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Parity of esteem begins at home: translating empirical psychiatric research into effective public mental health

Published online by Cambridge University Press:  09 August 2013

J. B. Kirkbride*
Affiliation:
Department of Psychiatry, University of Cambridge, Cambridge, UK
P. B. Jones
Affiliation:
Department of Psychiatry, University of Cambridge, Cambridge, UK
*
* Address for correspondence: J. B. Kirkbride, Department of Psychiatry, Herchel Smith Building for Brain and Mind Sciences, Forvie Site, Robinson Way, Cambridge CB2 0SZ, UK. (Email: [email protected])
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Abstract

There is increasing recognition that parity of esteem between mental and physical health disorders is essential to improve the course, outcome and quality of life of individuals within different populations. Achieving this parity now underpins the objectives of several nations. Here, we argue that parity of esteem between mental and physical health can only be realized when parity of esteem also exists across mental health disorders, particularly in terms of service commissioning and planning. Using first-episode psychosis and early intervention in psychosis services as a motivating example, we demonstrate how carefully conducted psychiatric epidemiology can be translated to develop precise forecasts of the anticipated incidence of first-episode psychosis in different populations, based on an understanding of underlying local needs and inequalities. Open-access prediction tools such as PsyMaptic will allow commissioners of mental health services to more effectively allocate resources across services, based on empirical evidence and local need, thus reducing inequalities in access to mental health care.

Type
Editorial
Copyright
Copyright © Cambridge University Press 2013 

Introduction

Achieving parity of esteem between mental and physical health has become a major priority in several countries within the last 12 months. At a recent White House conference on mental health, the 44th President of the USA, Barack Obama, issued a statement to say that from 2014, no healthcare provider in the USA would be allowed to deny anyone insurance on the basis of pre-existing mental health problems (The White House, 2013), effectively putting in motion the country's 2008 Paul Wellstone and Pete Domenici Parity and Addiction Equity Act. There is growing pressure in other countries, too, to make parity of esteem between mental and physical health a key goal. On the last World Health Day the President of the Royal College of Psychiatrists, Professor Sue Bailey, was joined by colleagues from Australia, New Zealand and Canada in calling upon governments across the world to give equal footing to mental and physical health (Royal College of Psychiatrists, 2012), with publication of the College's landmark report, ‘Whole-Person Care: from rhetoric to reality’ setting forth a blueprint for realizing this aim (Royal College of Psychiatrists, 2013).

Physical and mental co-morbidity in people experiencing psychosis

It is now widely recognized that a high degree of co-morbidity exists between mental and physical health (Lasser et al. Reference Lasser, Boyd, Woolhandler, Himmelstein, McCormick and Bor2000; Grant et al. Reference Grant, Hasin, Chou, Stinson and Dawson2004; Egede, Reference Egede2007; Moussavi et al. Reference Moussavi, Chatterji, Verdes, Tandon, Patel and Ustun2007; McManus et al. Reference McManus, Meltzer and Campion2010; Department of Health, 2011; Campion et al. Reference Campion, Bhui and Bhugra2012). As such, improved outcomes in one domain will probably require investment in the other. One of the starkest challenges facing the parity of esteem agenda is the reduced life expectancy of between 10 and 25 years in people diagnosed with schizophrenia (Laursen et al. Reference Laursen, Munk-Olsen and Vestergaard2012). This is not due solely to elevated rates of suicide in this population, with excess mortality primarily attributable to cardiovascular and respiratory diseases (Mortensen & Juel, Reference Mortensen and Juel1993; Brown et al. Reference Brown, Barraclough and Inskip2000; Saha, Reference Saha, Chant and McGrath2007; Lawrence et al. Reference Lawrence, Kisely and Pais2010; Department of Health, 2011). While side-effects of anti-psychotic medication are probably an important contributor to this, people with pre-existing mental health disorders also tend to receive poorer physical health care (Kohn et al. Reference Kohn, Saxena, Levav and Saraceno2004; Mitchell et al. Reference Mitchell, Malone and Doebbeling2009; Lord et al. Reference Lord, Malone and Mitchell2010), tend to lead more unhealthy life-styles (Brown et al. Reference Brown, Birtwistle, Roe and Thompson1999; McCreadie, Reference McCreadie2003) and are less likely to receive behavioural and life-style advice, including in regard to smoking cessation (Campion et al. Reference Campion, Bhui and Bhugra2012). The prevalence of tobacco smoking in people with psychotic disorder (Lasser et al. Reference Lasser, Boyd, Woolhandler, Himmelstein, McCormick and Bor2000), including those in early intervention in psychosis settings (Wade et al. Reference Wade, Harrigan, Edwards, Burgess, Whelan and McGorry2006; James & Das, Reference James and Das2012), is estimated to be as high as 70%.

Although the incidence and prevalence of psychotic disorders is lower than for other psychiatric conditions, they nevertheless contribute substantially to lifelong social, functional and physical disability (Rossler et al. Reference Rossler, Salize, van Os and Riecher-Rossler2005), given their often poor prognoses and early age at onset. As such, the cost to health services and society of psychotic disorders is relatively large; in 2005/6 the total cost of schizophrenia alone was estimated to be £6.7 billion in England (Mangalore & Knapp, Reference Mangalore and Knapp2007), and similar costs for all psychotic disorders in Europe have more recently been estimated to be the third highest of any psychiatric disorder, narrowly behind common mental disorders and dementias (Gustavsson et al. Reference Gustavsson, Svensson, Jacobi, Allgulander, Alonso, Beghi, Dodel, Ekman, Faravelli, Fratiglioni, Gannon, Jones, Jennum, Jordanova, Jonsson, Karampampa, Knapp, Kobelt, Kurth, Lieb, Linde, Ljungcrantz, Maercker, Melin, Moscarelli, Musayev, Norwood, Preisig, Pugliatti, Rehm, Salvador-Carulla, Schlehofer, Simon, Steinhausen, Stovner, Vallat, Van den Bergh, van Os, Vos, Xu, Wittchen, Jonsson and Olesen2011).

