleyte, Herzog, Hoek and Van Loon2000; Brown, Reference Brown2006) or obstetric complications (Hutchinson et al., Reference Hutchinson, Takei, Bhugra, Fahy, Gilvarry, Mallett, Moran, Leff and Murray1997; O'Neill et al., Reference O'Neill, Curran, Dalman, Kenny, Kearney, Clarke, Cryan, Dinan and Khashan2016) explain excess psychosis risk in migrants and their children. While there is some evidence that prenatal infection may increase rates of psychosis in offspring (Brown, Reference Brown2006), other studies did not find evidence that prenatal infection explained elevated risk in the children of migrants (Selten et al., Reference Selten, Slaets and Kahn1998; Reference Selten, Van Vliet, Pleyte, Herzog, Hoek and Van Loon2000). Similarly, obstetric complications have been posited as a biologically plausible explanation for the elevated risk of psychosis (Morgan et al., Reference Morgan, Charalambides, Hutchinson and Murray2010), however, studies to date have been inconclusive (O'Neill et al., Reference O'Neill, Curran, Dalman, Kenny, Kearney, Clarke, Cryan, Dinan and Khashan2016). An alternate hypothesis for elevated rates of psychosis in migrants is Vitamin D insufficiency, whereby reductions in sun exposure, particularly for migrants with dark skin, could result in higher rates of psychosis (McGrath, Reference McGrath2011; Huibers et al., Reference Huibers, Visser, Deckers, Van Schoor, Van Furth and Wolf2014). Vitamin D insufficiency in pregnant migrants could also affect psychosis risk in their offspring (McGrath, Reference McGrath1999; Dealberto, Reference Dealberto2007).

The current evidence-base is most consistent with a role for social determinants in accounting for the excess risk of psychotic disorders in migrants and their descendants. Nevertheless, hypotheses which posit that biological factors or even cultural and methodological biases may account for these raised rates have received insufficient empirical attention to date, and novel studies will be required to further test such possibilities. In the next section, we present emerging evidence from psychiatric epidemiology which may potentially shed new light on these questions.

An emerging evidence-base

Although not a new idea (Faris and Dunham, Reference Faris and Dunham1939), a consistent line of studies have found evidence that the proportion of ethnic minority groups at the neighbourhood level is inversely proportional to psychosis risk faced by such groups (Mintz and Schwartz, Reference Mintz and Schwartz1964; Boydell et al., Reference Boydell, van Os, McKenzie, Allardyce, Goel, McCreadie and Murray2001; Kirkbride et al., Reference Kirkbride, Morgan, Fearon, Dazzan, Murray and Jones2007; Reference Kirkbride, Boydell, Ploubidis, Morgan, Dazzan, McKenzie, Murray and Jones2008b; Veling et al., Reference Veling, Susser, van Os, Mackenbach, Selten and Hoek2008b; Schofield et al., Reference Schofield, Ashworth and Jones2011; Reference Schofield, Thygesen, Das-Munshi, Becares, Cantor-Graae, Pedersen and Agerbo2017, Reference Schofield, Thygesen, Das-Munshi, Becares, Cantor-Graae, Agerbo and Pedersen2018; Richardson et al., Reference Richardson, Hameed, Perez, Jones and Kirkbride2018). If causal, the mechanism through which ethnic density affects psychosis would be most consistent with a ‘social adversities’ hypothesis. Indeed, it is less obvious how increased psychosis risk following exposure to other environmental exposures, including vitamin D deficiency, obstetric complications or cannabis use would be conditional on the ethnic density of one's immediate neighbourhood. Instead, it seems more parsimonious to suppose that people exposed to high levels of own-group ethnic density may benefit from greater bonding social capital conferred through similar or shared sociocultural, ethnic or immigrant backgrounds, which may mitigate social stress which could otherwise increase psychosis risk. While intuitive, this theory is predicated on two assumptions which have yet to be fully proven. First, that bonding social capital is associated with reduced psychosis risk, for which there is some, though not definitive support (Kirkbride et al., Reference Kirkbride, Boydell, Ploubidis, Morgan, Dazzan, McKenzie, Murray and Jones2008b) and second that failing to mitigate exposure to social stress leads to altered neurobiological processes implicated in psychosis (see below). More fundamental and epidemiological research is needed to answer these important questions, and to rule out methodological artefact as a possible explanation. Most obviously, ascertainment bias may be patterned by ethnic density, if people with psychotic disorder in communities with higher levels of own-group ethnic density are less likely to be enumerated within the context of healthcare systems or via epidemiological research. Recent research has used longitudinal data to show that neighbourhood ethnic density at age 15 is inversely associated with subsequent migrant risk of non-affective psychosis (Schofield et al., Reference Schofield, Thygesen, Das-Munshi, Becares, Cantor-Graae, Pedersen and Agerbo2017). Demonstration of such temporality is potentially consistent with causality, although replication of this finding in other settings is clearly necessary. Further research is also needed to determine whether ethnic density matters for all groups, including the majority population, whether threshold effects exist and whether ethnic density effects differ for first or later generation migrants. Interestingly, recent research suggests that ethnic density may have a stronger protective effect in children of migrants compared with their parents (Schofield et al., Reference Schofield, Thygesen, Das-Munshi, Becares, Cantor-Graae, Agerbo and Pedersen2018).

