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Association between exposome score for schizophrenia and functioning in first-episode psychosis: results from the Athens first-episode psychosis research study

Published online by Cambridge University Press:  18 November 2021

Gamze Erzin Open the ORCID record for Gamze Erzin [Opens in a new window] ,
Lotta-Katrin Pries ,
Stefanos Dimitrakopoulos ,
Irene Ralli ,
Lida-Alkisti Xenaki ,
Rigas – Filippos Soldatos ,
Ilias Vlachos ,
Mirjana Selakovic ,
Stefania Foteli  and
Ioannis Kosteletos
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Gamze Erzin
Affiliation:
Department of Psychiatry, University of Health Sciences Ankara Diskapi Training and Research Hospital, Ankara, Turkey Department of Psychiatry and Neuropsychology, School for Mental Health and Neuroscience, Maastricht University Medical Center, Maastricht, the Netherlands
Lotta-Katrin Pries
Affiliation:
Department of Psychiatry and Neuropsychology, School for Mental Health and Neuroscience, Maastricht University Medical Center, Maastricht, the Netherlands
Stefanos Dimitrakopoulos
Affiliation:
First Department of Psychiatry, National and Kapodistrian University of Athens Medical School, Eginition Hospital, Athens, Greece Psychiatric Clinic, 414 Military Hospital of Athens, Penteli, Greece
Irene Ralli
Affiliation:
First Department of Psychiatry, National and Kapodistrian University of Athens Medical School, Eginition Hospital, Athens, Greece
Lida-Alkisti Xenaki
Affiliation:
First Department of Psychiatry, National and Kapodistrian University of Athens Medical School, Eginition Hospital, Athens, Greece
Rigas – Filippos Soldatos
Affiliation:
First Department of Psychiatry, National and Kapodistrian University of Athens Medical School, Eginition Hospital, Athens, Greece
Ilias Vlachos
Affiliation:
First Department of Psychiatry, National and Kapodistrian University of Athens Medical School, Eginition Hospital, Athens, Greece
Mirjana Selakovic
Affiliation:
First Department of Psychiatry, National and Kapodistrian University of Athens Medical School, Eginition Hospital, Athens, Greece
Stefania Foteli
Affiliation:
First Department of Psychiatry, National and Kapodistrian University of Athens Medical School, Eginition Hospital, Athens, Greece
Ioannis Kosteletos
Affiliation:
First Department of Psychiatry, National and Kapodistrian University of Athens Medical School, Eginition Hospital, Athens, Greece
Nikos Nianiakas
Affiliation:
First Department of Psychiatry, National and Kapodistrian University of Athens Medical School, Eginition Hospital, Athens, Greece
Leonidas Mantonakis
Affiliation:
First Department of Psychiatry, National and Kapodistrian University of Athens Medical School, Eginition Hospital, Athens, Greece
Emmanouil Rizos
Affiliation:
Second Department of Psychiatry, National and Kapodistrian University of Athens Medical School, ‘ATTIKON’ University Hospital, Athens, Greece
Konstantinos Kollias
Affiliation:
First Department of Psychiatry, National and Kapodistrian University of Athens Medical School, Eginition Hospital, Athens, Greece
Jim Van Os
Affiliation:
Department of Psychiatry and Neuropsychology, School for Mental Health and Neuroscience, Maastricht University Medical Center, Maastricht, the Netherlands Department of Psychiatry, UMC Utrecht Brain Centre, University Medical Centre Utrecht, Utrecht University, Utrecht, The Netherlands Department of Psychosis Studies, Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK
Sinan Guloksuz*
Affiliation:
Department of Psychiatry and Neuropsychology, School for Mental Health and Neuroscience, Maastricht University Medical Center, Maastricht, the Netherlands Department of Psychiatry, Yale University School of Medicine, New Haven, CT, USA
Nikos Stefanis*
Affiliation:
First Department of Psychiatry, National and Kapodistrian University of Athens Medical School, Eginition Hospital, Athens, Greece
*
Authors for correspondence: Sinan Guloksuz, E-mail: sinan.guloksuz@maastrichtuniversity.nl; Nikos Stefanis, E-mail: nistefan@med.uoa.gr
Authors for correspondence: Sinan Guloksuz, E-mail: sinan.guloksuz@maastrichtuniversity.nl; Nikos Stefanis, E-mail: nistefan@med.uoa.gr
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Abstract

Background

Evidence suggests that environmental factors not only increase psychosis liability but also influence the prognosis and outcomes of psychotic disorders. We investigated temporal and cross-sectional associations of a weighted score of cumulative environmental liability for schizophrenia – the exposome score for schizophrenia (ES-SCZ) – with functioning in first-episode psychosis (FEP).

Methods

Data were derived from the baseline and 1-month assessments of the Athens FEP Research Study that enrolled 225 individuals with FEP. The Global Assessment of Functioning (GAF) and the Personal and Social Performance Scale (PSP) were used to measure social, occupational, and psychological functioning. The ES-SCZ was calculated based on the previously validated method.

Results

ES-SCZ was associated with the total scores of GAF and PSP at baseline and 1-month assessments. These findings remained significant when accounting for several associated alternative explanatory variables, including other environmental factors (obstetric complications, migration, ethnic minority), clinical characteristics (duration of untreated psychosis, symptom severity, previous antipsychotic use), and family history of psychosis, demonstrating that the association between ES-SCZ and functioning is over and above other risk factors and cannot be explained by symptom severity alone. Functioning improved from baseline to 1-month assessment, but no significant ES-SCZ-by-time interaction was found on functioning, indicating that functioning changes were not contingent on ES-SCZ.

Conclusions

Our findings suggest that rather than a predictor of functional improvement, ES-SCZ represents a stable severity indicator that captures poor functioning in early psychosis. Environmental risk loading for schizophrenia (ES-SCZ) can be beneficial for clinical characterization and incorporated into transdiagnostic staging models.

Keywords

Cannabis usechildhood traumaenvironmentfunctioningoutcomepsychosis
Type
Original Article
Information
Psychological Medicine , Volume 53 , Issue 6 , April 2023 , pp. 2609 - 2618
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Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2021. Published by Cambridge University Press

Introduction

Psychosis spectrum disorder is a complex syndrome with a wide variety of clinical representations that follow diverse illness trajectories and outcomes after the first episode of psychosis (FEP), ranging from complete remission to chronic course and significant functional impairment (Guloksuz & van Os, Reference Guloksuz and van Os2018). Functional impairments including social, occupational, and independent living activities emerge during the early phases of psychosis and functional remission and recovery rates vary over time (Chang et al., Reference Chang, Kwong, Chan, Jim, Lau, Hui and Chen2016, Reference Chang, Kwong, Fai, Lau, Chan, Jim and Chen2018; Kuzman et al., Reference Kuzman, Makaric, Kuharic, Kekin, Madzarac, Makar and Zivkovic2020; Rosengard et al., Reference Rosengard, Malla, Mustafa, Iyer, Joober, Bodnar and Shah2019; Strålin, Skott, & Cullberg, Reference Strålin, Skott and Cullberg2019; Verma, Subramaniam, Abdin, Poon, & Chong, Reference Verma, Subramaniam, Abdin, Poon and Chong2012). Therefore, major goals of FEP management include not only relapse prevention at the symptom level but also functional remission and quality of life improvement.