Development and controversies of early intervention in psychosis services (EIS)

Beginning in the last decade of the previous millennium, empirical evidence began to suggest that earlier clinical intervention following the onset of psychotic symptoms led to better health and social outcomes for people with severe mental illness (McGorry et al. Reference McGorry, Edwards, Mihalopoulos, Harrigan and Jackson1996), with fewer relapses and readmissions later in life. A longer duration of untreated psychosis (DUP) is known to be predictive of poorer clinical and social outcomes (Marshall et al. Reference Marshall, Lewis, Lockwood, Drake, Jones and Croudace2005; Perkins et al. Reference Perkins, Gu, Boteva and Lieberman2005). The idea of early intervention in psychosis gained sufficient momentum for multidisciplinary EIS to be introduced nationally in many countries, including England (Department of Health, 2001), Australia and New Zealand. Further, specialist first-episode psychosis (FEP) services, including prodromal and early intervention initiatives, have also been established on an ad hoc basis elsewhere, including the USA (Addington et al. Reference Addington, Cadenhead, Cornblatt, Mathalon, McGlashan, Perkins, Seidman, Tsuang, Walker, Woods, Addington and Cannon2012; Caplan et al. Reference Caplan, Zimmet, Meyer, Friedman-Yakoobian, Monteleone, Jude Leung, Guyer, Rood, Keshavan and Seidman2013), Canada (Iyer et al. Reference Iyer, Mangala, Thara and Malla2010), India (Iyer et al. Reference Iyer, Mangala, Thara and Malla2010), Brazil (Brietzke et al. Reference Brietzke, Araripe Neto, Dias, Mansur and Bressan2011), South Korea (Lee et al. Reference Lee, Ahn, Park and Chung2012), Hong Kong (Hui et al. Reference Hui, Chang, Chan, Lee, Tam, Lai, Wong, Tang, Li, Leung, McGhee, Sham and Chen2013) and Japan (Koike et al. Reference Koike, Nishida, Yamasaki, Ichihashi, Maegawa, Natsubori, Harima, Kasai, Fujita, Harada and Okazaki2011). Such services aim to reduce DUP and tackle health and social inequalities in young people experiencing FEP (typically aged up to 35 years old), thus targeting improvement over a range of clinical, economic and social outcomes. We would expect (Kirkbride et al. Reference Kirkbride, Fearon, Morgan, Dazzan, Morgan, Tarrant, Lloyd, Holloway, Hutchinson, Leff, Mallett, Harrison, Murray and Jones2006) such services to see at least 76% and 63% of all men and women, respectively, who would develop FEP in their lifetime (Kirkbride et al. Reference Kirkbride, Fearon, Morgan, Dazzan, Morgan, Tarrant, Lloyd, Holloway, Hutchinson, Leff, Mallett, Harrison, Murray and Jones2006).

Proponents of EIS cite evidence to show that when intervention is sustained, people experiencing severe mental illness have improved clinical (Craig et al. Reference Craig, Garety, Power, Rahaman, Colbert, Fornells-Ambrojo and Dunn2004; Mihalopoulos et al. Reference Mihalopoulos, Harris, Henry, Harrigan and McGorry2009) and social outcomes (Garety et al. Reference Garety, Craig, Dunn, Fornells-Ambrojo, Colbert, Rahaman, Read and Power2006; Bertelsen et al. Reference Bertelsen, Jeppesen, Petersen, Thorup, Ohlenschlaeger, le Quach, Christensen, Krarup, Jorgensen and Nordentoft2008; Mihalopoulos et al. Reference Mihalopoulos, Harris, Henry, Harrigan and McGorry2009). Typically, however, EIS only provide support to young people in the first 3–5 years of disorder, before referring them on to standard care. Without continued intervention, some evidence indicates that initial gains may be eroded (Marshall & Rathbone, Reference Marshall and Rathbone2011). This problem has been used by those on both sides of the EIS debate to justify the continued support or highlight the shortcomings of EIS – see Bosanac et al. (Reference Bosanac, Patton and Castle2010) and McGorry et al. (Reference McGorry, Johanessen, Lewis, Birchwood, Malla, Nordentoft, Addington and Yung2010) for criticism and rebuttal of this and other aspects of EIS care. The provision of continued effective care for young people with psychosis after EIS is an important issue, discussed in greater detail elsewhere (Lester et al. Reference Lester, Khan, Jones, Marshall, Fowler, Amos and Birchwood2012). There is a strong economic justification for EIS. Per participant annual costs are lower than through standard care (McCrone et al. Reference McCrone, Park, Knapp, Knapp, McDaid and Parsonage2011), particularly over time (Valmaggia et al. Reference Valmaggia, McCrone, Knapp, Woolley, Broome, Tabraham, Johns, Prescott, Bramon, Lappin, Power and McGuire2009). Also, there is evidence that every pound or dollar spent on EIS leads to exponential downstream cost savings; these are associated with fewer future in-patient admissions, lower future treatment costs for mental and physical health problems, and indirect savings associated with people remaining in or entering employment (Mihalopoulos et al. Reference Mihalopoulos, Harris, Henry, Harrigan and McGorry2009; McCrone et al. Reference McCrone, Park, Knapp, Knapp, McDaid and Parsonage2011). Finally, EIS are seen as largely beneficial by the patients themselves and their carers (Lester et al. Reference Lester, Marshall, Jones, Fowler, Amos, Khan and Birchwood2011, Reference Lester, Khan, Jones, Marshall, Fowler, Amos and Birchwood2012).