Neighbourhood ethnic density may not operate in the same way for all groups with respect to psychosis risk. In one study in East London (Kirkbride et al., Reference Kirkbride, Jones, Ullrich and Coid2014), neighbourhood-level own-group ethnic density was associated with a reduced incidence of non-affective psychosis in people of black African origin, but for people from black Caribbean backgrounds, better integration into the general population was a more important driver of reduced rates. These patterns emphasise the need to more carefully consider the social contexts in which people live their lives, and whether different acculturation strategies (i.e. Berry et al., Reference Berry, Kim, Minde and Mok1987) adopted by different individuals and groups affect future psychosis risk. In the example above, the findings may lead one to consider whether for people of black African origin living in East London, maintaining a strong ethnic identity was an important component of a socially cohesive group, which led to better social support, less stress and lower rates of psychosis. By contrast, for those of Caribbean descent in the same community, integration with the remainder of the population may have been a more desirable social outcome, reducing stressors associated with social exclusion and leading to lower psychosis rates. While such studies provide clues as to possible hypotheses, testing these ideas often rubs up against the limits of psychiatric epidemiology, particularly in studies using register-based or routine datasets. Sample sizes for rare outcomes in some minority populations are often too small to even investigate ethnic density effects, let alone the underlying meaning, social narratives and acculturative strategies which might be in play amongst a diverse population. We suggest that genuine interdisciplinary research will be needed to tackle these issues, where qualitative studies are an inherent feature of the design of large, mixed methods studies to understand the risk and protective factors experienced by migrant and ethnic minority groups. Epidemiological studies should continue to play a central role in designing representative samples from which to explore these issues and test novel questions. One such example is demonstrated through the application of a novel method to examine familial social capital at the time of immigration amongst those immigrating to Sweden (Dykxhoorn et al., Reference Dykxhoorn, Hollander, Lewis, Dalman and Kirkbride2018). Exploiting family-linkages in the Swedish register data, this prospective cohort study of over 800 000 immigrants to Sweden was able to examine whether migrating with or to join first degree relatives in Sweden conferred any protection against the risk of non-affective psychosis. The study found that for women, migrating alone increased future psychosis risk by around 40%. Interestingly, however, migrating with or to join immediate family increased psychosis risk for men by up to 30%. These results, while requiring confirmation, imply that even at the most basic level, the psychosocial processes experienced during migration may differ for men and women. This is supported by another study which has shown that women, but not men, from Pakistani and Bangladeshi backgrounds (Kirkbride et al., Reference Kirkbride, Barker, Cowden, Stamps, Yang, Jones and Coid2008a) – and particularly the first-generation (Coid et al., Reference Coid, Kirkbride, Barker, Cowden, Stamps, Yang and Jones2008) – are at substantially elevated rates of psychotic disorder, increasing the possibility that social isolation experienced during or after migration has an impact on risk.