Prognosticating psychosocial functioning trajectories can help improve outcomes by early individualized interventions targeting functional improvement. To this end, efforts have recently been made to develop multivariate models prognosticating functional outcomes, as well as short-term clinical remission (Koutsouleris et al., Reference Koutsouleris, Kambeitz-Ilankovic, Ruhrmann, Rosen, Ruef, Dwyer and Haidl2018; Soldatos et al., Reference Soldatos, Cearns, Nielsen, Kollias, Xenaki, Stefanatou and Stefanis2021). Clinical features such as duration of untreated psychosis (DUP), negative symptomatology, and neurocognitive status are associated with functioning at onset and functional recovery over the course of FEP (Kuzman et al., Reference Kuzman, Makaric, Kuharic, Kekin, Madzarac, Makar and Zivkovic2020; Mezquida et al., Reference Mezquida, Cabrera, Bioque, Amoretti, Lobo, González-Pinto and Castro-Fornieles2017; Penttilä, Jääskeläinen, Hirvonen, Isohanni, & Miettunen, Reference Penttilä, Jääskeläinen, Hirvonen, Isohanni and Miettunen2014; Peralta et al., Reference Peralta, Moreno-Izco, García de Jalón, Sánchez-Torres, Janda, Peralta and Cuesta2021; Santesteban-Echarri et al., Reference Santesteban-Echarri, Paino, Rice, González-Blanch, McGorry, Gleeson and Alvarez-Jimenez2017; Seddon et al., Reference Seddon, Birchwood, Copello, Everard, Jones, Fowler and Marshall2016). Evidence suggests that environmental exposures, which form a complex and dynamic mutually interconnected network (Guloksuz, van Os, & Rutten, Reference Guloksuz, van Os and Rutten2018), are directly as well as indirectly associated with outcomes in FEP. For instance, childhood trauma is significantly associated with reduced global functioning and more severe clinical symptoms among individuals with FEP (Aas et al., Reference Aas, Andreassen, Aminoff, Færden, Romm, Nesvåg and Melle2016). Cannabis use in individuals with FEP has been linked to specific domains of social role functioning, such as economic and social activities, after 2 years of follow up (Faber et al., Reference Faber, Smid, Van Gool, Wunderink, van den Bosch and Wiersma2012). Evidence also suggests that modifying these factors, for example reducing cannabis use, could prevent worse outcomes in FEP (Schimmelmann et al., Reference Schimmelmann, Conus, Cotton, Kupferschmid, McGorry and Lambert2012).

A growing body of evidence suggests that a cumulative environmental liability score of schizophrenia can be beneficial for predicting transition to psychosis in at-risk for psychosis populations (Padmanabhan, Shah, Tandon, & Keshavan, Reference Padmanabhan, Shah, Tandon and Keshavan2017), as well as capturing stress sensitivity to adverse life events (Pries et al., Reference Pries, Van Os, Ten Have, De Graaf, Van Dorsselaer, Bak and Guloksuz2020a), identifying schizophrenia (Pries et al., Reference Pries, Erzin, van Os, Ten Have, de Graaf, van Dorsselaer and Guloksuz2021b), and psychosis risk stratification in the general population (Guloksuz et al., Reference Guloksuz, Pries, Ten Have, de Graaf, van Dorsselaer, Klingenberg and van Os2020). The findings of a recent cross-sectional analysis replicated in two independent samples showed that a weighted score of cumulative environmental liability for schizophrenia, the exposome score for schizophrenia (ES-SCZ), was associated with global functioning in patients diagnosed with schizophrenia spectrum disorder (Erzin et al., Reference Erzin, Pries, van Os, Fusar-Poli, Delespaul, Kenis and Guloksuz2021). However, these findings were based on cross-sectional analyses in individuals diagnosed with schizophrenia. To our knowledge, no longitudinal study analyzed the temporal association between ES-SCZ and clinical outcomes including symptom severity and clinical functioning in FEP.

In this study, our aim was to investigate, for the first time, temporal and cross-sectional associations of ES-SCZ with symptom severity and functioning that covers social, occupational, and psychological domains. The use of a prospective cohort of individuals with FEP that collected detailed information on clinical features, functional measures, and environmental exposures over a year provided a unique opportunity to minimize the confounding of prior treatment when analyzing ES-SCZ (environmental predisposition proxy for psychosis) as an indicator of poor functioning.

Methods

Study population and design

The Athens FEP Research Study enrolled patients with FEP consecutively from the emergency departments of five different psychiatric hospitals (Eginition University Hospital, 414 Military Hospital, Atticon University Hospital, Sismanoglion General Hospital and Sotiria General Hospital). Inclusion criteria were the presence of FEP at age 16–45 years and a maximum of 2 weeks of exposure to antipsychotics. Individuals with psychotic disorders due to another medical condition or acute intoxication, IQ < 70, developmental disorders, and kinship with an enrolled participant were excluded from the study. All participants were screened using the diagnostic interview for psychosis (Castle et al., Reference Castle, Jablensky, McGrath, Carr, Morgan, Waterreus and Farmer2006). The sample was collected between March 2015 and March 2020. Of 279 identified individuals eligible for the study, 225 were included. Interviews at baseline, 1-month, and 1-year were conducted by clinically qualified researchers with psychiatric or neuropsychological specializations who were also formally trained by authorized trainers to apply the assessment instruments. In expert consensus meetings, involving the principal investigators and the research associate assigned with each case, ICD-10 (World Health Organization, 1992), DSM-IV-TR (American Psychiatric Association, 2000) and DSM-5 (American Psychiatric Association, 2013) diagnoses were determined at 1-month and 1-year follow up visits. The clinical, environmental, and other psychometric measurement tools were compatible with those used in the European Network of National Schizophrenia Networks studying Gene-Environment interactions (EU-GEI, 2010). The Research Ethics Committees of the five participating hospitals approved the study protocol. Signed informed consent was collected from all individuals. More details of the study design were provided elsewhere (Xenaki et al., Reference Xenaki, Kollias, Stefanatou, Ralli, Soldatos, Dimitrakopoulos and Vlachos2020).

Functioning outcomes

Consistent with previous work (Erzin et al., Reference Erzin, Pries, van Os, Fusar-Poli, Delespaul, Kenis and Guloksuz2021), the primary outcome of this study was global functioning that was assessed using the Global Assessment of Functioning Scale (GAF) and the Personal and Social Performance Scale (PSP). The GAF scale is a well-known standard rating instrument to measure social, occupational, and psychological functioning (Endicott, Spitzer, Fleiss, & Cohen, Reference Endicott, Spitzer, Fleiss and Cohen1976). GAF scores range from 1 to 100. Higher scores in the GAF total score reflect an increase in mental health and coping ability, and lower scores reflect a decrease in mental health and coping capacity (Pedersen & Karterud, Reference Pedersen and Karterud2012; Pedersen, Hagtvet, & Karterud, Reference Pedersen, Hagtvet and Karterud2007). The PSP measures functioning across four domains: social useful activities, personal and social relationships, self-care, and disturbing and aggressive behavior. The PSP total score is a single overall rating from 1 to 100. Higher scores in the PSP total score indicate better personal and social functionality (Morosini, Magliano, Brambilla, Ugolini, & Pioli, Reference Morosini, Magliano, Brambilla, Ugolini and Pioli2000).

Exposome score for schizophrenia

With exception of hearing impairment, which was not collected in the Athens FEP Research Study, the assessments and definitions of environmental exposures were consistent with previous work (Erzin et al., Reference Erzin, Pries, van Os, Fusar-Poli, Delespaul, Kenis and Guloksuz2021; Pries et al., Reference Pries, Lage-Castellanos, Delespaul, Kenis, Luykx, Lin and Guloksuz2019, Reference Pries, Dal Ferro, van Os, Delespaul, Kenis, Luykx and Guloksuz2020b) and included binary-coded (absent or present) cannabis use, winter-birth, childhood adversity domains (emotional and physical neglect, emotional, physical, and sexual abuse) and bullying. ES-SCZ was calculated by summing log-odds weighted environmental exposures based on our formerly validated estimates (Pries et al., Reference Pries, Lage-Castellanos, Delespaul, Kenis, Luykx, Lin and Guloksuz2019) and a constant of 2 was added to ES-SCZ in accordance with previous reports (Erzin et al., Reference Erzin, Pries, van Os, Fusar-Poli, Delespaul, Kenis and Guloksuz2021; Pries et al., Reference Pries, Dal Ferro, van Os, Delespaul, Kenis, Luykx and Guloksuz2020b) to facilitate interpretation given that an individual might theoretically (although highly unlikely) have a negative value for ES-SCZ if exposed to only physical abuse, which received a negative coefficient in the multivariable prediction model. ES-SCZ: [(cannabis use*1.31) + (winter birth*0.03) + *(emotional abuse*0.78) + (physical abuse*−0.39) + (sexual abuse*0.86) + (emotional neglect*0.44) + (physical neglect*0.25) + (bullying*1.35) + 2]. Details are provided in the online Supplementary file.

