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‘At risk mental state’ clinics for psychosis – an idea whose time has come – and gone!

Published online by Cambridge University Press:  26 December 2018

Olesya Ajnakina Open the ORCID record for Olesya Ajnakina [Opens in a new window] ,
Anthony S. David  and
Robin M. Murray
Olesya Ajnakina*
Affiliation:
Institute of Psychiatry, Psychology and Neuroscience, King's College London, De Crespigny Park, London, UK Department of Behavioural Science and Health, Institute of Epidemiology and Health Care, University College London, London, UK
Anthony S. David
Affiliation:
Institute of Mental Health, University College London, London, UK
Robin M. Murray
Affiliation:
Institute of Psychiatry, Psychology and Neuroscience, King's College London, De Crespigny Park, London, UK Department of Psychiatry, Experimental Biomedicine and Clinical Neuroscience (BIONEC), University of Palermo, Palermo, Italy
*
Author for correspondence: Dr Olesya Ajnakina, E-mail: olesya.ajnakina@kcl.ac.uk
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Abstract

At Risk Mental State (ARMS) clinics are specialised mental health services for young, help-seeking people, thought to be at ultra-high risk of developing psychosis. Their stated purpose is to reduce transitions from the ARMS state to clinical psychotic disorder. Reports of ARMS clinics provide ‘evidence-based recommendations’ or ‘guidance’ for the treatment of such individuals, and claim that such clinics prevent the development of psychosis. However, we note that in an area with a very well-developed ARMS clinic (South London), only a very small proportion (4%) of patients with first episode psychosis had previously been seen at this clinic with symptoms of the ARMS. We conclude that the task of reaching sufficient people to make a major contribution to the prevention of psychosis is beyond the power of ARMS clinics. Following the preventative approaches used for many medical disorders (e.g. lung cancer, coronary artery disease), we consider that a more effective way of preventing psychosis will be to adopt a public health approach; this should attempt to decrease exposure to environmental factors such as cannabis use which are known to increase risk of the disorder.

Keywords

At risk mental statepathways to carepsychosisschizophreniatransition.
Type
Editorial
Information
Psychological Medicine , Volume 49 , Issue 4 , March 2019 , pp. 529 - 534
Copyright
Copyright © Cambridge University Press 2018 

Introduction

The idea of early intervention (EI) services for people suffering from their first episode of psychosis (FEP) was conceived as a way to improve the long-term outcomes of the illness (Falloon, Reference Falloon1992; Falloon et al., Reference Falloon, Kydd, Coverdale and Laidlaw1996). Indeed, the results of EI services, such as the Lambeth Early Onset (Craig et al., Reference Craig, Garety, Power, Rahaman, Colbert, Fornells-Ambrojo and Dunn2004) and OPUS (Hastrup et al., Reference Hastrup, Kronborg, Bertelsen, Jeppesen, Jorgensen, Petersen, Thorup, Simonsen and Nordentoft2013), have been encouraging and led to such services becoming widely established. In a further extension of the idea, specific clinical criteria were proposed to identify people who were at high clinical risk of developing psychosis in the subsequent 1–2 years (Yung et al., Reference Yung, McGorry, McFarlane, Jackson, Patton and Rakkar1996, Reference Yung, Stanford, Cosgrave, Killackey, Phillips, Nelson and McGorry2006). The definition of this pre-psychosis phase in which people manifested the At Risk Mental State (ARMS) (Fusar-Poli et al., Reference Fusar-Poli, Byrne, Badger, Valmaggia and McGuire2013) was followed by claims that identification of such individuals who were at ultra-high risk (UHR) of developing psychosis, provides a valuable opportunity to prevent a substantial proportion of pre-psychotic individuals from transitioning to clinical psychosis (Yung et al., Reference Yung, Yuen, McGorry, Phillips, Kelly, Dell'Olio, Francey, Cosgrave, Killackey, Stanford, Godfrey and Buckby2005). Subsequently, detection of young people with the ARMS has become a popular prevention strategy (Reddy, Reference Reddy2014) with the creation of ARMS clinics in many countries (Yung et al., Reference Yung, Stanford, Cosgrave, Killackey, Phillips, Nelson and McGorry2006; Addington et al., Reference Addington, Epstein, Reynolds, Furimsky, Rudy, Mancini, McMillan, Kirsopp and Zipursky2008; Fusar-Poli et al., Reference Fusar-Poli, Byrne, Badger, Valmaggia and McGuire2013; Cannon et al., Reference Cannon, Yu, Addington, Bearden, Cadenhead, Cornblatt, Heinssen, Jeffries, Mathalon, McGlashan, Perkins, Seidman, Tsuang, Walker, Woods and Kattan2016).

ARMS clinics are specialised mental health services for help-seeking people, who are usually aged 14–35 years old and considered to be at UHR of developing psychosis. The stated purpose of these clinics is to reduce, or deter, transitions from the ARMS state to clinical psychosis (Green et al., Reference Green, McGuire, Ashworth and Valmaggia2011; Fusar-Poli et al., Reference Fusar-Poli, Byrne, Badger, Valmaggia and McGuire2013). Many studies of ARMS clinics report evidence for their benefits and provide ‘evidence-based recommendations’ or ‘guidance’ for the treatment of such individuals (Killackey and Yung, Reference Killackey and Yung2007). However, the strength of such claims has not been established (Morrison et al., Reference Morrison, French, Stewart, Birchwood, Fowler, Gumley, Jones, Bentall, Lewis, Murray, Patterson, Brunet, Conroy, Parker, Reilly, Byrne, Davies and Dunn2012). The purposes of this article are two-fold. First, we sought to review the robustness of the claims that ARMS clinics have the capacity to prevent transition to psychosis; and second, we aim to raise the question of whether it may be more beneficial for prevention of psychosis to adopt a public health approach, which in turn would target risk factors for the illness onset rather than focusing on the ARMS phase.