Beyond psychiatric epidemiology

Emerging neuroscience supports the possibility that exposure to migration and minority status are associated with structural and functional differences in the brain relevant to psychosis. For example, in non-psychotic volunteers, Akdeniz et al. (Reference Akdeniz, Tost, Streit, Haddad, Wust, Schafer, Schneider, Rietschel, Kirsch and Meyer-Lindenberg2014b) demonstrated that second-generation Turkish groups in Germany showed greater reactivity in the amygdala and perigenual Anterior Cingulate Cortex (pACC) in response to social stress following disapproving observer feedback following a stress test (arithmetic). This area of the brain is involved in emotion and stress processing and has been shown to be disrupted in people with schizophrenia (Radua et al., Reference Radua, Borgwardt, Crescini, Mataix-Cols, Meyer-Lindenberg, McGuire and Fusar-Poli2012). Moreover, in the same study (Akdeniz et al., Reference Akdeniz, Tost, Streit, Haddad, Wust, Schafer, Schneider, Rietschel, Kirsch and Meyer-Lindenberg2014b), people who perceived their ethnic group as experiencing more discrimination (which has been associated with psychosis risk (Veling et al., Reference Veling, Selten, Susser, Laan, Mackenbach and Hoek2007)) showed greater activation in the pACC and ventral striatum, the latter being a region strongly associated with the onset of psychotic symptoms following dopaminergic dysregulation (Howes and Murray, Reference Howes and Murray2014). Indeed, elevated stress-induced striatal dopamine release and synthesis capacity have been demonstrated in migrants compared with non-migrants via positron emission topography, a difference which became progressively more pronounced in clinical high risk and first episode psychosis (FEP) groups (Egerton et al., Reference Egerton, Howes, Houle, Mckenzie, Valmaggia, Bagby, Tseng, Bloomfield, Kenk, Bhattacharyya, Suridjan, Chaddock, Winton-Brown, Allen, Rusjan, Remington, Meyer-Lindenberg, Mcguire and Mizrahi2017). Other recent evidence suggests that people of both white and black ethnicity show greater activation in the amygdala and pACC in response to outgroup faces. Interestingly, for people of black ethnicity, this reactivity was greater amongst those living in less ethnically dense neighbourhoods. It has been suggested that this emerging evidence, which needs to be strengthened by further work in epidemiological samples, including those with FEP, supports the possibility that neural social stress processing is disrupted in groups exposed to social marginalisation, including migrants, ethnic minorities and others who may be subjugated by other groups (Akdeniz et al., Reference Akdeniz, Tost and Meyer-Lindenberg2014a).

Future directions

Converging evidence supports a causal association between migrant and ethnic minority status and subsequent risk of psychotic disorder. Epidemiological studies have been pivotal in demonstrating this gross public mental health inequality, but we now need to develop novel, epidemiologically-informed interdisciplinary longitudinal studies to identify the risk and protective factors which underpin this risk. These studies should include qualitative components and input from a variety of stakeholders, including public and patient involvement, to identify the potential experiences most likely to account for these inequalities. Current evidence supports a role for exposure to social adversity, isolation or traumas occurring before, during or after immigration, or as an ethnic minority group. Both fundamental and epidemiological research is also needed to fully test whether other factors – including biological factors such as inflammation, infection or vitamin D deficiency – account for any of the excess risks observed in migrants and their descendants. We also need better study designs which carefully and objectively test the extent to which misdiagnosis may account for any variation in psychosis risk. Generating such new knowledge, which will inform our aetiological understanding of psychotic disorders, should be regarded as an international priority in the context of unprecedented global migration. Our risk of being diagnosed with psychotic disorder should not be conditional on whether or not we chose – or in some cases are forced – to cross national borders. With accelerated investment in research in this field, we are optimistic that we can identify and prevent the factors which give rise to this global public mental health inequality within a generation.

Acknowledgements

None.

Financial support

This work was supported by a Sir Henry Dale Fellowship jointly funded by the Wellcome Trust and the Royal Society (grant number: 101272/Z/13/Z to JBK), by Mental Health Research UK (to JBK/JD) and by a UCL Overseas Research Scholarship (to JD).

Conflict of interest

We have no conflicts of interest to disclose.