The deployment of EIS has, however, attracted criticism on several grounds. These include lack of improvement in outcomes unless intervention is sustained (Marshall & Rathbone, Reference Marshall and Rathbone2011), possible lack of clinical improvement in symptoms over standard care in the longer term (Bertelsen et al. Reference Bertelsen, Jeppesen, Petersen, Thorup, Ohlenschlaeger, le Quach, Christensen, Krarup, Jorgensen and Nordentoft2008), issues surrounding the definition of caseness and DUP (Bosanac et al. Reference Bosanac, Patton and Castle2010), ethical issues raised by treating those in the prodromal (pre-clinical) phase of psychosis [including possible stigmatization (Raven et al. Reference Raven, Stuart and Jureidini2012) and the administration of medication to non-clinical groups who may never have gone on to develop psychosis (Pelosi & Birchwood, Reference Pelosi and Birchwood2003; Raven et al. Reference Raven, Stuart and Jureidini2012)], discontinuities in care pathways (Pelosi, Reference Pelosi2009) and possible age–sex discrimination (Pelosi & Birchwood, Reference Pelosi and Birchwood2003). Notwithstanding some evidence supporting the cost-effectiveness of EIS (Mihalopoulos et al. Reference Mihalopoulos, Harris, Henry, Harrigan and McGorry2009; Valmaggia et al. Reference Valmaggia, McCrone, Knapp, Woolley, Broome, Tabraham, Johns, Prescott, Bramon, Lappin, Power and McGuire2009; McCrone et al. Reference McCrone, Park, Knapp, Knapp, McDaid and Parsonage2011), one particular criticism of such services is that resources could have been better invested in other areas of psychosis and psychiatric care (Pelosi & Birchwood, Reference Pelosi and Birchwood2003; Pelosi, Reference Pelosi2009; Bosanac et al. Reference Bosanac, Patton and Castle2010). Kelly et al. (Reference Kelly, O'Meara Howard and Smith2007), for example, have highlighted the need for flexible, adaptive EIS to fit in with existing local healthcare practices and culturally influenced help-seeking behaviour in rural communities, where there may be insufficient demand for stand-alone EIS teams.

Parity of esteem, EIS delivery and local need

We, like Kelly et al. (Reference Kelly, O'Meara Howard and Smith2007), also note a more fundamental problem with EIS delivery: for such services to be efficient and effective they must be: (1) resourced according to anticipated local need; and (2) be designed to reflect the underlying sociocultural structure of the population at risk which they serve. We posit that mismatches between EIS delivery and utilization (see below) lie at the heart of continued controversies in regard to funding of EIS and other mental health services (Amos, Reference Amos2012; Mihalopoulos et al. Reference Mihalopoulos, McCrone, Knapp, Johannessen, Malla and McGorry2012). In countries where mental healthcare is predominantly provided by the state, addressing social and economic disparities in psychiatric morbidity and health service delivery has become an increasingly important political issue at a time of economic uncertainty (Department of Health, 2007, 2011; Council of Australian Governments, 2012). If EIS delivery can be based on more realistic models of predicted psychosis in different communities, centred on local need, then resources can be allocated more efficiently within the mental health system as a whole. The benefits of accurate prediction of local demand for EIS and other mental health services is not limited to potential gains in efficiency; explicitly modelling the underlying sociodemographic, economic and cultural determinants of mental health disorders should also reveal the probable structure of local demand, facilitating effective service delivery centred around the particular sociocultural needs of local populations. As such, a necessary precursor to achieving parity of esteem between physical and mental health will be creating the conditions for parity of esteem to arise within mental health, such that culturally sensitive resources are delivered efficiently and effectively based on local population needs across a range of mental health disorders. To do this, healthcare commissioners and policymakers need access to robust, precise predictions of anticipated service utilization, based on empirical data.

In this article, we showcase the development of one such tool, known as PsyMaptic (Psychiatric Mapping Translated into Innovations for Care; www.psymaptic.org) (see Fig. 1), which translates empirical population-based estimates of disease risk into expected morbidity in different populations, having taken into account variation in local population structures and exposure to socio-environmental characteristics associated with disorder. PsyMaptic is currently an incidence-based prediction tool for FEP in England and Wales, though the modelling methodology underpinning the tool (Kirkbride et al. Reference Kirkbride, Jackson, Perez, Fowler, Winton, Coid, Murray and Jones2013) can easily be extended to prevalence-based scenarios, other disorders or geographical regions where the epidemiology is well-characterized and accurate population denominator data are available. Here, we briefly set out the context under which the tool was developed, before providing an overview of the methodology, prediction validity and limitations of this approach.

Fig. 1. Schematic overview of the PsyMaptic prediction process. AESOP, Aetiology and Ethnicity in Schizophrenia and Other Psychoses; ELFEP, East London First Episode Psychosis; SEPEA, Social Epidemiology of Psychoses in East Anglia; PI, prediction interval; FEP, first-episode psychosis.

Background to EIS implementation in England

EIS for people aged 14–35 years old in England were nationally commissioned by the Department of Health in 2002, based on a uniform incidence rate for service resourcing of around 51 new cases per 100 000 people per year (Department of Health, 2001)Footnote 1 . Although the accompanying Mental Health Policy Implementation Guide (MH-PIG) specified that ‘[a]n understanding of local epidemiology is needed as the size of the population covered will depend on a number of different factors including: Geography of the area; Health and Social service boundaries, [and] Demography and epidemiology’ (Department of Health, 2001, p. 55), the Department of Health did not delineate how such variation should be integrated into service development. Since their inception anecdotal reports and service audits have emerged to suggest that under this uniform commissioning EIS capacity was either being outstripped by public utilization (Mahmmood & Fisher, Reference Mahmmood and Fisher2006), or that such services were operating under capacity (Tiffin & Glover, Reference Tiffin and Glover2007).