Defining the At Risk Mental State (ARMS) phase

The ARMS phase is characterised by either ‘attenuated’ psychotic symptoms, or full-blown psychotic symptoms that are brief and self-limiting (Fusar-Poli et al., Reference Fusar-Poli, Byrne, Badger, Valmaggia and McGuire2013). It may also manifest as a significant decrease in functioning in the context of a familial (presumed genetic) risk for schizophrenia, or subtle subjective disturbances of cognitive processes, thinking, perception, moods and behaviours (Yung et al., Reference Yung, Phillips, Yuen, Francey, McFarlane, Hallgren and McGorry2003, Reference Yung, Stanford, Cosgrave, Killackey, Phillips, Nelson and McGorry2006). To increase objectivity and diagnostic accuracy of this construct, several scales, such as the Comprehensive Assessment of At-Risk Mental States (CAARMS) (Yung et al., Reference Yung, Yuen, McGorry, Phillips, Kelly, Dell'Olio, Francey, Cosgrave, Killackey, Stanford, Godfrey and Buckby2005) and the Structured Interview for Prodromal Syndromes/Scale of Prodromal Symptoms (SIPS/SOPS) (Miller et al., Reference Miller, McGlashan, Rosen, Cadenhead, Cannon, Ventura, McFarlane, Perkins, Pearlson and Woods2003; Woods et al., Reference Woods, Addington, Cadenhead, Cannon, Cornblatt, Heinssen, Perkins, Seidman, Tsuang, Walker and McGlashan2009) have been designed to measure these symptoms with arguably reasonable inter-rater reliability (Loewy et al., Reference Loewy, Pearson, Vinogradov, Bearden and Cannon2011).

However, it has been reported that as many as 84% of those individuals who were identified as being at risk for the illness using these scales did not develop a psychotic disorder within 2–3 years (i.e. these individuals are normally referred to as ‘false positives’) (Corcoran et al., Reference Corcoran, First and Cornblatt2010). Even when the diagnosis of the ARMS was made by experienced clinicians, the false-positive rate remained substantially high (47%) (Yung et al., Reference Yung, Nelson, Stanford, Simmons, Cosgrave, Killackey, Phillips, Bechdolf, Buckby and McGorry2008). This may suggest that the difficulty in identifying individuals with the ARMS lies in defining the construct. Indeed, it has been shown that the proportion of adolescents who meet criteria for the ARMS varies from 0.9 to 22.6% depending on slight variations in the ARMS criteria (Kelleher et al., Reference Kelleher, Murtagh, Molloy, Roddy, Clarke, Harley and Cannon2012). Furthermore, attempts to identify specific biological markers of the ARMS phase and predictors of a transition from the ARMS to clinical psychosis have been unsuccessful (Castle, Reference Castle2012; Wood et al., Reference Wood, Reniers and Heinze2013). It has therefore been argued that EI on the basis of the screening criteria for subclinical psychosis is not feasible in the general population (van Os, Reference van Os2005).

Services for the ARMS phase create useful pathways to care – but for whom?

Most clinics for young people who meet criteria for the ARMS, accept referrals via a wide range of means including mental and non-mental health professionals, and non-health organisations (Green et al., Reference Green, McGuire, Ashworth and Valmaggia2011; Fusar-Poli et al., Reference Fusar-Poli, Byrne, Badger, Valmaggia and McGuire2013). These teams attempt to respond to all referrals and conduct the first assessment within the first week of the referral being made. This is considerably shorter than most psychiatric services can offer. For those patients who are judged to meet criteria for the ARMS, the services provide a 2–3 year treatment plan (Green et al., Reference Green, McGuire, Ashworth and Valmaggia2011).

However, there is a question of whether individuals who contact the ARMS services and meet criteria for the ARMS are representative of all pre-psychotic individuals. For example, Ajnakina et al. (Reference Ajnakina, Morgan, Gayer-Anderson, Oduola, Bourque, Bramley, Williamson, MacCabe, Dazzan, Murray and David2017) showed that those with the ARMS, who attended an ARMS clinic in South-London and later developed clinical psychosis, were more likely than those FEP patients who had not attended such a clinic, to be born in the UK and have strong family support, with migrants being less likely to access the services. Others showed that the young people who met criteria for the ARMS and attended an ARMS clinic were likely to be employed and have higher educational achievements (Addington et al., Reference Addington, Cadenhead, Cornblatt, Mathalon, McGlashan, Perkins, Seidman, Tsuang, Walker, Woods, Addington and Cannon2012; Valmaggia et al., Reference Valmaggia, Byrne, Day, Broome, Johns, Howes, Power, Badger, Fusar-Poli and McGuire2015).

The reason for such differences is likely to be that the ARMS services require individuals to be help-seeking. Migrants and ethnic minorities are well-known to be less trusting of mental health services than those from the host population (Morgan et al., Reference Morgan, Abdul-Al, Lappin, Jones, Fearon, Leese, Croudace, Morgan, Dazzan, Craig, Leff and Murray2006). Availability of supportive families and strong social networks, which are frequently absent in those with clinical psychotic illness (Sundermann et al., Reference Sundermann, Onwumere, Kane, Morgan and Kuipers2014), are also important factors for help-seeking (Morgan et al., Reference Morgan, Abdul-Al, Lappin, Jones, Fearon, Leese, Croudace, Morgan, Dazzan, Craig, Leff and Murray2006). Moreover, to recognise ‘not-quite-psychotic’ symptoms, the potential patients or their relatives, need to have some knowledge of such symptoms plus insight into their potential illness significance. It is not surprising, therefore, that those patients who have been accepted under the care of the ARMS services have better insight compared with psychosis patients who do not reach these services (Lappin et al., Reference Lappin, Morgan, Valmaggia, Broome, Woolley, Johns, Tabraham, Bramon and McGuire2007). Another reason why prodromal samples cannot be representative of all pre-psychotic individuals is that some patients present so acutely (Ajnakina et al., Reference Ajnakina, Morgan, Gayer-Anderson, Oduola, Bourque, Bramley, Williamson, MacCabe, Dazzan, Murray and David2017) that even if they were willing to accept help there is no time to intervene (Shah et al., Reference Shah, Crawford, Mustafa, Iyer, Joober and Malla2017). Therefore, the evidence suggests that under current pathway configurations, services for those who meet the criteria for the ARMS appear to attract a subgroup of pre-psychotic individuals who are atypical of all those people who will develop FEP. This in turn should raise some doubts as to whether some of the benefits claimed for ARMS clinics (Valmaggia et al., Reference Valmaggia, Byrne, Day, Broome, Johns, Howes, Power, Badger, Fusar-Poli and McGuire2015) are actually a reflection of the population attracted to the ARMS clinics, rather than the care offered by the clinics. The nature of the unselected, representative and non-help seeking population samples remains unknown.