Clinical measures and risk factors

The Positive and Negative Syndrome Scale (PANSS) is a widely used rating scale that consists of 30-items to assess signs and symptoms of schizophrenia across three domains: positive (seven items), negative (seven items) and general psychopathology (16 items) (Kay, Fiszbein, & Opler, Reference Kay, Fiszbein and Opler1987). The validated Greek version of PANSS was used (Lykouras, Botsis, & Oulis, Reference Lykouras, Botsis and Oulis1994). Each item measures the psychopathology severity on a 7-point Likert scale (1 = absent, 2 = minimal, 3 = mild, 4 = moderate, 5 = moderate-severe, 6 = severe, 7 = extreme). The sum scores for each domain thus range between 7 and 49 for the positive and negative symptom domains and between 16 and 112 for the general psychopathology domain. Duration of illness, DUP, and antipsychotic treatment history were evaluated with the Nottingham Onset Schedule (Singh et al., Reference Singh, Cooper, Fisher, Tarrant, Lloyd, Banjo and Jones2005) at baseline using all the available information from family members, health care providers and the medical records. Other environmental and familial risk factors for psychosis included in the present analyses as covariates were the sum score of obstetric and perinatal complications assessed using the Lewis Murray scale (Lewis & Murray, Reference Lewis and Murray1987), family history of schizophrenia spectrum disorder assessed using the Family Interview for Genetic Studies (FIGS) (Maxwell, Reference Maxwell1992), and ethnicity using native language as a proxy (Greek v. others).

Statistical analyses

Stata software version 16.0 (StataCorp., 2019) was used for all analyses. A p value of <0.05 was considered nominally statistically significant. The analyses were limited to baseline and 1-month assessments as the attrition rate at 1-year was 60%. Cross-sectional linear regression analyses were applied to assess the association between ES-SCZ and functioning at baseline and 1-month follow-up. Three models adjusting for (1) demographic variables including age, sex, and education; (2) demographic variables and risk factors including migration status, obstetric complications, ethnicity, and family history of schizophrenia spectrum disorder; and (3) demographic variables and other risk factors and clinical features including PANSS total score (at baseline or 1-month follow-up), previous antipsychotic use and DUP were applied, sequentially. To calculate the relative contribution of the ES-SCZ and each group of covariates (i.e. demographic variables, other risk factors, clinical features) to the R 2 statistic at baseline, the shapely decomposition (Stata shapley2) command was applied to the analyses using the third model. Subsequently, multilevel linear regression analyses were applied to test the longitudinal association between ES-SCZ and functioning as well as clinical features (i.e. PANSS domains). To model the course of functioning and clinical features over time (from baseline to 1-month follow-up) the effects of the ES-SCZ-by-time interaction, ES-SCZ, and time were analyzed (Gueorguieva & Krystal, Reference Gueorguieva and Krystal2004; Singer & Willett, Reference Singer and Willett2003). Given the hierarchical structure of the data, multilevel mixed-effect models were applied to cluster the multiple assessments per individual. The three above-mentioned models were analyzed sequentially. Of note, when applying model 3, analyses including the PANSS domains as the dependent variable were not adjusted for the PANSS total score.

Results

Table 1 reports demographic characteristics, clinical features, as well as baseline outcome variables and missing values. Online Supplementary Table S1 reports the frequencies of the exposure components of ES-SCZ, and Table 2 reports assessment of outcome variables at 1-month follow-up.

Table 1. Demographic characteristics, clinical features, outcome variables and missing values at baseline

DUP, Duration of untreated psychosis; ES-SCZ, Exposome score for schizophrenia; GAF, The Global Assessment of Functioning scale; PANSS, The Positive and Negative Syndrome Scale; PSP, The Personal and Social Performance scale; s.d., Standard deviation.

Table 2. Outcome variables and missing values at 1-month follow-up

GAF, The Global Assessment of Functioning scale; PANSS, The Positive and Negative Syndrome Scale; PSP, The Personal and Social Performance scale.

Association between ES-SCZ and functioning at baseline and 1-month follow-up assessments

The investigation of the association between ES-SCZ and GAF at baseline showed that ES-SCZ was associated with the GAF total score in model 1 that was adjusted for age, sex, and education [B = −2.29 (95% CI −4.05 to −0.52), p value = 0.011]. The results remained significant in model 2 that additionally included other risk factors [B = −2.23 (95% CI −4.12 to −0.35), p value = 0.021] and in the fully adjusted model 3 that additionally included clinical features [B = −2.01 (95% CI −3.88 to −0.13), p value = 0.036]. The analyses using the GAF total score at a 1-month follow-up visit as the outcome converged with the results from the baseline data (Table 3), with the exception of the association between ES-SCZ and the GAF total score in model 3 that was not nominally statistically significant. The relative contribution to explained variance (R 2) indicated that model 3 explained 15.2% of the variance in GAF total score at baseline, of which around 38.9% was explained by clinical features, 21.9% by ES-SCZ, 21.4% by other risk factors, and 17.9% by demographic variables (online Supplementary Table S2).

Table 3. Association between ES-SCZ and functioning at baseline and 1-month follow-up assessments

CI, Confidence interval; ES-SCZ, Exposome score for schizophrenia; GAF, The Global Assessment of Functioning scale; PSP, The Personal and Social Performance scale.

Model 1 was adjusted for age, sex, and education.

Model 2 was adjusted for age, sex, education, migration, obstetric complications, first language, and family history.

Model 3a was adjusted for age, sex, education, migration, obstetric complications, first language, family history, PANSS total (at baseline), antipsychotic medication, and DUP.

Model 3b was adjusted for age, sex, education, migration, obstetric complications, first language, family history, PANSS total (at 1 month follow up), antipsychotic medication, and DUP.

The investigation of the association between ES-SCZ and PSP at baseline likewise showed that ES-SCZ was associated with the PSP total score in model 1 [B = −2.68 (95% CI −4.61 to −0.75), p value = 0.007]. The results remained significant in model 2 [B = −2.40 (95% CI −4.35 to −0.45), p value = 0.016] and in the fully adjusted model 3 [B = −2.31 (95% CI −4.29 to −0.33), p value = 0.022]. The analyses on functioning at 1-month follow-up confirmed the result (Table 3), except for the association between ES-SCZ and PSP total score in model 3 that was not nominally statistically significant. The relative contribution to explained variance (R 2) indicated that model 3 explained 8.7% of the variance in PSP total score at baseline, of which around 40.9% was explained by ES-SCZ, 29.7% by other risk factors, 22.8% by clinical features, and 6.6% by demographic variables (online Supplementary Table S2). Of note, due to rounding, these numbers diverge from a total sum of 100%.