References

Akdeniz, C, Tost, H and Meyer-Lindenberg, A (2014 a) The neurobiology of social environmental risk for schizophrenia: an evolving research field. Social Psychiatry and Psychiatric Epidemiology 49, 507517.Google Scholar
Akdeniz, C, Tost, H, Streit, F, Haddad, L, Wust, S, Schafer, A, Schneider, M, Rietschel, M, Kirsch, P and Meyer-Lindenberg, A (2014 b) Neuroimaging evidence for a role of neural social stress processing in ethnic minority-associated environmental risk. JAMA Psychiatry 71, 672680.Google Scholar
Al-Baldawi, R (2002) Migration-related stress and psychosomatic consequences. International Congress Series 1241, 271278.Google Scholar
Amad, A, Guardia, D, Salleron, J, Thomas, P, Roelandt, JL and Vaiva, G (2013) Increased prevalence of psychotic disorders among third-generation migrants: results from the French Mental Health in General Population Survey. Schizophrenia Research 147, 193195.Google Scholar
Anderson, KK, Cheng, J, Susser, E, McKenzie, KJ and Kurdyak, P (2015) Incidence of psychotic disorders among first-generation immigrants and refugees in Ontario. Canadian Medical Association Journal 187, E279E286.Google Scholar
Berry, JW, Kim, U, Minde, T and Mok, D (1987) Comparative studies of acculturative stress. International Migration Review 21, 491511.Google Scholar
Bhugra, D (2000) Migration and schizophrenia. Acta Psychiatrica Scandinavica 102, 6873.Google Scholar
Bhugra, D, Hilwig, M, Hossein, B, Marceau, H, Neehall, J, Leff, J, Mallett, R and Der, G (1996) First-contact incidence rates of schizophrenia in Trinidad and one-year follow-up. British Journal of Psychiatry 169, 587592.Google Scholar
Bourque, F, Van Der Ven, E and Malla, A (2011) A meta-analysis of the risk for psychotic disorders among first- and second-generation immigrants. Psychological Medicine 41, 897910.Google Scholar
Boydell, J, van Os, J, McKenzie, K, Allardyce, J, Goel, R, McCreadie, RG and Murray, RM (2001) Incidence of schizophrenia in ethnic minorities in London: ecological study into interactions with environment. BMJ 323, 13361338.Google Scholar
Bresnahan, M, Begg, MD, Brown, A, Schaefer, C, Sohler, N, Insel, B, Vella, L and Susser, E (2007) Race and risk of schizophrenia in a US birth cohort: another example of health disparity? International Journal of Epidemiology 36, 751758.Google Scholar
Brown, AS (2006) Prenatal infection as a risk factor for schizophrenia. Schizophrenia Bulletin 32, 200202.Google Scholar
Cantor-Graae, E and Selten, JP (2005) Schizophrenia and migration: a meta-analysis and review. American Journal of Psychiatry 162, 1224.Google Scholar
Cantor-Graae, E, Pedersen, CB, McNeil, TF and Mortensen, PB (2003) Migration as a risk factor for schizophrenia: a Danish population–based cohort study. British Journal of Psychiatry 182, 117122.Google Scholar
Coid, JW, Kirkbride, JB, Barker, D, Cowden, F, Stamps, R, Yang, M and Jones, PB (2008) Raised incidence rates of all psychoses among migrant groups: findings from the East London first episode psychosis study. Archives of General Psychiatry 65, 12501258.Google Scholar
Corcoran, C, Perrin, M, Harlap, S, Deutsch, L, Fennig, S, Manor, O, Nahon, D, Kimhy, D, Malaspina, D and Susser, E (2009) Incidence of schizophrenia among second-generation immigrants in the Jerusalem perinatal cohort. Schizophrenia Bulletin 35, 596602.Google Scholar
Coulthard, M, Farrell, M, Singleton, N and Meltzer, H (2002) Tobacco, alcohol and drug use and mental health. London: HMSO.Google Scholar
Dealberto, MJ (2007) Why are immigrants at increased risk for psychosis? Vitamin D insufficiency, epigenetic mechanisms, or both? Medical Hypotheses 68, 259267.Google Scholar
DeVylder, JE, Oh, HY, Yang, LH, Cabassa, LJ, Chen, FP and Lukens, EP (2013) Acculturative stress and psychotic-like experiences among Asian and Latino immigrants to the United States. Schizophrenia Research 150, 223228.Google Scholar