Have the transition rates fallen?

Early studies reported that 30–54% of those with the ARMS went on to develop full psychotic disorder in the following 12–24 months (Miller et al., Reference Miller, McGIashan, Rosen, Somjee, Markovich, Stein and Woods2002; Yung et al., Reference Yung, Phillips, Yuen, Francey, McFarlane, Hallgren and McGorry2003; Fusar-Poli et al., Reference Fusar-Poli, Bonoldi, Yung, Borgwardt, Kempton, Valmaggia, Barale, Caverzasi and McGuire2012). Some more recent reports, however, have suggested that the transition rates from the ARMS phase to clinical psychosis are as low as 8–17% within a 2-year period (Morrison et al., Reference Morrison, French, Stewart, Birchwood, Fowler, Gumley, Jones, Bentall, Lewis, Murray, Patterson, Brunet, Conroy, Parker, Reilly, Byrne, Davies and Dunn2012; Carrion et al., Reference Carrion, Cornblatt, Burton, Tso, Auther, Adelsheim, Calkins, Carter, Niendam, Sale, Taylor and McFarlane2016; Conrad et al., Reference Conrad, Lewin, Sly, Schall, Halpin, Hunter and Carr2017; Malla et al., Reference Malla, de Bonneville, Shah, Jordan, Pruessner, Faridi, Rabinovitch, Iyer and Joober2017). It is possible that the reduced reported transition rates may be an outcome of successful interventions implemented by ARMS clinics (McGorry et al., Reference McGorry, Hickie, Yung, Pantelis and Jackson2006; Nelson et al., Reference Nelson, Yuen, Lin, Wood, McGorry, Hartmann and Yung2016).

However, it is likely that the reduced estimated transition rates are, at least in part, a consequence of other factors such as changes in characteristics of the sample or their pathways to care (Wiltink et al., Reference Wiltink, Velthorst, Nelson, McGorry and Yung2015) as well as different definitions of what constitutes transition to psychosis employed across studies (van Os and Guloksuz, Reference van Os and Guloksuz2017). Further, van Os (Reference van Os2005) highlighted that the high positive predictive values presented by some studies when predicting the transition from the ARMS phase to clinical psychosis (Miller et al., Reference Miller, McGIashan, Rosen, Somjee, Markovich, Stein and Woods2002; Yung et al., Reference Yung, Phillips, Yuen, Francey, McFarlane, Hallgren and McGorry2003) are actually an outcome of the sample enrichment that results from the mainstream sample selection procedures. This in turn leads to spuriously increased incidence and predictive values (van Os, Reference van Os2005). In fact, when the transition rate was estimated based on the actual prevalence of the ARMS in the general population it was shown to be around 1% (van Os, Reference van Os2005).

Another important reason why transition rates are lower than previously reported may be that the identified pre-psychotic patients are diluted in more recent studies by large numbers of patients with other psychiatric problems. This may be due to referrers realising that the clinics provide an opportunity for a rapid clinical assessment of distressed young people. A recent review suggested that over 80% of individuals referred to as ‘at risk for psychosis’ will never develop clinical psychosis (van Os and Reininghaus, Reference van Os and Reininghaus2016). This raises ethical issues relating to medication exposure and stigma among those who were false-positives (McGlashan, Reference McGlashan2001; Bentall and Morrison, Reference Bentall and Morrison2002). Even for those individuals who were identified at UHR by the ARMS services, the evidence for effectiveness of the interventions that these prodromal clinics offer is weak (Castle, Reference Castle2012).

Criticisms of the ARMS concept

The assumption behind AMRS clinics is that the ARMS state is what van Os and Murray RM (Reference van Os and Murray2013) called a ‘schizophrenia light’: defined according to an (arbitrary) cut-off of psychosis severity or a (similarly arbitrary) diagnostic concept of ‘schizophrenia spectrum’. People can cross and re-cross this boundary several times (van Os and Murray, Reference van Os and Murray2013). As the expression of psychosis naturally fluctuates in intensity and severity within individuals over time, temporary amelioration of psychosis at the time of the baseline assessment may cause these people to be wrongly assigned to the UHR group rather than the psychotic group.

Furthermore, psychotic symptoms are much more common than previously realised. Indeed, they are found in about 5% of the general population, 9% of adolescents and 25% of people with (non-psychotic) common mental disorders (Linscott and Van Os, Reference Linscott and Van Os2013; Zammit et al., Reference Zammit, Kounali, Cannon, David, Gunnell, Heron, Jones, Lewis, Sullivan, Wolke and Lewis2013; van Os and Reininghaus, Reference van Os and Reininghaus2016). Interestingly, one study found that 16% of non-psychotic young people who were assessed and found not to meet the UHR criteria made a transition to clinical psychosis (Carr, Reference Carr2012). These figures vary depending on different methods of data acquisition and categorisation (David, Reference David2010). Thus, it is difficult to define with certainty when an individual transits from pre-psychotic symptoms to the ARMS, and at the other end from the ARMS to clinical psychosis (David and Ajnakina, Reference David and Ajnakina2016).

To further complicate matters, the symptoms that are at the core of the definition of the ARMS phase are frequently present in other mental disorders (Kelleher et al., Reference Kelleher, Murtagh, Molloy, Roddy, Clarke, Harley and Cannon2012; van Os and Guloksuz, Reference van Os and Guloksuz2017). Studies of UHR groups show that they consist largely of people with common mental disorders such as anxiety and depression (Fusar-Poli et al., Reference Fusar-Poli, Nelson, Valmaggia, Yung and McGuire2014; Addington et al., Reference Addington, Piskulic, Liu, Lockwood, Cadenhead, Cannon, Cornblatt, McGlashan, Perkins, Seidman, Tsuang, Walker, Bearden, Mathalon and Woods2017). Therefore, the presence of psychotic symptoms in themselves should not be seen as an indication of the risk to making the transition to psychosis (Murray and Jones, Reference Murray and Jones2012).