Subsequent analyses of the PSP subdomains revealed that ES-SCZ was significantly associated with socially useful activities as well as personal and social relationships in all the models, whereas the association with self-care as well as disturbing and aggressive behavior were not statistically significant in either of the models (Table 3). The analyses on the subdomains of PSP at 1-month follow-up confirmed the results, except for the association between ES-SCZ and socially useful activities as well as personal and social relationships in model 3 that were not nominally statistically significant (Table 3). The relative contribution to R 2 (online Supplementary Table S2) indicated that model 3 explained 15.9, 10.5, 17.9, and 12.7% of the variance in PSP socially useful activities, personal and social relationships, self-care, disturbing and aggressive behavior at baseline, respectively. Of this, the relative contribution of ES-SCZ was the largest for the explained variance of socially useful activities (38.2%) and personal and social relationships (53.2%), while the relative contribution of ES-SCZ was the lowest for self-care (4.9%) as well as disturbing and aggressive behavior (0.4%).

Longitudinal association between ES-SCZ and functioning modeling the trajectories of initial treatment

The longitudinal analyses of the association between ES-SCZ and functioning showed that ES-SCZ was associated with GAF total and PSP total scores in all models (Table 4). Subsequent analyses of the PSP subdomains revealed that ES-SCZ was significantly associated with socially useful activities as well as personal and social relationships in all the models, whereas the association with self-care as well as disturbing and aggressive behavior were not statistically significant in either of the models (Table 4).

Table 4. Longitudinal association between ES-SCZ and functioning as well as clinical features

CI, Confidence interval; ES-SCZ, Exposome score for schizophrenia; GAF, The Global Assessment of Functioning scale; PANSS, The Positive and Negative Syndrome Scale; PSP, The Personal and Social Performance scale.

Model 1 was adjusted for age, sex, and education.

Model 2 was adjusted for age, sex, education, migration, obstetric complications, first language, and family history.

a Model 3 was adjusted for age, sex, education, migration, obstetric complications, first language, family history, PANSS total, antipsychotic medication, and DUP.

b Model 3 was adjusted for age, sex, education, migration, obstetric complications, first language, family history, antipsychotic medication, and DUP.

The analyses of change of GAF total and PSP total scores over time indicated that functioning increased from baseline assessment to the 1-month follow-up assessment (Table 4). The analyses of the PSP subdomains (i.e. socially useful activities, personal and social relationships, self-care, disturbing and aggressive behavior) converged with the results from the total scores and showed that the severity of the subdomains decreased from baseline to the 1-month follow-up assessment, with the exception of self-care in model 1, which was trend significant; and the subdomain analyses in model 3, which were not nominally statistically significant (Table 4).

No significant ES-SCZ-by-time interaction was found on functioning (GAF and PSP) in either of the models, meaning that changes in functioning were not dependent on ES-SCZ (see Fig. 1 for marginal plots of the analyses in model 1). The analyses on PSP subdomains (i.e. socially useful activities, personal and social relationships, self-care, disturbing and aggressive behavior) converged with the results from the total scores (Table 4).

Fig. 1. Longitudinal association between ES-SCZ and functioning as well as clinical features. shows the marginal plots of the interaction between the exposome score for schizophrenia (ES-SCZ) and functioning (GAF, The Global Assessment of Functioning scale; PSP, The Personal and Social Performance scale) as well as clinical features (PANSS, The Positive and Negative Syndrome Scale) adjusted for age, sex and education.

Longitudinal association between ES-SCZ and clinical features modeling the trajectories of initial treatment

The association between ES-SCZ and PANSS scores (i.e. total, negative, positive, and general symptoms) were not statistically significant in either of the models (Table 4). However, the analyses of change of PANSS subdomains over time indicated that clinical features decreased from baseline to the 1-month follow-up assessment in all the models (Table 4).

The analyses of the PANSS total score over time indicated an ES-SCZ-by-time interaction in model 1 [B = 2.82 (95% CI 0.29–5.35), p value = 0.029], meaning that the decrease of the total score over time were dependent on ES-SCZ and individuals with high ES-SCZ showed less improvement (see Fig. 1 for the marginal plot of the analyses in model 1). The results remained significant in model 2 [B = 2.76 (95% CI 0.13–5.39), p value = 0.040] and in the fully adjusted model 3 [B = 2.75 (95% CI 0.12–5.39), p value = 0.041] (Table 4). Furthermore, subsequent analyses of the PANSS subdomains (i.e. negative, positive, general symptoms) revealed that there were ES-SCZ-by-time interactions on negative symptoms in model 1 [B = 0.67 (95% CI 0.05–1.30), p value = 0.034], in model 2 [B = 0.70 (95% CI 0.03–1.37), p value = 0.040], and in model 3 [B = 0.70 (95% CI 0.03–1.37), p value = 0.041]. Furthermore, there was an ES-SCZ-by-time interaction on positive symptoms in model 1 [B = 0.88 (95% CI 0.01–1.74), p value = 0.046]. The results became trend significant in model 2 (B = 0.85 (95% CI −0.06 to 1.76), p value = 0.067] and in the fully adjusted model 3 [B = 0.85 (95% CI −0.06 to 1.76), p value = 0.068] (Table 4). The interaction between ES-SCZ and time on general symptoms was trend significant in model 1 [B = 1.26 (95% CI −0.16 to 2.68), p value = 0.081]. No other statistically significant interactions were found (Table 4).

Discussion

This study investigated the cross-sectional and temporal associations of ES-SCZ with global functioning, personal and social functionality and symptom severity in an FEP cohort of mainly antipsychotic-naïve patients. We demonstrated that ES-SCZ was associated with overall functioning, specifically, the domains of socially useful activities and personal/social relationships but not the domains of self-care and disturbing behavior at baseline and 1-month assessments, respectively. These findings remained significant even when accounting for several associated alternative explanatory variables including other environmental exposures that were previously associated with psychosis spectrum disorder, clinical characteristics such as DUP and symptom severity, as well as the family history of psychosis, demonstrating that the association between ES-SCZ and functioning is over and above other risk factors and cannot be explained by symptom severity solely. Our longitudinal analysis investigating the change in functioning and symptom severity from baseline to 1-month assessment revealed evidence for an association of ES-SCZ with improvement in psychotic symptoms, in particular negative symptoms. These findings suggest that ES-SCZ appears to be a stable trait indicator of poor functioning across time points and is related to the trajectory of symptomatic improvement but not functioning.

To the best of our knowledge, this is the first study examining the relationship of ES-SCZ with symptomatic and functional outcomes in individuals with FEP. Our findings replicate the results of a recent study showing a strong and consistent association between ES-SCZ and functioning domains (GAF symptom and disability dimensions) in individuals diagnosed with schizophrenia, as well as in their siblings, and healthy controls (Erzin et al., Reference Erzin, Pries, van Os, Fusar-Poli, Delespaul, Kenis and Guloksuz2021). Our current results also echo findings of previous research showing that ES-SCZ was not only related to clinical schizophrenia diagnosis and continuous schizotypy traits (Pries et al., Reference Pries, Dal Ferro, van Os, Delespaul, Kenis, Luykx and Guloksuz2020b) but also temporally associated with poor general mental health outcomes (Pries et al., Reference Pries, Van Os, Ten Have, De Graaf, Van Dorsselaer, Bak and Guloksuz2020a, Reference Pries, Erzin, van Os, Ten Have, de Graaf, van Dorsselaer and Guloksuz2021b), providing further support to the utility of ES-SCZ for determining the degree of mental well-being. Furthermore, we demonstrated that even when accounting for family history of psychotic disorders as a proxy of genetic liability, as well as several other known environmental risk factors of psychosis that were not included in ES-SCZ (i.e. obstetric complications, ethnic minority status, and migration), the relation between ES-SCZ and functioning remained nominally statistically significant, with no reduction in the magnitude of the association.