Dykxhoorn, JHollander, A-CLewis, GDalman, C and Kirkbride, JB (2018) Family capital during migration and risk of non-affective psychosis: A population-based cohort study. PsyArXiv. doi: 10.17605/OSF.IO/S36EN.Google Scholar
Egerton, A, Howes, OD, Houle, S, Mckenzie, K, Valmaggia, LR, Bagby, MR, Tseng, H-H, Bloomfield, MAP, Kenk, M, Bhattacharyya, S, Suridjan, I, Chaddock, CA, Winton-Brown, TT, Allen, P, Rusjan, P, Remington, G, Meyer-Lindenberg, A, Mcguire, PK and Mizrahi, R (2017) Elevated striatal dopamine function in immigrants and their children: a risk mechanism for psychosis. Schizophrenia Bulletin 43, 293301.Google Scholar
Faris, REL and Dunham, HW (1939) Mental Disorders in Urban Areas. Chicago: University of Chicago Press.Google Scholar
Fassaert, T, De Wit, MAS, Tuinebreijer, WC, Knipscheer, JW, Verhoeff, AP, Beekman, ATF and Dekker, J (2011) Acculturation and psychological distress among non-western muslim migrants – a population-based survey. International Journal of Social Psychiatry 57, 132143.Google Scholar
Fearon, P, Kirkbride, JB, Morgan, C, Dazzan, P, Morgan, K, Lloyd, T, Hutchinson, G, Tarrant, J, Lun Alan Fung, W, Holloway, J, Mallett, R, Harrison, G, Leff, J, Jones, PB and Murray, RM (2006) Incidence of schizophrenia and other psychoses in ethnic minority groups: results from the MRC AESOP study. Psychological Medicine 36, 15411550.Google Scholar
Fung, WLA, Jones, PB and Bhugra, D (2009) Ethnicity and mental health: the example of schizophrenia and related psychoses in migrant populations in the western world. Psychiatry 8, 335341.Google Scholar
Heuvelman, H, Nazroo, J and Rai, D (2018) Investigating ethnic variations in reporting of psychotic symptoms: a multiple-group confirmatory factor analysis of the psychosis screening questionnaire. Psychological Medicine, 19. doi: 10.1017/S0033291718000399.Google Scholar
Hickling, FW and Rodgers-Johnson, P (1995) The incidence of first contact schizophrenia in Jamaica. British Journal of Psychiatry 167, 193196.Google Scholar
Hickling, FW, McKenzie, K, Mullen, R and Murray, R (1999) A Jamaican psychiatrist evaluates diagnoses at a London psychiatric hospital. British Journal of Psychiatry 175, 283285.Google Scholar
Hjern, A, Wicks, S and Dalman, C (2004) Social adversity contributes to high morbidity in psychoses in immigrants - A national cohort study in two generations of Swedish residents. Psychological Medicine 34, 10251033.Google Scholar
Hogerzeil, SJ, van Hemert, AM, Veling, W and Hoek, HW (2016) Incidence of schizophrenia among migrants in the Netherlands: a direct comparison of first contact longitudinal register approaches. Social Psychiatry and Psychiatric Epidemiology 52, 147154.Google Scholar
Hollander, A-C, Dal, H, Lewis, G, Magnusson, C, Kirkbride, JB and Dalman, C (2016) Refugee migration and risk of schizophrenia and other non-affective psychoses: cohort study of 1.3 million people in Sweden. BMJ 352, i1030.Google Scholar
Howes, OD and Murray, RM (2014) Schizophrenia: an integrated sociodevelopmental-cognitive model. Lancet 383, 16771687.Google Scholar
Huibers, MHW, Visser, DH, Deckers, MML, Van Schoor, NM, Van Furth, aM and Wolf, BHM (2014) Vitamin D deficiency among native Dutch and first- and second-generation non-western immigrants. European Journal of Pediatrics 173, 583588.Google Scholar
Hutchinson, G, Takei, N, Bhugra, D, Fahy, TA, Gilvarry, C, Mallett, R, Moran, P, Leff, J and Murray, RM (1997) Increased rate of psychosis among African-Caribbeans in Britain is not due to an excess of pregnancy and birth complications. British Journal of Psychiatry 171, 145147.Google Scholar
Kirkbride, JB, Morgan, C, Fearon, P, Dazzan, P, Murray, RM and Jones, PB (2007) Neighbourhood-level effects on psychoses: re-examining the role of context. Psychological Medicine 37, 14131425.Google Scholar