ARMS clinics are morphing into clinics for youth mental health

The realisation that the most common diagnoses reported in young people attending the ARMS clinics are anxiety, depression and personality disorders (Kelleher et al., Reference Kelleher, Murtagh, Molloy, Roddy, Clarke, Harley and Cannon2012) prompted McGorry, one of the founders of the ARMS movement, to broaden the scope of such clinics from focussing on those at risk for psychosis to becoming more general outreach clinics for youth who are at risk for any mental disorders (McGorry et al., Reference McGorry, Bates and Birchwood2013; Malla et al., Reference Malla, Iyer, McGorry, Cannon, Coughlan, Singh, Jones and Joober2016). Thus, the idea of specific clinics for pre-psychotic individuals has been replaced with cross-diagnostic youth mental health facilities with much broader and more inclusive (and laudable) purpose of identifying and caring for young people with mental health problems (McGorry et al., Reference McGorry, Bates and Birchwood2013; Malla et al., Reference Malla, Iyer, McGorry, Cannon, Coughlan, Singh, Jones and Joober2016). The inclusive concept of youth mental health is broad enough to encompass any potential abnormality and does not require being either severe or specific enough to warrant a clinical diagnosis. This approach has much to commend it but an early evaluation of such services in Australia found that evidence of benefit was inconclusive (Hilferty et al., Reference Hilferty, Cassells, Muir, Duncan, Christensen, Mitrou, Gao, Mavisakalyan, Hafekost, Tarverdi, Nguyen, Wingrove and Katz2015).

A public health approach

Can prodromal clinics ever prevent development of clinical psychosis in a significant number of pre-psychotic individuals? Ajnakina et al. (Reference Ajnakina, Morgan, Gayer-Anderson, Oduola, Bourque, Bramley, Williamson, MacCabe, Dazzan, Murray and David2017) carried out a comprehensive evaluation of FEP patients in an area of South-London which has had a well-developed ARMS service for more than 10 years serving the same catchment area. They found that only 4.1% of FEP patients had previously made contact with ARMS services and met the ARMS criteria (most presented to FEP psychosis directly or via other routes). This very low proportion suggests that the scope for ARMS services reducing or postponing the onset of psychosis is limited as is their public health or economic impact (van Os and Guloksuz, Reference van Os and Guloksuz2017).

We recognise, of course, that ARMS clinics have provided a valuable source of pre-psychotic patients for research. This in turn has ignited an explosion of research findings (Walker et al., Reference Walker, Trotman, Pearce, Addington, Cadenhead, Cornblatt, Heinssen, Mathalon, Perkins, Seidman, Tsuang, Cannon, McGlashan and Woods2013; Anticevic et al., Reference Anticevic, Haut, Murray, Repovs, Yang, Diehl, McEwen, Bearden, Addington, Goodyear, Cadenhead, Mirzakhanian, Cornblatt, Olvet, Mathalon, McGlashan, Perkins, Belger, Seidman, Tsuang, van Erp, Walker, Hamann, Woods, Qiu and Cannon2015; Cannon et al., Reference Cannon, Chung, He, Sun, Jacobson, van Erp, McEwen, Addington, Bearden, Cadenhead, Cornblatt, Mathalon, McGlashan, Perkins, Jeffries, Seidman, Tsuang, Walker, Woods and Heinssen2015). For example, it has been shown that individuals with the ARMS who proceed to develop clinical psychosis have an excess capacity to synthesise striatal dopamine which increases further as they get nearer to clinical psychosis, compared with healthy controls (Howes et al., Reference Howes, Bose, Turkheimer, Valli, Egerton, Stahl, Valmaggia, Allen, Murray and McGuire2011) and that cortical volume loss may be accelerated in the months prior to transition (Cannon et al., Reference Cannon, Chung, He, Sun, Jacobson, van Erp, McEwen, Addington, Bearden, Cadenhead, Cornblatt, Mathalon, McGlashan, Perkins, Jeffries, Seidman, Tsuang, Walker, Woods and Heinssen2015). Nonetheless, this does imply that the process of developing psychosis has already begun in people with the ARMS. Therefore, it reinforces the point that intervening at this stage may already be too late.

The development of ARMS clinics has also increased awareness of a greater opportunity for prevention and EI. In medicine, preventive approaches to illnesses such as heart disease, bronchitis, or obesity do not focus on identifying individuals just on the brink of developing the disorder or carrying biological markers for it. Instead, they target the known risk factors for the conditions, and encourage members of the general public to change their behaviour, for example start exercising or reduce calorie or cigarette intake, with the aim of reducing their risk of developing the condition.

A similar approach should be adopted for psychosis. Indeed, a number of risk factors for developing psychosis have been identified and replicated. These include obstetric events, childhood adversity, urban birth and upbringing and adverse life events (Stilo and Murray, Reference Stilo and Murray2010; Radua et al., Reference Radua, Ramella-Cravaro, Ioannidis, Reichenberg, Phiphopthatsanee, Amir, Yenn Thoo, Oliver, Davies, Morgan, McGuire, Murray and Fusar-Poli2018). Moreover, a recent large and methodological rigorous study has provided further empirical evidence for the link between risk for psychosis onset and immigration (Jongsma et al., Reference Jongsma, Gayer-Anderson, Lasalvia, Quattrone, Mulè, Szöke, Selten, Turner, Arango, Tarricone, Berardi, Tortelli, Llorca, de Haan, Bobes, Bernardo, Sanjuán, Santos, Arrojo, Del-Ben, Menezes, Velthorst, Murray, Rutten, Jones, van Os, Morgan and Kirkbride2018).

The evidence that cannabis use is an important risk factor for later developing psychotic symptoms and/or psychotic disorder is especially strong (Murray et al., Reference Murray, Quigley, Quattrone, Englund and Di Forti2016). This risk has been shown to increase linearly with a greater frequency, longer length of use and the stronger potency of the cannabis used (Di Forti et al., Reference Di Forti, Sallis, Allegri, Trotta, Ferraro, Stilo, Marconi, La Cascia, Reis Marques, Pariante, Dazzan, Mondelli, Paparelli, Kolliakou, Prata, Gaughran, David, Morgan, Stahl, Khondoker, MacCabe and Murray2014; Marconi et al., Reference Marconi, Di Forti, Lewis, Murray and Vassos2016). Importantly, it has been demonstrated that a substantial proportion of first episode psychosis cases (24% in London) would have been prevented if no one consumed cannabis of high potency (Di Forti et al., Reference Di Forti, Marconi, Carra, Fraietta, Trotta, Bonomo, Bianconi, Gardner-Sood, O'Connor, Russo, Stilo, Marques, Mondelli, Dazzan, Pariante, David, Gaughran, Atakan, Iyegbe, Powell, Morgan, Lynskey and Murray2015). The risk increasing effects of cannabis extend to individuals who meet criteria for ARMS, reiterating the importance of this risk factor for preventative purposes. Indeed, it has been reported that individuals meeting criteria for ARMS not only have high rates of cannabis use (Carney et al., Reference Carney, Cotter, Firth, Bradshaw and Yung2017) but also that those who have used cannabis at least weekly have significantly more severe positive psychotic symptoms than non-cannabis users (Nieman et al., Reference Nieman, Dragt, van Duin, Denneman, Overbeek, de Haan, Rietdijk, Ising, Klaassen, van Amelsvoort, Wunderink, van der Gaag and Linszen2016).