These findings are in line with recent research and confirm that the relation between ES-SCZ and functioning cannot be reduced to either genetic liability for schizophrenia or other environmental vulnerability that is not captured by ES-SCZ (Erzin et al., Reference Erzin, Pries, van Os, Fusar-Poli, Delespaul, Kenis and Guloksuz2021). However, approaches that capture genetic vulnerability through a single metric of molecular genetic risk such as the polygenic risk score for schizophrenia (PRS-SCZ), may moderate the effects of ES-SCZ on functioning in FEP. PRS-SCZ was recently associated with illness course and treatment effects in FEP (Zhang et al., Reference Zhang, Robinson, Yu, Gallego, Fleischhacker, Kahn and Lencz2019). Furthermore, studies found positive additive interaction effects between PRS-SCZ and cumulative environmental vulnerability for schizophrenia on the risk of schizophrenia, FEP, as well as schizotypy in siblings of patients and healthy controls (Guloksuz et al., Reference Guloksuz, Pries, Delespaul, Kenis, Luykx, Lin and Van Os2019; Mas et al., Reference Mas, Boloc, Rodríguez, Mezquida, Amoretti and Cuesta2020; Pries et al., Reference Pries, Dal Ferro, van Os, Delespaul, Kenis, Luykx and Guloksuz2020b). Following this research line, future studies are required to further investigate whether PRS-SCZ moderates the association between ES-SCZ and functioning across the psychosis spectrum and evaluate the potential combined value of ES-SCZ and PRS-SCZ.

Our findings derived from the final adjusted model including DUP, symptom severity, and previous exposure to antipsychotics showed that ES-SCZ explained functioning over and above clinical representation exclusively. This was also supported by the evaluation of the relative contribution to the explained variance (R2) of functioning. ES-SCZ was the largest contributor for PSP total score, PSP socially useful activities, as well as for PSP personal and social relationships. Furthermore, it was the second-largest contributor to GAF total scores following the clinical features. Our findings highlight the possible utility of assessing exposomic vulnerability in addition to clinical features to estimate potential illness trajectories within clinical settings. A recent study using the current dataset, demonstrated that a clinical prediction model including clinical features and other correlates of psychosis significantly predicted remission at a 1-month follow-up (Soldatos et al., Reference Soldatos, Cearns, Nielsen, Kollias, Xenaki, Stefanatou and Stefanis2021). It is possible that the integration of ES-SCZ into these and similar models may further improve prediction performance in future studies.

Our mixed model regression analyses showed that there was a statistically significant improvement in total functioning scores (both GAF and PSP) from baseline to 1-month assessment, with an increase in functioning across all PSP domains except the self-care category. Similar to the baseline results, ES-SCZ was associated with functioning scores at 1-month in all models but not with changes in functioning over time. In contrast, ES-SCZ was not associated with symptom severity at baseline but improvement in symptom severity from baseline to 1-month assessment, particularly the negative symptom domain. In the light of present findings and combined with previous evidence from the Dutch general population cohort study (Guloksuz et al., Reference Guloksuz, Pries, Ten Have, de Graaf, van Dorsselaer, Klingenberg and van Os2020; Pries et al., Reference Pries, Erzin, van Os, Ten Have, de Graaf, van Dorsselaer and Guloksuz2021b) and EUGEI (Erzin et al., Reference Erzin, Pries, van Os, Fusar-Poli, Delespaul, Kenis and Guloksuz2021), it is plausible to argue that rather than a predictor of functional improvement, ES-SCZ represents a severity indicator that captures poor functioning in psychosis spectrum disorder. In this respect, ES-SCZ can be beneficial for clinical characterization (Maj et al., Reference Maj, van Os, De Hert, Gaebel, Galderisi, Green and Malaspina2021) and incorporated into transdiagnostic staging models (Shah et al., Reference Shah, Scott, McGorry, Cross, Keshavan, Nelson and Scott2020).

Our findings show that the total environmental predisposition to schizophrenia (ES-SCZ) is not only associated with psychosis but also with the short-term illness course. However, long-term follow-up analyses are needed to investigate the stability of the current results given that FEP trajectories diverge over time. In accordance with our findings, previous research investigating exposures individually, such as childhood adversities, has consistently shown that childhood adversities including bullying are associated with more severe illness courses (Alameda et al., Reference Alameda, Golay, Baumann, Ferrari, Do and Conus2016; Schalinski, Fischer, & Rockstroh, Reference Schalinski, Fischer and Rockstroh2015) lower rates of remission, worse outcomes (Thomas, Höfler, Schäfer, & Trautmann, Reference Thomas, Höfler, Schäfer and Trautmann2019), and poor functioning in early psychosis (Alameda et al., Reference Alameda, Ferrari, Baumann, Gholam-Rezaee, Do and Conus2015; Pruessner et al., Reference Pruessner, King, Veru, Schalinski, Vracotas, Abadi and Malla2021; Yung et al., Reference Yung, Cotter, Wood, McGorry, Thompson, Nelson and Lin2015). Similarly, premorbid cannabis use before the onset of psychosis has been associated with symptom severity and poorer functioning, and this association was independent of present substance use and premorbid functioning (Ringen et al., Reference Ringen, Nesvåg, Helle, Lagerberg, Lange, Løberg and Melle2016). Furthermore, an aggregate environmental risk score was associated with a transition to clinical psychosis in youth at familial high risk for psychosis (Padmanabhan et al., Reference Padmanabhan, Shah, Tandon and Keshavan2017). Taken together, these findings reinforce the notion that environmental exposures account for symptom severity and poorer functioning in psychosis.

Methodological considerations

There were several strengths and limitations of our study. First, ES-SCZ was constructed based on the information collected using the same assessment tools and the definitions that were identical to those applied in the study that estimated the risk of each exposure in ES-SCZ, with the exception of hearing impairment (Erzin et al., Reference Erzin, Pries, van Os, Fusar-Poli, Delespaul, Kenis and Guloksuz2021; Pries et al., Reference Pries, Lage-Castellanos, Delespaul, Kenis, Luykx, Lin and Guloksuz2019, Reference Pries, Dal Ferro, van Os, Delespaul, Kenis, Luykx and Guloksuz2020b). However, it is reasonable to presume that had the hearing impairment been measured, our findings would be even more pronounced. Second, ES-SCZ may be further enriched by the inclusion of other exposures that have been previously associated with psychosis such as the use of other substances (e.g. tobacco), ethnic minority, migration, or pre-, perinatal period adversities. Accumulating evidence suggests that tobacco use might be associated with schizophrenia (Gurillo, Jauhar, Murray, & MacCabe, Reference Gurillo, Jauhar, Murray and MacCabe2015; Hunter, Murray, Asher, & Leonardi-Bee, Reference Hunter, Murray, Asher and Leonardi-Bee2020), with findings from Mendelian Randomization studies suggesting a possible causal link (Treur, Munafò, Logtenberg, Wiers, & Verweij, Reference Treur, Munafò, Logtenberg, Wiers and Verweij2021). However, a major challenge of integrating tobacco use into a collective environmental liability index, such as the ES-SCZ, would be the very high correlation between cannabis use and tobacco consumption. The current findings suggest that the degree of the association between ES-SCZ and functioning is not reduced when controlling for other environmental factors such as obstetric complications, ethnic minority, and migration, the inclusion of these additional exposures may nevertheless increase the predictive power of ES-SCZ. However, it should be noted that obstetric complications are rarely available in ongoing cohort samples and extremely challenging to assess reliably in retrospect without detailed birth records. Furthermore, ethnic minority and migration were not included in ES-SCZ as this would diminish the application of ES-SCZ in different populations worldwide with lower diversity (Burkhard, Cicek, Barzilay, Radhakrishnan, & Guloksuz, Reference Burkhard, Cicek, Barzilay, Radhakrishnan and Guloksuz2021; Pries et al., Reference Pries, Erzin, van Os, Ten Have, de Graaf, van Dorsselaer and Guloksuz2021b), as well as decrease the utility of ES-SCZ when combined with PRS-SCZ in heterogenous samples given the low performance of PRS-SCZ in diverse samples (Bigdeli et al., Reference Bigdeli, Genovese, Georgakopoulos, Meyers, Peterson, Iyegbe and Pato2020). Third, we analyzed both the identical functioning assessment (GAF) to enable a true replication of the previous study (Erzin et al., Reference Erzin, Pries, van Os, Fusar-Poli, Delespaul, Kenis and Guloksuz2021) and a more detailed functioning assessment (PSP) to confirm and extend our findings showing an association between ES-SCZ and functioning in a longitudinal FEP cohort. However, our analysis was limited to a relatively short follow-up duration (baseline and 1-month assessments) as the attrition rate at 1-year was 60%. Future studies should conduct long-term follow-up replications to examine the stability of our findings across time.