Kirkbride, JB, Barker, D, Cowden, F, Stamps, R, Yang, M, Jones, PB and Coid, JW (2008 a) Psychoses, ethnicity and socio-economic status. British Journal of Psychiatry 193, 1824.Google Scholar
Kirkbride, JB, Boydell, J, Ploubidis, GB, Morgan, C, Dazzan, P, McKenzie, K, Murray, RM and Jones, PB (2008 b) Testing the association between the incidence of schizophrenia and social capital in an urban area. Psychological Medicine 38, 10831094.Google Scholar
Kirkbride, JB, Errazuriz, A, Croudace, TJ, Morgan, C, Jackson, D, Boydell, J, Murray, RM and Jones, PB (2012) Incidence of schizophrenia and other psychoses in England, 1950–2009: a systematic review and meta-analyses. PLoS ONE 7, e31660.Google Scholar
Kirkbride, JB, Jones, PB, Ullrich, S and Coid, JW (2014) Social deprivation, inequality, and the neighborhood-level incidence of psychotic syndromes in East London. Schizophrenia Bulletin 40, 169180.Google Scholar
Kirkbride, JB, Hameed, Y, Ioannidis, K, Ankireddypalli, G, Crane, CM, Nasir, M, Kabacs, N, Metastasio, A, Jenkins, O, Espandian, A, Spyridi, S, Ralevic, D, Siddabattuni, S, Walden, B, Adeoye, A, Perez, J and Jones, PB (2017) Ethnic minority status, age-at-immigration and psychosis risk in rural environments: evidence from the SEPEA study. Schizophrenia Bulletin 43, 12511261.Google Scholar
Lasalvia, A, Bonetto, C, Tosato, S, Zanatta, G, Cristofalo, D, Salazzari, D, Lazzarotto, L, Bertani, M, Bissoli, S, De Santi, K, Cremonese, C, De Rossi, M, Gardellin, F, Ramon, L, Zucchetto, M, Amaddeo, F, Tansella, M and Ruggeri, M (2014) First-contact incidence of psychosis in north-eastern Italy: influence of age, gender, immigration and socioeconomic deprivation. British Journal of Psychiatry 205, 127134.Google Scholar
Lewis, G, Croft-Jeffreys, C and David, A (1990) Are British psychiatrists racist?[see comment]. British Journal of Psychiatry 157, 410415.Google Scholar
Lundberg, P, Cantor-Graae, E, Kahima, M and Östergren, PO (2007) Delusional ideation and manic symptoms in potential future emigrants in Uganda. Psychological Medicine 37, 505512.Google Scholar
Mahy, GE, Mallett, R, Leff, J and Bhugra, D (1999) First-contact incidence rate of schizophrenia in Barbados. British Journal of Psychiatry 175, 2833.Google Scholar
McGrath, J (1999) Hypothesis: is low prenatal vitamin D a risk-modifying factor for schizophrenia? Schizophrenia Research 40, 173177.Google Scholar
McGrath, J (2011) Migrant status, vitamin D and risk of schizophrenia. Psychological Medicine 41, 892893.Google Scholar
Mckenzie, K and Bhui, K (2014) Institutional racism in mental health care. BMJ 334, 649650.Google Scholar
Mintz, NL and Schwartz, DT (1964) Urban ecology and psychosis: community factors in the incidence of schizophrenia and manic-depression among Italians in Greater Boston. International Journal of Social Psychiatry 10, 101118.Google Scholar
Morgan, C, Kirkbride, JB, Leff, J, Hutchinson, G, McKenzie, K, Morgan, K, Dazzan, P, Craig, T, Doody, Ga, Jones, PB, Murray, RM, Fearon, P, Hutchinson, G, McKenzie, K, Morgan, K, Dazzan, P, Doody, Ga, Jones, PB, Murray, RM and Fearon, P (2007) Parental separation, loss and psychosis in different ethnic groups: a case-control study. Psychological Medicine 37, 495503.Google Scholar
Morgan, C, Kirkbride, J, Hutchinson, G, Craig, T, Morgan, K, Dazzan, P, Boydell, J, Doody, GA, Jones, PB, Murray, RM, Leff, J and Fearon, P (2008) Cumulative social disadvantage, ethnicity and first-episode psychosis: a case-control study. Psychological Medicine 38, 17011715.Google Scholar
Morgan, C, Charalambides, M, Hutchinson, G and Murray, RM (2010) Migration, ethnicity, and psychosis: toward a sociodevelopmental model. Schizophrenia Bulletin 36, 655664.Google Scholar
Morgan, C, John, S, Esan, O, Hibben, M, Patel, V, Weiss, H, Murray, RM, Hutchinson, G, Gureje, O, Thara, R and Cohen, A (2016) The incidence of psychoses in diverse settings, INTREPID (2): a feasibility study in India, Nigeria, and Trinidad. Psychological Medicine 46, 19231933.Google Scholar