In the long-term, attempts to reduce exposure to these risk factors for psychosis should be made. Though this will not be easy since the pathogenic mechanism underlying the link between some of these risk factors and psychosis is not yet understood; for example, it is likely that urban living is a proxy for one or more specific psychotogenic factor(s). Furthermore, it may be very difficult to diminish exposure to some risk factors, such as child abuse or migration. However, an obvious place to start is by attempting to reduce society's consumption of high-potency cannabis through public education (Di Forti et al., Reference Di Forti, Marconi, Carra, Fraietta, Trotta, Bonomo, Bianconi, Gardner-Sood, O'Connor, Russo, Stilo, Marques, Mondelli, Dazzan, Pariante, David, Gaughran, Atakan, Iyegbe, Powell, Morgan, Lynskey and Murray2015; Gage et al., Reference Gage, Hickman and Zammit2016). Unfortunately, the legalisation of cannabis for ‘medicinal’ or ‘recreational’ use across states of the USA has been accompanied by an increase in the use and potency of cannabis (Rehm and Fischer, Reference Rehm and Fischer2015). Thus, public policy in North America appears to be moving in the opposite direction. Psychiatrists need to be more vocal in drawing attention to the risks to mental health involved in policies which increase consumption of high potency cannabis.

Conclusion

The idea of identifying individuals before they become unwell is a worthy idea, especially in the era when our treatments for psychosis are far from perfect. However, it is clear that the task of making a major contribution to the prevention of psychosis is beyond the power of the ARMS clinics. A public health approach to prevention of psychosis has the potential to be more effective. Nonetheless, should such the ARMS clinic continue to exist, they face an important challenge in regard to developing pathways which will attract a broader and more representative group of individuals to access their services.

Author ORCIDs

Olesya Ajnakina 0000-0003-3987-1236

Financial support

This paper represents independent research funded by the National Institute for Health Research (NIHR) Biomedical Research Centre (BRC) at South London and Maudsley NHS Foundation Trust and King's College London. The views expressed are those of the author(s) and not necessarily those of the NHS, the National Institute for Health Research (NIHR) or the Department of Health and Social Care. This work was further supported by the Institute of Psychiatry, Psychology & Neuroscience at King's College London; the UK National Institute of Health Research; R.M.M. and A.S.D. receive salary support from the NIHR Maudsley BRC. NIHR Specialist Biomedical Research Centre for Mental Health grant (BRC-SLAM).

Conflict of interest

R.M.M. has received honoraria from Janssen, Astra-Zeneca, Lilly, BMS, and is an editor of this journal (Psychological Medicine). A.S.D. has received honoraria from Janssen and Roche Pharmaceuticals.