Although EIS funding is influenced by a range of local and national policy factors, and is not solely determined by anticipated caseloads, services in more deprived, urban populations were more likely to report running over capacity (Mahmmood & Fisher, Reference Mahmmood and Fisher2006; Lester et al. Reference Lester, Birchwood, Bryan, England, Rogers and Sirvastava2009). By contrast, while effective EIS delivery in rural areas faces a number of unique challenges (Craig, Reference Craig2003; Kelly et al. Reference Kelly, O'Meara Howard and Smith2007; Lester et al. Reference Lester, Birchwood, Bryan, England, Rogers and Sirvastava2009), rural services were generally more likely to see fewer than expected cases under the Department of Health's uniform rate (Tiffin & Glover, Reference Tiffin and Glover2007). In one audit, four of nine regional EIS leads suggested low caseloads ‘were partly due to the original targets overestimating the case prevalence [sic] in non-urban areas’ (Tiffin & Glover, Reference Tiffin and Glover2007). This mismatch threatens mental health service provision in different regions in different ways. In more urban areas, where the risk of psychotic disorder is elevated (Kirkbride et al. Reference Kirkbride, Errazuriz, Croudace, Morgan, Jackson, Boydell, Murray and Jones2012a ), services may not be able to meet targets to provide adequate care for services users. In less urban settings, where services may operate under capacity, future funding may be threatened if services do not meet national guidance which recommends that each key worker should manage a caseload of 15 service users.

Development of the PsyMaptic prediction tool

Fundamental to the development of our PsyMaptic prediction tool is the assertion that healthcare delivery should be evidence-based (McGorry, Reference McGorry2012). In developing PsyMaptic (Kirkbride et al. Reference Kirkbride, Jackson, Perez, Fowler, Winton, Coid, Murray and Jones2013) we investigated the validity of several different empirical models, informed by robust population-based FEP data from two large, methodologically similar epidemiological studies: the Aetiology and Ethnicity in Schizophrenia and Other Psychoses (ÆSOP) study and the East London First Episode Psychosis (ELFEP) study (Kirkbride et al. Reference Kirkbride, Fearon, Morgan, Dazzan, Morgan, Tarrant, Lloyd, Holloway, Hutchinson, Leff, Mallett, Harrison, Murray and Jones2006, Reference Kirkbride, Barker, Cowden, Stamps, Yang, Jones and Coid2008). These studies were conducted prior to the introduction of EIS, and included 1037 people aged 16–64 years with FEP. This allowed us to precisely estimate the incidence rates of psychotic disorders in different sociodemographic groups in three areas of England (London, Nottinghamshire and Bristol). A total of six different negative binomial regression models were tested, which all included age group, sex, their interaction, and ethnic group as important predictors of psychosis risk. In addition, five of these models included a measure of the social environment, including four different components of deprivation or population density at the local authority district (LAD) level (n = 21). We retained regression coefficients from each model, and applied them to the population at risk in a new region, in order to predict the expected count of FEP cases according to the size of the population in different sociodemographic strata, given the model. These models were tested in the catchment area of a markedly different region, East Anglia, at a later period in time (between 2009 and 2012), where we had concurrently estimated observed FEP incidence, aged 16–35 years, as seen through six EIS in the Social Epidemiology of Psychoses in East Anglia (SEPEA) study (Kirkbride et al. Reference Kirkbride, Stubbins and Jones2012c ). Only observed cases meeting International Classification of Diseases, tenth revision (ICD-10) clinical diagnosis for FEP 6 months after acceptance into the service were included in our comparison sample.

Validation of PsyMaptic prediction models

We validated each prediction model by comparing how closely it predicted observed caseloads in this new region according to a range of validation metrics (see Kirkbride et al. Reference Kirkbride, Jackson, Perez, Fowler, Winton, Coid, Murray and Jones2013). Our most accurate model for FEP prediction in EIS included age group, sex, their interaction, ethnic group and LAD-level population density. Overall this model predicted that 508 FEP cases, aged 16–35 years, would occur over a 2.5-year period in East Anglia, with a 95% prediction interval (95% PI) of 459–559 cases (Kirkbride et al. Reference Kirkbride, Jackson, Perez, Fowler, Winton, Coid, Murray and Jones2013). The observed number of FEP cases ascertained from the SEPEA study during this time period was 522. In addition, our model correctlyFootnote 2 predicted the number of cases observed in five out of six of our EIS and 19 out of 21 LADs. All our prediction models out-performed the Department of Health's uniform prediction rate, which over-predicted expected cases (716; 95% PI 664–769) overall, and only predicted accurately in two out of six and thirteen out of twenty-one EIS and LAD, respectively. We applied our best-fitting model to the 2009 mid-year population estimates for all LADs in England and Wales to obtain national estimates of the predicted annual incidence of psychotic disorders, which we have translated into a free tool for public mental health (www.psymaptic.org). Overall our model predicts 5826 new FEP cases per year (95% PI 5656–5990) in the age range 16–35 years in England, with just a further 92 cases in Wales (95% PI 75–114). This is considerably fewer than the Department of Health's previous estimate (n = 7500) (Department of Health, 2000).

Strengths and limitations of the PsyMaptic prediction tool

Our models are predicated on clinically relevant caseloads meeting ICD-10 diagnostic criteria for psychotic disorder 6 months after EIS acceptance. They are not based on the broader range of psychopathology often seen at initial referral to EIS, a problem sometimes compounded by the important EIS policy not to diagnose at first presentation in order to allow symptom evolution, and avoid stigmatizing young people who may (or may not) be in their first episode of psychosis. Services will therefore require sufficient resourcing to manage the broader referral base that they are likely to see beyond the strict diagnosis of ICD-10 psychotic disorder. Reducing the false-positive rate in EIS presents a separate opportunity to improve pathways to care within the health system, and improve the delivery of services to young people who may require some degree of psychiatric triage and signposting to the most appropriate service.