Fourth, deep clinical phenotyping and rich environmental assessment allowed for inclusion of several associated alternative explanatory variables to test the robustness of the association between ES-SCZ and functioning independent of clinical and other environmental features, such as pre- and perinatal risk factors (Davies et al., Reference Davies, Segre, Estradé, Radua, De Micheli, Provenzani and Fusar-Poli2020; Paquin, Lapierre, Veru, & King, Reference Paquin, Lapierre, Veru and King2021). However, there might still be unmeasured confounding considering the extensive list of factors associated with functioning. Finally, the confounding of antipsychotic use was negligible, as the majority of the study participants (66%) was medication-naïve at baseline, with the remaining subjected to only minimal antipsychotic exposure. Although this was a relatively large FEP cohort, larger samples might be required to analyze the mediators and moderators of the association between environmental predisposition to schizophrenia and functioning.

Conclusions

Our findings provide further support to the notion that environmental risk loading for schizophrenia (ES-SCZ) may aid in estimating the functioning over the course of a psychotic disorder (Erzin & Guloksuz, Reference Erzin and Guloksuz2021; Pries, Erzin, Rutten, van Os, & Guloksuz, Reference Pries, Erzin, Rutten, van Os and Guloksuz2021a). Furthermore, our findings suggest that the influence of ES-SCZ on functioning outcomes cannot be reduced to the impact of other known risk factors for schizophrenia or clinical characteristics. In this regard, the assessment of environmental risk factors for schizophrenia should be an integral part of the routine clinical evaluation in individuals with FEP.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S0033291721004542

Acknowledgements

Financial Support: Dr Erzin is supported by the Scientific and Technological Research Council of Turkey, 2219 International Postdoctoral Research Fellowship Program. Dr Pries is supported by the Kootstra Talent Fellowship of Maastricht University. Dr Guloksuz and van Os are supported by the Ophelia research project, ZonMw grant number: 636340001.

Financial support

European Community's Seventh Framework Program, Grant/Award Number: HEALTH-F2-2009-241909.

Conflict of interest

There is no conflict of interest.

Ethical standards

All patients gave written informed consent to participate in the study and use their data. The study was conducted in accordance with the Helsinki Declaration of 1975, as revised in 2008 and approved by the Research Ethics committee of the Eginition University Hospital (protocol 644Υ46Ψ8Ν2-ΓΚΣ) and affiliated sites.

Footnotes

*

These authors contributed as joint last authors.