References

Addington, J, Epstein, I, Reynolds, A, Furimsky, I, Rudy, L, Mancini, B, McMillan, S, Kirsopp, D and Zipursky, RB (2008) Early detection of psychosis: finding those at clinical high risk. Early Intervention in Psychiatry 2, 147153.Google Scholar
Addington, J, Cadenhead, KS, Cornblatt, BA, Mathalon, DH, McGlashan, TH, Perkins, DO, Seidman, LJ, Tsuang, MT, Walker, EF, Woods, SW, Addington, JA and Cannon, TD (2012) North American prodrome Longitudinal Study (NAPLS 2): overview and recruitment. Schizophrenia Research 142, 7782.Google Scholar
Addington, J, Piskulic, D, Liu, L, Lockwood, J, Cadenhead, KS, Cannon, TD, Cornblatt, BA, McGlashan, TH, Perkins, DO, Seidman, LJ, Tsuang, MT, Walker, EF, Bearden, CE, Mathalon, DH and Woods, SW (2017) Comorbid diagnoses for youth at clinical high risk of psychosis. Schizophrenia Research 190, 9095.Google Scholar
Ajnakina, O, Morgan, C, Gayer-Anderson, C, Oduola, S, Bourque, F, Bramley, S, Williamson, J, MacCabe, JH, Dazzan, P, Murray, RM and David, AS (2017) Only a small proportion of patients with first episode psychosis come via prodromal services: a retrospective survey of a large UK mental health programme. BMC Psychiatry 17, 0171468.Google Scholar
Anticevic, A, Haut, K, Murray, JD, Repovs, G, Yang, GJ, Diehl, C, McEwen, SC, Bearden, CE, Addington, J, Goodyear, B, Cadenhead, KS, Mirzakhanian, H, Cornblatt, BA, Olvet, D, Mathalon, DH, McGlashan, TH, Perkins, DO, Belger, A, Seidman, LJ, Tsuang, MT, van Erp, TG, Walker, EF, Hamann, S, Woods, SW, Qiu, M and Cannon, TD (2015) Association of thalamic dysconnectivity and conversion to psychosis in youth and young adults at elevated clinical risk. JAMA Psychiatry 72, 882891.Google Scholar
Bentall, RP and Morrison, AP (2002) More harm than good: the case against using antipsychotic drugs to prevent severe mental illness. Journal of Mental Health 11, 351356.Google Scholar
Cannon, TD, Chung, Y, He, G, Sun, D, Jacobson, A, van Erp, TG, McEwen, S, Addington, J, Bearden, CE, Cadenhead, K, Cornblatt, B, Mathalon, DH, McGlashan, T, Perkins, D, Jeffries, C, Seidman, LJ, Tsuang, M, Walker, E, Woods, SW and Heinssen, R; North American Prodrome Longitudinal Study Consortium (2015) Progressive reduction in cortical thickness as psychosis develops: a multisite longitudinal neuroimaging study of youth at elevated clinical risk. Biological Psychiatry 77, 147157.Google Scholar
Cannon, TD, Yu, C, Addington, J, Bearden, CE, Cadenhead, KS, Cornblatt, BA, Heinssen, R, Jeffries, CD, Mathalon, DH, McGlashan, TH, Perkins, DO, Seidman, LJ, Tsuang, MT, Walker, EF, Woods, SW and Kattan, MW (2016) An individualized risk calculator for research in prodromal psychosis. American Journal of Psychiatry 173, 980988.Google Scholar
Carney, R, Cotter, J, Firth, J, Bradshaw, T and Yung, AR (2017) Cannabis use and symptom severity in individuals at ultra high risk for psychosis: a meta-analysis. Acta Psychiatrica Scandinavica 136, 515.Google Scholar
Carr, V (2012) Time to move on? Commentary on the early intervention in psychosis debate. Australian and New Zealand Journal of Psychiatry 46, 384386.Google Scholar
Carrion, RE, Cornblatt, BA, Burton, CZ, Tso, IF, Auther, AM, Adelsheim, S, Calkins, R, Carter, CS, Niendam, T, Sale, TG, Taylor, SF and McFarlane, WR (2016) Personalized prediction of psychosis: external validation of the NAPLS-2 psychosis risk calculator with the EDIPPP project. American Journal of Psychiatry 173, 989996.Google Scholar
Castle, DJ (2012) Is it appropriate to treat people at high-risk of psychosis before first onset? - No. Medical Journal of Australia 196, 557.Google Scholar
Conrad, AM, Lewin, TJ, Sly, KA, Schall, U, Halpin, SA, Hunter, M and Carr, VJ (2017) Utility of risk-status for predicting psychosis and related outcomes: evaluation of a 10-year cohort of presenters to a specialised early psychosis community mental health service. Psychiatry Research 247, 336344.Google Scholar
Corcoran, CM, First, MB and Cornblatt, B (2010) The psychosis risk syndrome and its proposed inclusion in the DSM-V: a risk-benefit analysis. Schizophrenia Research 120, 1622.Google Scholar
Craig, TK, Garety, P, Power, P, Rahaman, N, Colbert, S, Fornells-Ambrojo, M and Dunn, G (2004) The Lambeth Early Onset (LEO) team: randomised controlled trial of the effectiveness of specialised care for early psychosis. BMJ 329, 1067.Google Scholar
David, AS (2010) Why we need more debate on whether psychotic symptoms lie on a continuum with normality. Psychological Medicine 40, 19351942.Google Scholar
David, AS and Ajnakina, O (2016) Psychosis as a continuous phenotype in the general population: the thin line between normality and pathology. World Psychiatry 15, 129130.Google Scholar
Di Forti, M, Sallis, H, Allegri, F, Trotta, A, Ferraro, L, Stilo, SA, Marconi, A, La Cascia, C, Reis Marques, T, Pariante, C, Dazzan, P, Mondelli, V, Paparelli, A, Kolliakou, A, Prata, D, Gaughran, F, David, AS, Morgan, C, Stahl, D, Khondoker, M, MacCabe, JH and Murray, RM (2014) Daily use, especially of high-potency cannabis, drives the earlier onset of psychosis in cannabis users. Schizophrenia Bulletin 40, 15091517.Google Scholar
Di Forti, M, Marconi, A, Carra, E, Fraietta, S, Trotta, A, Bonomo, M, Bianconi, F, Gardner-Sood, P, O'Connor, J, Russo, M, Stilo, SA, Marques, TR, Mondelli, V, Dazzan, P, Pariante, C, David, AS, Gaughran, F, Atakan, Z, Iyegbe, C, Powell, J, Morgan, C, Lynskey, M and Murray, RM (2015) Proportion of patients in south London with first-episode psychosis attributable to use of high potency cannabis: a case-control study. The Lancet. Psychiatry 2, 233238.Google Scholar
Falloon, IR (1992) Early intervention for first episodes of schizophrenia: a preliminary exploration. Psychiatry 55, 415.Google Scholar
Falloon, IR, Kydd, RR, Coverdale, JH and Laidlaw, TM (1996) Early detection and intervention for initial episodes of schizophrenia. Schizophrenia Bulletin 22, 271282.Google Scholar
Fusar-Poli, P, Bonoldi, I, Yung, AR, Borgwardt, S, Kempton, MJ, Valmaggia, L, Barale, F, Caverzasi, E and McGuire, P (2012) Predicting psychosis: meta-analysis of transition outcomes in individuals at high clinical risk. Archives of General Psychiatry 69, 220229.Google Scholar