The accurate translation of epidemiological models of disease risk into tools for public mental health planning and service commissioning should increase the efficiency and effectiveness of mental health provision in healthcare systems throughout the world. PsyMaptic provides proof of concept of one such approach. Unlike the current ‘gold standard’ for EIS commissioning in England, our approach dynamically adapts to anticipated local need for psychosis services in young people, and is responsive to changes in the sociodemographic structure of different communities over time. Because the PsyMaptic model translates robust coefficients of psychosis risk to the sociodemographic and socio-environmental profiles of the underlying population at risk in different regions, it highlights those communities where annual demand for services is likely to be highest (or lowest). This information should facilitate more efficient allocation of finite resources to EIS where they are most needed. One natural extension of PsyMaptic would clearly be to develop and apply similar models to other psychiatric disorders where the epidemiology is well characterized, including common mental disorders, dementia and autism spectrum disorders. Our prediction models could also be adapted to focus on the supply of cross-disorder mental health teams, including crisis and home resolution teams, intake and treatment teams and child and adolescent mental health services. Furthermore, because PsyMaptic predictions are based on local need, this tool could provide service planners with an indication of the likely sociodemographic composition of their services, paving the way for the effective delivery of culturally sensitive mental health care services.

We hope that our translational tool is a valuable resource for newly formed clinical commissioning groups, service planners, and EIS leads and teams in England and Wales. In the future, we hope to deploy the tool in other international settings. Our tool may also have utility for researchers planning studies in particular populations (i.e. specific age or ethnic groups). Our proposed approach, if reliable, will meet recent calls by the Department of Health and other institutions, including the Royal College of Psychiatrists, Royal College of General Practitioners and the Royal Society of Public Health, that health service provision should be based around local need (Joint Commissioning Panel for Mental Health, 2012).

Conclusion

Our approach highlights local need for psychosis services according to age, sex, ethnic group and level of urbanization. As such it begins to illuminate those communities that are likely to face the largest inequalities in regard to the burden of severe mental illness. A body of international research (van Os et al. Reference van Os, Driessen, Gunther and Delespaul2000; Allardyce et al. Reference Allardyce, Gilmour, Atkinson, Rapson, Bishop and McCreadie2005; Veling et al. Reference Veling, Susser, van Os, Mackenbach, Selten and Hoek2008; Zammit et al. Reference Zammit, Lewis, Rasbash, Dalman, Gustafsson and Allebeck2010), including our own work in England (Kirkbride et al. Reference Kirkbride, Barker, Cowden, Stamps, Yang, Jones and Coid2008, Reference Kirkbride, Errazuriz, Croudace, Morgan, Jackson, Boydell, Murray and Jones2012a , Reference Kirkbride, Jones, Ullrich and Coid b ), now suggests that social inequalities themselves are associated with increased rates of psychotic illness. Tools to identify and tackle regional inequalities in the social and economic determinants of mental health and well-being, as well as in inequalities in the allocation of resources within and beyond the mental health system, can serve as the evidence base upon which to found effective service delivery for the prevention and management of mental health disorders. Developing these capabilities lies at the heart of many national political objectives to improve clinical, social and economic outcomes in people experiencing mental health problems, including in the USA (The White House, 2013) and UK (Department of Health, 2011). Parity of esteem between physical and mental health service provision will only begin to be achieved when we move towards parity of esteem within mental health systems. This will only be realized when service commissioning is underpinned by evidence-based tools that map psychiatric risk according to the local needs of different communities.

Acknowledgements

J.B.K. was supported by a Sir Henry Wellcome Research Fellowship from the Wellcome Trust (grant no. WT085540), through which the SEPEA study (www.sepea.org) was established. P.B.J. directs the National Institute for Health Research (NIHR) Collaboration for Leadership in Applied Health Research and Care (CLAHRC) for Cambridgeshire & Peterborough and is supported by NIHR grant no. RP-PG-0606-1335. The SEPEA study has been adopted by the Mental Health Research Network (MHRN). The authors are grateful to the clinical services and staff participating in the SEPEA study, and the MHRN for their support.

Declaration of Interest

None.

Footnotes

1 The Department of Health recommended a uniform rate to commission EIS, which ‘should manage 150 new cases per year… It is envisaged that each Early Intervention Service will cater for a population of around 1 million people.’ [Department of Health (2001), p. 55]. At the time 29.4% of the English population were estimated to be aged 14–35 years old, suggesting that EIS in England were commissioned on the basis of a uniform rate of 51.0 FEP cases per 100 000 person-years over the age range 14–35 years (i.e. [150/(1 000 000 × 0.294)] × 100 000).

2 We defined a ‘correct’ prediction to occur when the observed number of cases fell within the 95% PIs for a given estimate. See Kirkbride et al. (Reference Kirkbride, Jackson, Perez, Fowler, Winton, Coid, Murray and Jones2013) for full details of our methodology.