References

Aas, M., Andreassen, O. A., Aminoff, S. R., Færden, A., Romm, K. L., Nesvåg, R., … Melle, I. (2016). A history of childhood trauma is associated with slower improvement rates: Findings from a one-year follow-up study of patients with a first-episode psychosis. BMC Psychiatry, 16(1), 126. doi: 10.1186/s12888-016-0827-4CrossRefGoogle ScholarPubMed
Alameda, L., Ferrari, C., Baumann, P., Gholam-Rezaee, M., Do, K., & Conus, P. (2015). Childhood sexual and physical abuse: Age at exposure modulates impact on functional outcome in early psychosis patients. Psychological Medicine, 45(13), 2727.CrossRefGoogle ScholarPubMed
Alameda, L., Golay, P., Baumann, P. S., Ferrari, C., Do, K. Q., & Conus, P. (2016). Age at the time of exposure to trauma modulates the psychopathological profile in patients with early psychosis. The Journal of Clinical Psychiatry, 77(5), 612618.CrossRefGoogle ScholarPubMed
American Psychiatric Association (2000). Diagnostic and statistical manual of mental disorders from DSM-IV-TR., Washington, DC: Author.Google Scholar
American Psychiatric Association. (2013). Diagnostic and statistical manual of mental disorders DSM-5. Washington, DC: Author.Google Scholar
Bigdeli, T. B., Genovese, G., Georgakopoulos, P., Meyers, J. L., Peterson, R. E., Iyegbe, C. O., … Pato, C. N. (2020). Contributions of common genetic variants to risk of schizophrenia among individuals of African and Latino ancestry. Molecular Psychiatry, 25(10), 24552467.CrossRefGoogle ScholarPubMed
Burkhard, C., Cicek, S., Barzilay, R., Radhakrishnan, R., & Guloksuz, S. (2021). Need for ethnic and population diversity in psychosis research. Schizophrenia Bulletin, 74(4), 889895.CrossRefGoogle Scholar
Castle, D. J., Jablensky, A., McGrath, J. J., Carr, V., Morgan, V., Waterreus, A., … Farmer, A. (2006). The diagnostic interview for psychoses (DIP): Development, reliability and applications. Psychological Medicine, 36(1), 6980. doi: 10.1017/s0033291705005969CrossRefGoogle ScholarPubMed
Chang, W. C., Kwong, V. W. Y., Chan, G. H. K., Jim, O. T. T., Lau, E. S. K., Hui, C. L. M., … Chen, E. Y. H. (2016). Prediction of functional remission in first-episode psychosis: 12-month follow-up of the randomized-controlled trial on extended early intervention in Hong Kong. Schizophrenia Research, 173(1–2), 7983.CrossRefGoogle ScholarPubMed
Chang, W. C., Kwong, V. W. Y., Fai, Or Chi, Lau, P., Chan, E. S. K., Jim, G. H. K., , O. T. T., … Chen, E. Y. H. (2018). Motivational impairment predicts functional remission in first-episode psychosis: 3-year follow-up of the randomized controlled trial on extended early intervention. Australian & New Zealand Journal of Psychiatry, 52(12), 11941201.CrossRefGoogle ScholarPubMed
Davies, C., Segre, G., Estradé, A., Radua, J., De Micheli, A., Provenzani, U., … Fusar-Poli, P. (2020). Prenatal and perinatal risk and protective factors for psychosis: A systematic review and meta-analysis. The Lancet Psychiatry, 7(5), 399410. doi: 10.1016/s2215-0366(20)30057-2CrossRefGoogle ScholarPubMed
Endicott, J., Spitzer, R. L., Fleiss, J. L., & Cohen, J. (1976). The global assessment scale: A procedure for measuring overall severity of psychiatric disturbance. Archives of General Psychiatry, 33(6), 766771.CrossRefGoogle Scholar
Erzin, G., & Guloksuz, S. (2021). The exposome paradigm to understand the environmental origins of mental disorders. Alpha Psychiatry, 22, 171176. doi: 10.5152/AP.2021.0105.CrossRefGoogle ScholarPubMed
Erzin, G., Pries, L.-K., van Os, J., Fusar-Poli, L., Delespaul, P., Kenis, G., … Guloksuz, S. (2021). Examining the association between exposome score for schizophrenia and functioning in schizophrenia, siblings, and healthy controls: Results from the EUGEI study. European Psychiatry, 64(1), 133.CrossRefGoogle ScholarPubMed
EU-GEI. (2010). European Network of National Schizophrenia Networks Studying Gene- Environment Interactions (EU-GEI).Google Scholar
Faber, G., Smid, H. G., Van Gool, A. R., Wunderink, L., van den Bosch, R. J., & Wiersma, D. (2012). Continued cannabis use and outcome in first-episode psychosis: Data from a randomized, open-label, controlled trial. The Journal of Clinical Psychiatry, 73(5), 632638.CrossRefGoogle ScholarPubMed
Gueorguieva, R., & Krystal, J. H. (2004). Move over ANOVA: Progress in analyzing repeated-measures data and its reflection in papers published in the archives of general psychiatry. Archives of General Psychiatry, 61(3), 310317.CrossRefGoogle ScholarPubMed
Guloksuz, S., Pries, L. K., Delespaul, P., Kenis, G., Luykx, J. J., Lin, B. D., … Van Os, J. (2019). Examining the independent and joint effects of molecular genetic liability and environmental exposures in schizophrenia: Results from the EUGEI study. World Psychiatry, 18, 173182.CrossRefGoogle ScholarPubMed
Guloksuz, S., Pries, L. K., Ten Have, M., de Graaf, R., van Dorsselaer, S., Klingenberg, B., … van Os, J. (2020). Association of preceding psychosis risk states and non-psychotic mental disorders with incidence of clinical psychosis in the general population: A prospective study in the NEMESIS-2 cohort. World Psychiatry, 19(2), 199205.CrossRefGoogle ScholarPubMed
Guloksuz, S., & van Os, J. (2018). The slow death of the concept of schizophrenia and the painful birth of the psychosis spectrum. Psychological Medicine, 48(2), 229244.CrossRefGoogle ScholarPubMed
Guloksuz, S., van Os, J., & Rutten, B. P. (2018). The exposome paradigm and the complexities of environmental research in psychiatry. JAMA Psychiatry, 75(10), 985986.CrossRefGoogle ScholarPubMed
Gurillo, P., Jauhar, S., Murray, R. M., & MacCabe, J. H. (2015). Does tobacco use cause psychosis? Systematic review and meta-analysis. The Lancet Psychiatry, 2(8), 718725.CrossRefGoogle ScholarPubMed
Hunter, A., Murray, R., Asher, L., & Leonardi-Bee, J. (2020). The effects of tobacco smoking, and prenatal tobacco smoke exposure, on risk of schizophrenia: A systematic review and meta-analysis. Nicotine and Tobacco Research, 22(1), 310.CrossRefGoogle ScholarPubMed
Kay, S. R., Fiszbein, A., & Opler, L. A. (1987). The positive and negative syndrome scale (PANSS) for schizophrenia. Schizophrenia Bulletin, 13(2), 261276.CrossRefGoogle ScholarPubMed
Koutsouleris, N., Kambeitz-Ilankovic, L., Ruhrmann, S., Rosen, M., Ruef, A., Dwyer, D. B., … Haidl, T. (2018). Prediction models of functional outcomes for individuals in the clinical high-risk state for psychosis or with recent-onset depression: A multimodal, multisite machine learning analysis. JAMA Psychiatry, 75(11), 11561172.CrossRefGoogle ScholarPubMed
Kuzman, M. R., Makaric, P., Kuharic, D. B., Kekin, I., Madzarac, Z., Makar, A. K., … Zivkovic, M. (2020). General functioning in patients with first-episode psychosis after the first 18 months of treatment. Journal of Clinical Psychopharmacology, 40(4), 366372.CrossRefGoogle Scholar
Lewis, S. W., & Murray, R. M. (1987). Obstetric complications, neurodevelopmental deviance, and risk of schizophrenia. Journal of Psychiatric Research, 21(4), 413421.CrossRefGoogle ScholarPubMed
Lykouras, E., Botsis, A., & Oulis, P. (1994). The positive and negative syndrome scale (PANSS). Athens, Greece: Tsiveriotis Ed.Google Scholar
Maj, M., van Os, J., De Hert, M., Gaebel, W., Galderisi, S., Green, M. F., … Malaspina, D. (2021). The clinical characterization of the patient with primary psychosis aimed at personalization of management. World Psychiatry, 20(1), 433.CrossRefGoogle ScholarPubMed
Mas, S., Boloc, D., Rodríguez, N., Mezquida, G., Amoretti, S., & Cuesta, M. J., … PEPs Group. (2020). Examining gene-environment interactions using aggregate scores in a first-episode psychosis cohort. Schizophrenia Bulletin, 46(4), 10191025.CrossRefGoogle Scholar
Maxwell, M. E. (1992). Family interview for genetic studies (FIGS): A manual for FIGS. Bethesda, MD: Clinical Neurogenetics Branch, Intramural Research Program, National Institute of Mental Health.Google Scholar
Mezquida, G., Cabrera, B., Bioque, M., Amoretti, S., Lobo, A., González-Pinto, A., … Castro-Fornieles, J. (2017). The course of negative symptoms in first-episode schizophrenia and its predictors: A prospective two-year follow-up study. Schizophrenia Research, 189, 8490.CrossRefGoogle ScholarPubMed
Morosini, P. L., Magliano, L., Brambilla, L. A., Ugolini, S., & Pioli, R. (2000). Development, reliability and acceptability of a new version of the DSM-IV social and occupational functioning assessment scale (SOFAS) to assess routine social functioning. Acta Psychiatrica Scandinavica, 101(4), 323329.CrossRefGoogle ScholarPubMed
Padmanabhan, J. L., Shah, J. L., Tandon, N., & Keshavan, M. S. (2017). The “polyenviromic risk score”: Aggregating environmental risk factors predicts conversion to psychosis in familial high-risk subjects. Schizophrenia Research, 181, 1722.CrossRefGoogle ScholarPubMed