Ødegaard, Ø (1932) Emigration and insanity. Acta Psychiatrica Neurologica 4(Supp), 1206.Google Scholar
Oh, H, Yang, LH, Anglin, DM and DeVylder, JE (2014) Perceived discrimination and psychotic experiences across multiple ethnic groups in the United States. Schizophrenia Research 157, 259265.Google Scholar
O'Neill, SM, Curran, EA, Dalman, C, Kenny, LC, Kearney, PM, Clarke, G, Cryan, JF, Dinan, TG and Khashan, AS (2016) Birth by caesarean section and the risk of adult psychosis: a population-based cohort study. Schizophrenia Bulletin 42, 633641.Google Scholar
Pedersen, CB and Cantor-Graae, E (2012) Age at migration and risk of schizophrenia among immigrants in Denmark: a 25-year incidence study. American Journal of Psychiatry 169, 11171118.Google Scholar
Price, CDalman, CZammit, S and Kirkbride, JB (2018) Residential mobility and non-affective psychosis over the life course in 1.4 m young people in Sweden. JAMA Psychiatry, 19. doi: 10.1001/JAMAPSYCHIATRY.2018.2233.Google Scholar
Radua, J, Borgwardt, S, Crescini, A, Mataix-Cols, D, Meyer-Lindenberg, A, McGuire, PK and Fusar-Poli, P (2012) Multimodal meta-analysis of structural and functional brain changes in first episode psychosis and the effects of antipsychotic medication. Neuroscience & Biobehavioral Reviews 36, 23252333.Google Scholar
Richardson, L, Hameed, Y, Perez, J, Jones, PB and Kirkbride, JB (2018) Association of environment with the risk of developing psychotic disorders in rural populations: findings from the social epidemiology of psychoses in east anglia study. JAMA Psychiatry 75, 7583.Google Scholar
Sandwijk, JPCohen, PDMusterd, S and Langemeijer, MP (1995) Licit and illicit drug Use in Amsterdam. Report of a Household Survey in 1994 on the Prevalence of Drug Use among the Population of 12 Years and Over. Amsterdam: University of Amsterdam.Google Scholar
Schäfer, I and Fisher, HL (2011) Childhood trauma and psychosis – What is the evidence? Dialogues in Clinical Neuroscience 13, 360365.Google Scholar
Schofield, P, Ashworth, M and Jones, R (2011) Ethnic isolation and psychosis: re-examining the ethnic density effect. Psychological Medicine 41, 12631269.Google Scholar
Schofield, P, Thygesen, M, Das-Munshi, J, Becares, L, Cantor-Graae, E, Pedersen, C and Agerbo, E (2017) Ethnic density, urbanicity and psychosis risk for migrant groups – A population cohort study. Schizophrenia Research 190, 8287.Google Scholar
Schofield, P, Thygesen, M, Das-Munshi, J, Becares, L, Cantor-Graae, E, Agerbo, E and Pedersen, C (2018) Neighbourhood ethnic density and psychosis – Is there a difference according to generation? Schizophrenia Research 195, 501505.Google Scholar
Selten, JP and Cantor-Graae, E (2005) Social defeat: risk factor for schizophrenia? British Journal of Psychiatry 187, 101102.Google Scholar
Selten, J-P, Slaets, J and Kahn, R (1998) Prenatal exposure to influenza and schizophrenia in surinamese and Dutch Antillean immigrants to The Netherlands. Schizophrenia research 30, 101103.Google Scholar
Selten, JP, Van Vliet, K, Pleyte, W, Herzog, S, Hoek, HW and Van Loon, AM (2000) Borna disease virus and schizophrenia in Surinamese immigrants to the Netherlands. Medical Microbiology and Immunology 189, 5557.Google Scholar
Selten, JP, Cantor-Graae, E, Slaets, J and Kahn, RS (2002) Ødegaard's selection hypothesis revisited: schizophrenia in Surinamese immigrants to the Netherlands. American Journal of Psychiatry 159, 669671.Google Scholar
Selten, JP, Laan, W, Veen, ND, Blom, JD, Veling, W and Hoek, HW (2010) Incidence of schizophrenia among Moroccan immigrants to the Netherlands. Schizophrenia Research 124, 240241.Google Scholar
Selten, J-P, van der Ven, E, Rutten, BPF and Cantor-Graae, E (2013) The social defeat hypothesis of schizophrenia: an update. Schizophrenia Bulletin 39, 11801186.Google Scholar