References

Addington, J, Cadenhead, KS, Cornblatt, BA, Mathalon, DH, McGlashan, TH, Perkins, DO, Seidman, LJ, Tsuang, MT, Walker, EF, Woods, SW, Addington, JA, Cannon, TD (2012). North American Prodrome Longitudinal Study (NAPLS 2): overview and recruitment. Schizophrenia Research 142, 7782.Google Scholar
Allardyce, J, Gilmour, H, Atkinson, J, Rapson, T, Bishop, J, McCreadie, RG (2005). Social fragmentation, deprivation and urbanicity: relation to first-admission rates for psychoses. British Journal of Psychiatry 187, 401406.Google Scholar
Amos, A (2012). Assessing the cost of early intervention in psychosis: a systematic review. Australian and New Zealand Journal of Psychiatry 46, 719734.Google Scholar
Bertelsen, M, Jeppesen, P, Petersen, L, Thorup, A, Ohlenschlaeger, J, le Quach, P, Christensen, TO, Krarup, G, Jorgensen, P, Nordentoft, M (2008). Five-year follow-up of a randomized multicenter trial of intensive early intervention vs standard treatment for patients with a first episode of psychotic illness: the OPUS Trial. Archives of General Psychiatry 65, 762771.Google Scholar
Bosanac, P, Patton, GC, Castle, DJ (2010). Early intervention in psychotic disorders: faith before facts? Psychological Medicine 40, 353358.Google Scholar
Brietzke, E, Araripe Neto, AG, Dias, A, Mansur, RB, Bressan, RA (2011). Early intervention in psychosis: a map of clinical and research initiatives in Latin America. Revista Brasileira de Psiquiatria 33 (Suppl. 2), s213s224.Google Scholar
Brown, S, Barraclough, BM, Inskip, H (2000). Causes of the excess mortality of schizophrenia. British Journal of Psychiatry 177, 212217.Google Scholar
Brown, S, Birtwistle, J, Roe, L, Thompson, C (1999). The unhealthy lifestyle of people with schizophrenia. Psychological Medicine 29, 697701.Google Scholar
Campion, J, Bhui, K, Bhugra, D (2012). European Psychiatric Association (EPA) guidance on prevention of mental disorders. European Psychiatry 27, 6880.Google Scholar
Caplan, B, Zimmet, SV, Meyer, EC, Friedman-Yakoobian, M, Monteleone, T, Jude Leung, Y, Guyer, ME, Rood, LL, Keshavan, MS, Seidman, LJ (2013). Prevention and recovery in early psychosis (PREP®): building a public–academic partnership program in Massachusetts, United States. Asian Journal of Psychiatry 6, 171177.CrossRefGoogle ScholarPubMed
Council of Australian Governments (2012). The Roadmap for National Mental Health Reform 2012–2022. Australian Government: Canberra.Google Scholar
Craig, T (2003). A step too soon or a step too far? Early intervention in psychosis. Journal of Mental Health 12, 335339.Google Scholar
Craig, TKJ, Garety, P, Power, P, Rahaman, N, Colbert, S, Fornells-Ambrojo, M, Dunn, G (2004). The Lambeth Early Onset (LEO) Team: randomised controlled trial of the effectiveness of specialised care for early psychosis. British Medical Journal 329, 1067.Google Scholar
Department of Health (2000). The NHS Plan: A Plan for Investment, a Plan for Reform. HMSO: London.Google Scholar
Department of Health (2001). Mental Health Policy Implementation Guide. National Health Service: London.Google Scholar
Department of Health (2007). Guidance on Joint Strategic Needs Assessment. Department of Health: London.Google Scholar
Department of Health (2011). No Health Without Mental Health: A Cross-Government Mental Health Outcomes Strategy for People of All Ages. Department of Health: London.Google Scholar
Egede, LE (2007). Major depression in individuals with chronic medical disorders: prevalence, correlates and association with health resource utilization, lost productivity and functional disability. General Hospital Psychiatry 29, 409416.Google Scholar
Garety, PA, Craig, TK, Dunn, G, Fornells-Ambrojo, M, Colbert, S, Rahaman, N, Read, J, Power, P (2006). Specialised care for early psychosis: symptoms, social functioning and patient satisfaction: randomised controlled trial. British Journal of Psychiatry 188, 3745.Google Scholar
Grant, BF, Hasin, DS, Chou, SP, Stinson, FS, Dawson, DA (2004). Nicotine dependence and psychiatric disorders in the United States: results from the National Epidemiologic Survey on Alcohol and Related Conditions. Archives of General Psychiatry 61, 11071115.Google Scholar
Gustavsson, A, Svensson, M, Jacobi, F, Allgulander, C, Alonso, J, Beghi, E, Dodel, R, Ekman, M, Faravelli, C, Fratiglioni, L, Gannon, B, Jones, DH, Jennum, P, Jordanova, A, Jonsson, L, Karampampa, K, Knapp, M, Kobelt, G, Kurth, T, Lieb, R, Linde, M, Ljungcrantz, C, Maercker, A, Melin, B, Moscarelli, M, Musayev, A, Norwood, F, Preisig, M, Pugliatti, M, Rehm, J, Salvador-Carulla, L, Schlehofer, B, Simon, R, Steinhausen, HC, Stovner, LJ, Vallat, JM, Van den Bergh, P, van Os, J, Vos, P, Xu, W, Wittchen, HU, Jonsson, B, Olesen, J (2011). Cost of disorders of the brain in Europe 2010. European Neuropsychopharmacology 21, 718779.CrossRefGoogle ScholarPubMed
Hui, CL, Chang, WC, Chan, SK, Lee, EH, Tam, WW, Lai, DC, Wong, GH, Tang, JY, Li, FW, Leung, KF, McGhee, SM, Sham, PC, Chen, EY (2013). Early intervention and evaluation for adult-onset psychosis: the JCEP study rationale and design. Early Intervention in Psychiatry. Published online 28 02 2013 . doi:10.1111/eip.12034.Google Scholar
Iyer, SN, Mangala, R, Thara, R, Malla, AK (2010). Preliminary findings from a study of first-episode psychosis in Montreal, Canada and Chennai, India: comparison of outcomes. Schizophrenia Research 121, 227233.Google Scholar