Fusar-Poli, P, Byrne, M, Badger, S, Valmaggia, LR and McGuire, PK (2013) Outreach and support in south London (OASIS), 2001–2011: ten years of early diagnosis and treatment for young individuals at high clinical risk for psychosis. European Psychiatry 28, 315326.Google Scholar
Fusar-Poli, P, Nelson, B, Valmaggia, L, Yung, AR and McGuire, P (2014) Comorbid depressive and anxiety disorders in 509 individuals with an at-risk mental state: impact on psychopathology and transition to psychosis. Schizophrenia Bulletin 40, 120131.Google Scholar
Gage, SH, Hickman, M and Zammit, S (2016) Association between cannabis and psychosis: epidemiologic evidence. Biological Psychiatry 79, 549556.Google Scholar
Green, CE, McGuire, PK, Ashworth, M and Valmaggia, LR (2011) Outreach and Support in South London (OASIS). Outcomes of non-attenders to a service for people at high risk of psychosis: the case for a more assertive approach to assessment. Psychological Medicine 41, 243250.Google Scholar
Hastrup, LH, Kronborg, C, Bertelsen, M, Jeppesen, P, Jorgensen, P, Petersen, L, Thorup, A, Simonsen, E and Nordentoft, M (2013) Cost-effectiveness of early intervention in first-episode psychosis: economic evaluation of a randomised controlled trial (the OPUS study). British Journal of Psychiatry 202, 3541.Google Scholar
Hilferty, F, Cassells, R, Muir, K, Duncan, A, Christensen, D, Mitrou, F, Gao, G, Mavisakalyan, A, Hafekost, K, Tarverdi, Y, Nguyen, H, Wingrove, C and Katz, I (2015) Is headspace making a difference to young people's lives? Final Report of the independent evaluation of the headspace program (SPRC Report 08/2015). Sydney: Social Policy Research Centre, UNSW Australia.Google Scholar
Howes, O, Bose, S, Turkheimer, F, Valli, I, Egerton, A, Stahl, D, Valmaggia, L, Allen, P, Murray, R and McGuire, P (2011) Progressive increase in striatal dopamine synthesis capacity as patients develop psychosis: a PET study. Molecular Psychiatry 16, 885886.Google Scholar
Jongsma, HE, Gayer-Anderson, C, Lasalvia, A, Quattrone, D, Mulè, A, Szöke, A, Selten, J-P, Turner, C, Arango, C, Tarricone, I, Berardi, D, Tortelli, A, Llorca, PM, de Haan, L, Bobes, J, Bernardo, D, Sanjuán, J, Santos, JL, Arrojo, J, Del-Ben, CM, Menezes, P, Velthorst, E, Murray, RM, Rutten, BP, Jones, PB, van Os, J, Morgan, C and Kirkbride, J (2018) Treated incidence of psychotic disorders in the multinational EU-GEI study. JAMA Psychiatry 75, 3646.Google Scholar
Kelleher, I, Murtagh, A, Molloy, C, Roddy, S, Clarke, MC, Harley, M and Cannon, M (2012) Identification and characterization of prodromal risk syndromes in young adolescents in the community: a population-based clinical interview study. Schizophrenia Bulletin 38, 239246.Google Scholar
Killackey, E and Yung, AR (2007) Effectiveness of early intervention in psychosis. Current Opinion in Psychiatry 20, 121125.Google Scholar
Lappin, JM, Morgan, KD, Valmaggia, LR, Broome, MR, Woolley, JB, Johns, LC, Tabraham, P, Bramon, E and McGuire, PK (2007) Insight in individuals with an at risk mental state. Schizophrenia Research 90, 238244.Google Scholar
Linscott, RJ and Van Os, J (2013) An updated and conservative systematic review and meta-analysis of epidemiological evidence on psychotic experiences in children and adults: on the pathway from proneness to persistence to dimensional expression across mental disorders. Psychological Medicine 43, 11331149.Google Scholar
Loewy, RL, Pearson, R, Vinogradov, S, Bearden, CE and Cannon, TD (2011) Psychosis risk screening with the Prodromal Questionnaire-brief version (PQ-B). Schizophrenia Research 129, 4246.Google Scholar
Malla, A, Iyer, S, McGorry, P, Cannon, M, Coughlan, H, Singh, S, Jones, P and Joober, R (2016) From early intervention in psychosis to youth mental health reform: a review of the evolution and transformation of mental health services for young people. Social Psychiatry and Psychiatric Epidemiology 51, 319326.Google Scholar
Malla, A, de Bonneville, M, Shah, J, Jordan, G, Pruessner, M, Faridi, K, Rabinovitch, M, Iyer, SN and Joober, R (2017) Outcome in patients converting to psychosis following a treated clinical high risk state. Early Intervention Psychiatry 14, 12431.Google Scholar
Marconi, A, Di Forti, M, Lewis, CM, Murray, RM and Vassos, E (2016) Meta-analysis of the association between the level of cannabis use and risk of psychosis. Schizophrenia Bulletin 42, 12621269.Google Scholar
McGlashan, TH (2001) Psychosis treatment prior to psychosis onset: ethical issues. Schizophrenia Research 51, 4754.Google Scholar
McGorry, PD, Hickie, IB, Yung, AR, Pantelis, C and Jackson, HJ (2006) Clinical staging of psychiatric disorders: a heuristic framework for choosing earlier, safer and more effective interventions. Australian and New Zealand Journal of Psychiatry 40, 616622.Google Scholar
McGorry, P, Bates, T and Birchwood, M (2013) Designing youth mental health services for the 21st century: examples from Australia, Ireland and the UK. British Journal of Psychiatry 54(suppl.), 119214.Google Scholar
Miller, TJ, McGIashan, TH, Rosen, JL, Somjee, L, Markovich, PJ, Stein, K and Woods, SW (2002) Prospective diagnosis of the initial prodrome for schizophrenia based on the structured interview for prodromal syndromes: preliminary evidence of interrater reliability and predictive validity. American Journal of Psychiatry 159, 863865.Google Scholar
Miller, TJ, McGlashan, TH, Rosen, JL, Cadenhead, K, Cannon, T, Ventura, J, McFarlane, W, Perkins, DO, Pearlson, GD and Woods, SW (2003) Prodromal assessment with the structured interview for prodromal syndromes and the scale of prodromal symptoms: predictive validity, interrater reliability, and training to reliability. Schizophrenia Bulletin 29, 703715.Google Scholar
Morgan, C, Abdul-Al, R, Lappin, JM, Jones, P, Fearon, P, Leese, M, Croudace, T, Morgan, K, Dazzan, P, Craig, T, Leff, J and Murray, R (2006) Clinical and social determinants of duration of untreated psychosis in the AESOP first-episode psychosis study. British Journal of Psychiatry 189, 446452.Google Scholar