Sharp, C and Budd, T (2003) Minority ethnic groups and crime: findings from the Offending Crime Survey, 2003. Home Office: London Home Office Online Report 33/05 2008.Google Scholar
Spauwen, J, Krabbendam, L, Lieb, R, Wittchen, H-U and Van OS, J (2006) Impact of psychological trauma on the development of psychotic symptoms:relationship with psychosis proneness. British Journal of Psychiatry 188, 527533.Google Scholar
Stowkowy, J, Liu, L, Cadenhead, KS, Cannon, TD, Cornblatt, BA, McGlashan, TH, Perkins, DO, Seidman, LJ, Tsuang, MT, Walker, EF, Woods, SW, Bearden, CE, Mathalon, DH and Addington, J (2016) Early traumatic experiences, perceived discrimination and conversion to psychosis in those at clinical high risk for psychosis. Social Psychiatry and Psychiatric Epidemiology 51, 497503.Google Scholar
Tarricone, I, Mimmi, S, Paparelli, A, Rossi, E, Mori, E, Panigada, S, Carchia, G, Bandieri, V, Michetti, R, Minenna, G, Boydell, J, Morgan, C and Berardi, D (2012) First-episode psychosis at the West Bologna community mental health centre: results of an 8-year prospective study. Psychological Medicine 42, 22552264.Google Scholar
Tortelli, A, Morgan, C, Szoke, A, Nascimento, A, Skurnik, N, de Caussade, E, Fain-Donabedian, E, Fridja, F, Henry, M, Ezembe, F and Murray, R (2014) Different rates of first admissions for psychosis in migrant groups in Paris. Social Psychiatry and Psychiatric Epidemiology 49, 11031109.Google Scholar
Tortelli, A, Errazuriz, A, Croudace, T, Morgan, C, Murray, RM, Jones, PB, Szoke, A and Kirkbride, JB (2015) Schizophrenia and other psychotic disorders in Caribbean-born migrants and their descendants in England: systematic review and meta-analysis of incidence rates, 1950–2013. Social Psychiatry and Psychiatric Epidemiology 50, 10391055.Google Scholar
van der Ven, E, Dalman, C, Wicks, S, Allebeck, P, Magnusson, C, van Os, J and Selten, JP (2015) Testing Ødegaard's selective migration hypothesis: a longitudinal cohort study of risk factors for non-affective psychotic disorders among prospective emigrants. Psychological Medicine 45, 727734.Google Scholar
Veen, N, Selten, JP, Hoek, HW, Feller, W, van der Graaf, Y and Kahn, R (2002) Use of illicit substances in a psychosis incidence cohort: a comparison among different ethnic groups in the Netherlands. Acta Psychiatrica Scandinavica 105, 440443.Google Scholar
Veling, W, Selten, J-P, Susser, E, Laan, W, Mackenbach, JP and Hoek, HW (2007) Discrimination and the incidence of psychotic disorders among ethnic minorities in The Netherlands. International Journal of Epidemiology 36, 761768.Google Scholar
Veling, W, Hoek, HW and Mackenbach, JP (2008 a) Perceived discrimination and the risk of schizophrenia in ethnic minorities. Social Psychiatry and Psychiatric Epidemiology 43, 953959.Google Scholar
Veling, W, Susser, E, van Os, J, Mackenbach, JP, Selten, J-P and Hoek, HW (2008 b) Ethnic density of neighborhoods and incidence of psychotic disorders among immigrants. American Journal of Psychiatry 165, 6673.Google Scholar
Veling, W, Hoek, HW, Selten, JP and Susser, E (2011) Age at migration and future risk of psychotic disorders among immigrants in the Netherlands: a 7-year incidence study. American Journal of Psychiatry 168, 12781285.Google Scholar
Weiser, M, Werbeloff, N, Vishna, T, Yoffe, R, Lubin, G, Shmushkevitch, M and Davidson, M (2008) Elaboration on immigration and risk for schizophrenia. Psychological Medicine 38, 11131119.Google Scholar
Wicks, S, Hjern, A, Gunnell, D, Lewis, G and Dalman, C (2005) Social adversity in childhood and the risk of developing psychosis: a national cohort study. American Journal of Psychiatry 162, 16521657.Google Scholar
Zandi, T, Havenaar, JM, Smits, M, Limburg-Okken, aG, van Es, H, Cahn, W, Algra, A, Kahn, RS and van den Brink, W (2010) First contact incidence of psychotic disorders among native Dutch and Moroccan immigrants in the Netherlands: influence of diagnostic bias. Schizophrenia Research 119, 2733.Google Scholar