James, S, Das, D (2012). Tobacco smoking in the Leicestershire Early Intervention in Psychosis Service: patient survey and service development. Early Intervention in Psychiatry 6, 110110.Google Scholar
Joint Commissioning Panel for Mental Health (2012). Guidance for the Commissioning of Public Mental Health Services. Royal College of Psychiatry: London.Google Scholar
Kelly, M, O'Meara Howard, A, Smith, J (2007). Early intervention in psychosis: a rural perspective. Journal of Psychiatric and Mental Health Nursing 14, 203208.CrossRefGoogle ScholarPubMed
Kirkbride, JB, Barker, D, Cowden, F, Stamps, R, Yang, M, Jones, PB, Coid, JW (2008). Psychoses, ethnicity and socio-economic status. British Journal of Psychiatry 193, 1824.CrossRefGoogle ScholarPubMed
Kirkbride, JB, Errazuriz, A, Croudace, TJ, Morgan, C, Jackson, D, Boydell, J, Murray, RM, Jones, PB (2012 a). Incidence of schizophrenia and other psychoses in England, 1950–2009: a systematic review and meta-analyses. PLOS ONE 7, e31660.Google Scholar
Kirkbride, JB, Fearon, P, Morgan, C, Dazzan, P, Morgan, K, Tarrant, J, Lloyd, T, Holloway, J, Hutchinson, G, Leff, JP, Mallett, RM, Harrison, GL, Murray, RM, Jones, PB (2006). Heterogeneity in incidence rates of schizophrenia and other psychotic syndromes: findings from the 3-center ÆSOP Study. Archives of General Psychiatry 63, 250258.Google Scholar
Kirkbride, JB, Jackson, D, Perez, J, Fowler, D, Winton, F, Coid, JW, Murray, RM, Jones, PB (2013). A population-level prediction tool for the incidence of first-episode psychosis: translational epidemiology based on cross-sectional data. BMJ Open 3, e001998.Google Scholar
Kirkbride, JB, Jones, PB, Ullrich, S, Coid, JW (2012 b). Social deprivation, inequality, and the neighborhood-level incidence of psychotic syndromes in East London. Schizophrenia Bulletin. Published online 12 12 2012 . doi:10.1093/schbul/sbs151.Google Scholar
Kirkbride, JB, Stubbins, C, Jones, PB (2012 c). Psychosis incidence through the prism of early intervention services. British Journal of Psychiatry 200, 156157.CrossRefGoogle ScholarPubMed
Kohn, R, Saxena, S, Levav, I, Saraceno, B (2004). The treatment gap in mental health care. Bulletin of the World Health Organization 82, 858866.Google ScholarPubMed
Koike, S, Nishida, A, Yamasaki, S, Ichihashi, K, Maegawa, S, Natsubori, T, Harima, H, Kasai, K, Fujita, I, Harada, M, Okazaki, Y (2011). Comprehensive early intervention for patients with first-episode psychosis in Japan (J-CAP): study protocol for a randomised controlled trial. Trials 12, 156.CrossRefGoogle ScholarPubMed
Lasser, K, Boyd, JW, Woolhandler, S, Himmelstein, DU, McCormick, D, Bor, DH (2000). Smoking and mental illness: a population-based prevalence study. Journal of the American Medical Association 284, 26062610.Google Scholar
Laursen, TM, Munk-Olsen, T, Vestergaard, M (2012). Life expectancy and cardiovascular mortality in persons with schizophrenia. Current Opinion in Psychiatry 25, 8388.Google Scholar
Lawrence, D, Kisely, S, Pais, J (2010). The epidemiology of excess mortality in people with mental illness. Canadian Journal of Psychiatry 55, 752760.Google Scholar
Lee, MS, Ahn, SR, Park, JI, Chung, YC (2012). Development of an early psychosis intervention system in Korea: focus on the continuing care system for first-episode psychosis treatment in Seoul. East Asian Archives of Psychiatry 22, 105109.Google Scholar
Lester, H, Birchwood, M, Bryan, S, England, E, Rogers, H, Sirvastava, N (2009). Development and implementation of early intervention services for young people with psychosis: case study. British Journal of Psychiatry 194, 446450.Google Scholar
Lester, H, Khan, N, Jones, P, Marshall, M, Fowler, D, Amos, T, Birchwood, M (2012). Service users’ views of moving on from early intervention services for psychosis: a longitudinal qualitative study in primary care. British Journal of General Practice 62, e183e190.CrossRefGoogle ScholarPubMed
Lester, H, Marshall, M, Jones, P, Fowler, D, Amos, T, Khan, N, Birchwood, M (2011). Views of young people in early intervention services for first-episode psychosis in England. Psychiatric Services 62, 882887.Google Scholar
Lord, O, Malone, D, Mitchell, AJ (2010). Receipt of preventive medical care and medical screening for patients with mental illness: a comparative analysis. General Hospital Psychiatry 32, 519543.Google Scholar
Mahmmood, MA, Fisher, H (2006). The incidence of first episode psychosis in inner London: findings from the Lambeth Early Onset (LEO) service. Schizophrenia Research 86, 0548.Google Scholar
Mangalore, R, Knapp, M (2007). Cost of schizophrenia in England. Journal of Mental Health Policy and Economics 10, 2341.Google Scholar
Marshall, M, Lewis, S, Lockwood, A, Drake, R, Jones, P, Croudace, T (2005). Association between duration of untreated psychosis and outcome in cohorts of first-episode patients: a systematic review. Archives of General Psychiatry 62, 975983.Google Scholar
Marshall, M, Rathbone, J (2011). Early intervention for psychosis. Schizophrenia Bulletin 37, 11111114.Google Scholar
McCreadie, RG (2003). Diet, smoking and cardiovascular risk in people with schizophrenia. British Journal of Psychiatry 183, 534539.Google Scholar