Morrison, AP, French, P, Stewart, SL, Birchwood, M, Fowler, D, Gumley, AI, Jones, PB, Bentall, RP, Lewis, SW, Murray, GK, Patterson, P, Brunet, K, Conroy, J, Parker, S, Reilly, T, Byrne, R, Davies, LM and Dunn, G (2012) Early detection and intervention evaluation for people at risk of psychosis: multisite randomised controlled trial. BMJ 344, e2233.Google Scholar
Murray, GK and Jones, PB (2012) Psychotic symptoms in young people without psychotic illness: mechanisms and meaning. British Journal of Psychiatry 201, 46.Google Scholar
Murray, RM, Quigley, H, Quattrone, S, Englund, A and Di Forti, M (2016) Traditional marijuana, high-potency cannabis and synthetic cannabinoids: increasing risk for psychosis. World Psychiatry 15, 195204.Google Scholar
Nelson, B, Yuen, HP, Lin, A, Wood, SJ, McGorry, PD, Hartmann, JA and Yung, AR (2016) Further examination of the reducing transition rate in ultra high risk for psychosis samples: the possible role of earlier intervention. Schizophrenia Research 174, 4349.Google Scholar
Nieman, DH, Dragt, S, van Duin, EDA, Denneman, N, Overbeek, JM, de Haan, L, Rietdijk, J, Ising, HK, Klaassen, RMC, van Amelsvoort, T, Wunderink, L, van der Gaag, M and Linszen, DH (2016) COMT val158met genotype and cannabis use in people with an at risk mental state for psychosis: exploring gene x environment interactions. Schizophrenia Research 174, 2428.Google Scholar
Radua, J, Ramella-Cravaro, V, Ioannidis, JPA, Reichenberg, A, Phiphopthatsanee, N, Amir, T, Yenn Thoo, H, Oliver, D, Davies, C, Morgan, C, McGuire, P, Murray, RM and Fusar-Poli, P (2018) What causes psychosis? An umbrella review of risk and protective factors. World Psychiatry 17, 4966.Google Scholar
Reddy, MS (2014) Attenuated psychosis syndrome. Indian Journal of Psychological Medicine 36, 13.Google Scholar
Rehm, J. and Fischer, B (2015) Cannabis legalization with strict regulation, the overall superior policy option for public health. Clinical Pharmacology & Therapeutics 97, 541544.Google Scholar
Shah, JL, Crawford, A, Mustafa, SS, Iyer, SN, Joober, R and Malla, AK (2017) Is the clinical high-risk state a valid concept? Retrospective examination in a first-episode psychosis sample. Psychiatric Services 68, 10461052.Google Scholar
Stilo, SA and Murray, RM (2010) The epidemiology of schizophrenia. Dialogues in Clinical Neuroscience 12, 305315.Google Scholar
Sundermann, O, Onwumere, J, Kane, F, Morgan, C and Kuipers, E (2014) Social networks and support in first-episode psychosis: exploring the role of loneliness and anxiety. Social Psychiatry Psychiatric Epidemiology 49, 359366.Google Scholar
Valmaggia, LR, Byrne, M, Day, F, Broome, MR, Johns, L, Howes, O, Power, P, Badger, S, Fusar-Poli, P and McGuire, PK (2015) Duration of untreated psychosis and need for admission in patients who engage with mental health services in the prodromal phase. British Journal of Psychiatry 207, 130134.Google Scholar
van Os, J (2005) Toward a world consensus on prevention of schizophrenia. Dialogues in Clinical Neuroscience 7, 5367.Google Scholar
van Os, J and Guloksuz, S (2017) A critique of the ‘ultra-high risk’ and ‘transition’ paradigm. World Psychiatry 16, 200206.Google Scholar
van Os, J and Murray, RM (2013) Can we identify and treat ‘schizophrenia light’ to prevent true psychotic illness? BMJ 18, 346.Google Scholar
van Os, J and Reininghaus, U (2016) Psychosis as a transdiagnostic and extended phenotype in the general population. World Psychiatry 15, 118124.Google Scholar
Walker, EF, Trotman, HD, Pearce, BD, Addington, J, Cadenhead, KS, Cornblatt, BA, Heinssen, R, Mathalon, DH, Perkins, DO, Seidman, LJ, Tsuang, MT, Cannon, TD, McGlashan, TH and Woods, SW (2013) Cortisol levels and risk for psychosis: initial findings from the North American prodrome longitudinal study. Biological Psychiatry 74, 410417.Google Scholar
Wiltink, S, Velthorst, E, Nelson, B, McGorry, PM and Yung, AR (2015) Declining transition rates to psychosis: the contribution of potential changes in referral pathways to an ultra-high-risk service. Early Intervention in Psychiatry 9, 200206.Google Scholar
Woods, SW, Addington, J, Cadenhead, KS, Cannon, TD, Cornblatt, BA, Heinssen, R, Perkins, DO, Seidman, LJ, Tsuang, MT, Walker, EF and McGlashan, TH (2009) Validity of the prodromal risk syndrome for first psychosis: findings from the North American prodrome longitudinal study. Schizophrenia Bulletin 35, 894908.Google Scholar
Wood, SJ, Reniers, RL and Heinze, K (2013) Neuroimaging findings in the at-risk mental state: a review of recent literature. Canadian Journal of Psychiatry 58, 1318.Google Scholar
Yung, AR, McGorry, PD, McFarlane, CA, Jackson, HJ, Patton, GC and Rakkar, A (1996) Monitoring and care of young people at incipient risk of psychosis. Schizophrenia Bulletin 22, 283303.Google Scholar
Yung, AR, Phillips, LJ, Yuen, HP, Francey, SM, McFarlane, CA, Hallgren, M and McGorry, PD (2003) Psychosis prediction: 12-month follow-up of a high-risk (‘prodromal’) group. Schizophrenia Research 60, 2132.Google Scholar
Yung, AR, Yuen, HP, McGorry, PD, Phillips, LJ, Kelly, D, Dell'Olio, M, Francey, SM, Cosgrave, EM, Killackey, E, Stanford, C, Godfrey, K and Buckby, J (2005) Mapping the onset of psychosis: the comprehensive assessment of at-risk mental states. Australian and New Zealand Journal of Psychiatry 39, 964971.Google Scholar
Yung, AR, Stanford, C, Cosgrave, E, Killackey, E, Phillips, L, Nelson, B and McGorry, PD (2006) Testing the ultra high risk (prodromal) criteria for the prediction of psychosis in a clinical sample of young people. Schizophrenia Research 84, 5766.Google Scholar
Yung, AR, Nelson, B, Stanford, C, Simmons, MB, Cosgrave, EM, Killackey, E, Phillips, LJ, Bechdolf, A, Buckby, J and McGorry, PD (2008) Validation of ‘prodromal’ criteria to detect individuals at ultra high risk of psychosis: 2 year follow-up. Schizophrenia Research 105, 1017.Google Scholar
Zammit, S, Kounali, D, Cannon, M, David, AS, Gunnell, D, Heron, J, Jones, PB, Lewis, S, Sullivan, S, Wolke, D and Lewis, G (2013) Psychotic experiences and psychotic disorders at age 18 in relation to psychotic experiences at age 12 in a longitudinal population-based cohort study. American Journal of Psychiatry 170, 742750.Google Scholar