McCrone, P, Park, A-L, Knapp, M (2011). Early intervention for psychosis. In Mental Health Promotion and Mental Illness Prevention (ed. Knapp, M., McDaid, D. and Parsonage, M.), pp. 1617. Department of Health: London.Google Scholar
McGorry, P (2012). At issue: Cochrane, early intervention, and mental health reform: analysis, paralysis, or evidence-informed progress? Schizophrenia Bulletin 38, 221224.Google Scholar
McGorry, P, Johanessen, JO, Lewis, S, Birchwood, M, Malla, A, Nordentoft, M, Addington, J, Yung, A (2010). Early intervention in psychosis: keeping faith with evidence-based health care. Psychological Medicine 40, 399404.Google Scholar
McGorry, PD, Edwards, J, Mihalopoulos, C, Harrigan, SM, Jackson, HJ (1996). EPPIC: an evolving system of early detection and optimal management. Schizophrenia Bulletin 22, 305326.Google Scholar
McManus, S, Meltzer, H, Campion, J (2010). Cigarette Smoking and Mental Health in England: Data from the Adult Psychiatric Morbidity Survey 2007. National Centre for Social Research: London.Google Scholar
Mihalopoulos, C, Harris, M, Henry, L, Harrigan, S, McGorry, P (2009). Is early intervention in psychosis cost-effective over the long term? Schizophrenia Bulletin 35, 909918.Google Scholar
Mihalopoulos, C, McCrone, P, Knapp, M, Johannessen, JO, Malla, A, McGorry, P (2012). The costs of early intervention in psychosis: restoring the balance. Australian and New Zealand Journal of Psychiatry 46, 808811.Google Scholar
Mitchell, AJ, Malone, D, Doebbeling, CC (2009). Quality of medical care for people with and without co-morbid mental illness and substance misuse: systematic review of comparative studies. British Journal of Psychiatry 194, 491499.Google Scholar
Mortensen, PB, Juel, K (1993). Mortality and causes of death in first admitted schizophrenic patients. British Journal of Psychiatry 163, 183189.Google Scholar
Moussavi, S, Chatterji, S, Verdes, E, Tandon, A, Patel, V, Ustun, B (2007). Depression, chronic diseases, and decrements in health: results from the World Health Surveys. Lancet 370, 851858.Google Scholar
Pelosi, A (2009). Is early intervention in the major psychiatric disorders justified? No. British Medical Journal 337, a710.Google Scholar
Pelosi, AJ, Birchwood, M (2003). Is early intervention for psychosis a waste of valuable resources? British Journal of Psychiatry 182, 196198.CrossRefGoogle ScholarPubMed
Perkins, DO, Gu, H, Boteva, K, Lieberman, JA (2005). Relationship between duration of untreated psychosis and outcome in first-episode schizophrenia: a critical review and meta-analysis. American Journal of Psychiatry 162, 17851804.Google Scholar
Raven, M, Stuart, GW, Jureidini, J (2012). ‘Prodromal’ diagnosis of psychosis: ethical problems in research and clinical practice. Australian and New Zealand Journal of Psychiatry 46, 6465.Google Scholar
Rossler, W, Salize, HJ, van Os, J, Riecher-Rossler, A (2005). Size of burden of schizophrenia and psychotic disorders. European Neuropsychopharmacology 15, 399409.Google Scholar
Royal College of Psychiatrists (2012). Joint Call for Parity of Esteem on World Mental Health Day. Royal College of Psychiatrists: London.Google Scholar
Royal College of Psychiatrists (2013). Whole-Person Care: From Rhetoric to Reality. Royal College of Psychiatrists: London.Google Scholar
Saha, S, Chant, D, McGrath, J (2007). A systematic review of mortality in schizophrenia: is the differential mortality gap worsening over time? Archives of General Psychiatry 64, 11231131.Google Scholar
The White House (2013). Background on the National Conference on Mental Health. Office of the Press Secretary: Washington, DC.Google Scholar
Tiffin, PA, Glover, G (2007). From commitment to reality: early intervention in psychosis services in England. Early Intervention in Psychiatry 1, 104107.Google Scholar
Valmaggia, LR, McCrone, P, Knapp, M, Woolley, JB, Broome, MR, Tabraham, P, Johns, LC, Prescott, C, Bramon, E, Lappin, J, Power, P, McGuire, PK (2009). Economic impact of early intervention in people at high risk of psychosis. Psychological Medicine 39, 16171626.Google Scholar
van Os, J, Driessen, G, Gunther, N, Delespaul, P (2000). Neighbourhood variation in incidence of schizophrenia. Evidence for person–environment interaction. British Journal of Psychiatry 176, 243248.Google Scholar
Veling, W, Susser, E, van Os, J, Mackenbach, JP, Selten, J-P, Hoek, HW (2008). Ethnic density of neighborhoods and incidence of psychotic disorders among immigrants. American Journal of Psychiatry 165, 6673.Google Scholar
Wade, D, Harrigan, S, Edwards, J, Burgess, PM, Whelan, G, McGorry, PD (2006). Course of substance misuse and daily tobacco use in first-episode psychosis. Schizophrenia Research 81, 145150.Google Scholar
Zammit, S, Lewis, G, Rasbash, J, Dalman, C, Gustafsson, J-E, Allebeck, P (2010). Individuals schools, and neighborhood: a multilevel longitudinal study of variation in incidence of psychotic disorders. Archives of General Psychiatry 67, 914922.Google Scholar
Figure 0

Fig. 1. Schematic overview of the PsyMaptic prediction process. AESOP, Aetiology and Ethnicity in Schizophrenia and Other Psychoses; ELFEP, East London First Episode Psychosis; SEPEA, Social Epidemiology of Psychoses in East Anglia; PI, prediction interval; FEP, first-episode psychosis.