Paquin, V., Lapierre, M., Veru, F., & King, S. (2021). Early environmental upheaval and the risk for schizophrenia. Annual Review of Clinical Psychology, 17, 285311.CrossRefGoogle ScholarPubMed
Pedersen, G., Hagtvet, K. A., & Karterud, S. (2007). Generalizability studies of the Global Assessment of Functioning–split version. Comprehensive Psychiatry, 48(1), 8894.CrossRefGoogle ScholarPubMed
Pedersen, G., & Karterud, S. (2012). The symptom and function dimensions of the Global Assessment of Functioning (GAF) scale. Comprehensive Psychiatry, 53(3), 292298.CrossRefGoogle ScholarPubMed
Penttilä, M., Jääskeläinen, E., Hirvonen, N., Isohanni, M., & Miettunen, J. (2014). Duration of untreated psychosis as predictor of long-term outcome in schizophrenia: Systematic review and meta-analysis. The British Journal of Psychiatry, 205(2), 8894.CrossRefGoogle ScholarPubMed
Peralta, V., Moreno-Izco, L., García de Jalón, E., Sánchez-Torres, A. M., Janda, L., Peralta, D., … Cuesta, M. J. (2021). Prospective long-term cohort study of subjects with first-episode psychosis examining eight major outcome domains and their predictors: Study protocol. Frontiers in Psychiatry, 12, 313.CrossRefGoogle ScholarPubMed
Pries, L.-K., Dal Ferro, G., van Os, J., Delespaul, P., Kenis, G., Luykx, J. J., … Guloksuz, S. (2020b). Examining the independent and joint effects of genomic and exposomic liabilities for schizophrenia across the psychosis spectrum. Epidemiology and Psychiatric Sciences, 29, E182. doi: 10.1017/s2045796020000943CrossRefGoogle ScholarPubMed
Pries, L.-K., Erzin, G., Rutten, B. P., van Os, J., & Guloksuz, S. (2021a). Estimating aggregate environmental risk score in psychiatry: The exposome score for schizophrenia. Frontiers in Psychiatry, 12, 834.CrossRefGoogle ScholarPubMed
Pries, L.-K., Erzin, G., van Os, J., Ten Have, M., de Graaf, R., van Dorsselaer, S., … Guloksuz, S. (2021b). Predictive performance of exposome score for schizophrenia in the general population. Schizophrenia Bulletin, 47(2), 277283.CrossRefGoogle ScholarPubMed
Pries, L.-K., Lage-Castellanos, A., Delespaul, P., Kenis, G., Luykx, J. J., Lin, B. D., … Guloksuz, S. (2019). Estimating exposome score for schizophrenia using predictive modeling approach in two independent samples: The results from the EUGEI study. Schizophrenia Bulletin, 45(5), 960965. doi: 10.1093/schbul/sbz054CrossRefGoogle ScholarPubMed
Pries, L.-K., Van Os, J., Ten Have, M., De Graaf, R., Van Dorsselaer, S., Bak, M., … Guloksuz, S. (2020a). Association of recent stressful life events with mental and physical health in the context of genomic and exposomic liability for schizophrenia. JAMA Psychiatry, 77(12), 1296. doi: 10.1001/jamapsychiatry.2020.2304CrossRefGoogle ScholarPubMed
Pruessner, M., King, S., Veru, F., Schalinski, I., Vracotas, N., Abadi, S., … Malla, A. K. (2021). Impact of childhood trauma on positive and negative symptom remission in first-episode psychosis. Schizophrenia Research, 231, 8289.CrossRefGoogle ScholarPubMed
Ringen, P. A., Nesvåg, R., Helle, S., Lagerberg, T. V., Lange, E. H., Løberg, E. M., … Melle, I. (2016). Premorbid cannabis use is associated with more symptoms and poorer functioning in schizophrenia spectrum disorder. Psychological Medicine, 46(15), 31273136. doi: 10.1017/s0033291716001999CrossRefGoogle ScholarPubMed
Rosengard, R. J., Malla, A., Mustafa, S., Iyer, S. N., Joober, R., Bodnar, M., … Shah, J. L. (2019). Association of pre-onset subthreshold psychotic symptoms with longitudinal outcomes during treatment of a first episode of psychosis. JAMA Psychiatry, 76(1), 6170.CrossRefGoogle ScholarPubMed
Santesteban-Echarri, O., Paino, M., Rice, S., González-Blanch, C., McGorry, P., Gleeson, J., & Alvarez-Jimenez, M. (2017). Predictors of functional recovery in first-episode psychosis: A systematic review and meta-analysis of longitudinal studies. Clinical Psychology Review, 58, 5975.CrossRefGoogle ScholarPubMed
Schalinski, I., Fischer, Y., & Rockstroh, B. (2015). Impact of childhood adversities on the short-term course of illness in psychotic spectrum disorders. Psychiatry Research, 228(3), 633640.CrossRefGoogle ScholarPubMed
Schimmelmann, B. G., Conus, P., Cotton, S., Kupferschmid, S., McGorry, P. D., & Lambert, M. (2012). Prevalence and impact of cannabis use disorders in adolescents with early-onset first-episode psychosis. European Psychiatry, 27(6), 463469. doi: 10.1016/j.eurpsy.2011.03.001CrossRefGoogle ScholarPubMed
Seddon, J. L., Birchwood, M., Copello, A., Everard, L., Jones, P. B., Fowler, D., … Marshall, M. (2016). Cannabis use is associated with increased psychotic symptoms and poorer psychosocial functioning in first-episode psychosis: A report from the UK national EDEN study. Schizophrenia Bulletin, 42(3), 619625.CrossRefGoogle ScholarPubMed
Shah, J. L., Scott, J., McGorry, P. D., Cross, S. P., Keshavan, M. S., Nelson, B., … Scott, E. M. (2020). Transdiagnostic clinical staging in youth mental health: A first international consensus statement. World Psychiatry, 19(2), 233242.CrossRefGoogle ScholarPubMed
Singer, J. D., & Willett, J. B. (2003). Applied longitudinal data analysis: Modeling change and event occurrence. New York: Oxford University Press.CrossRefGoogle Scholar
Singh, S. P., Cooper, J. E., Fisher, H. L., Tarrant, C. J., Lloyd, T., Banjo, J., … Jones, P. (2005). Determining the chronology and components of psychosis onset: The Nottingham Onset Schedule (NOS). Schizophrenia Research, 80(1), 117130.CrossRefGoogle ScholarPubMed
Soldatos, R. F., Cearns, M., Nielsen, , Kollias, C., Xenaki, L. A., Stefanatou, P., … Stefanis, N. (2021). Prediction of early symptom remission in two independent samples of first-episode psychosis patients using machine learning. Schizophrenia Bulletin. doi: 10.1093/schbul/sbab107Google Scholar
StataCorp. (2019). Stata statistical software: Release 16. College Station, TX (Version 16): StataCorp LLC.Google Scholar
Strålin, P., Skott, M., & Cullberg, J. (2019). Early recovery and employment outcome 13 years after first-episode psychosis. Psychiatry Research, 271, 374380.CrossRefGoogle ScholarPubMed
Thomas, S., Höfler, M., Schäfer, I., & Trautmann, S. (2019). Childhood maltreatment and treatment outcome in psychotic disorders: A systematic review and meta-analysis. Acta Psychiatrica Scandinavica, 140(4), 295312.CrossRefGoogle ScholarPubMed
Treur, J. L., Munafò, M. R., Logtenberg, E., Wiers, R. W., & Verweij, K. J. (2021). Using Mendelian randomization analysis to better understand the relationship between mental health and substance use: A systematic review. Psychological Medicine.CrossRefGoogle ScholarPubMed
Verma, S., Subramaniam, M., Abdin, E., Poon, L., & Chong, S. (2012). Symptomatic and functional remission in patients with first-episode psychosis. Acta Psychiatrica Scandinavica, 126(4), 282289.CrossRefGoogle ScholarPubMed
World Health Organization (1992). The ICD-10 classification of mental and behavioural disorders: Clinical descriptions and diagnostic guidelines. Geneva: World Health Organization.Google Scholar
Xenaki, L. A., Kollias, C. T., Stefanatou, P., Ralli, I., Soldatos, R. F., Dimitrakopoulos, S., … Vlachos, I. I. (2020). Organization framework and preliminary findings from the Athens first-episode psychosis research study. Early Intervention in Psychiatry, 14(3), 343355.CrossRefGoogle ScholarPubMed
Yung, A. R., Cotter, J., Wood, S. J., McGorry, P., Thompson, A. D., Nelson, B., & Lin, A. (2015). Childhood maltreatment and transition to psychotic disorder independently predict long-term functioning in young people at ultra-high risk for psychosis. Psychological Medicine, 45(16), 34533465. doi: 10.1017/s003329171500135xCrossRefGoogle ScholarPubMed
Zhang, J. P., Robinson, D., Yu, J., Gallego, J., Fleischhacker, W. W., Kahn, R. S., … Lencz, T. (2019). Schizophrenia polygenic risk score as a predictor of antipsychotic efficacy in first-episode psychosis. American Journal of Psychiatry, 176(1), 2128.CrossRefGoogle ScholarPubMed
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Table 1. Demographic characteristics, clinical features, outcome variables and missing values at baseline

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Table 2. Outcome variables and missing values at 1-month follow-up

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Table 3. Association between ES-SCZ and functioning at baseline and 1-month follow-up assessments

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Table 4. Longitudinal association between ES-SCZ and functioning as well as clinical features

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Fig. 1. Longitudinal association between ES-SCZ and functioning as well as clinical features. shows the marginal plots of the interaction between the exposome score for schizophrenia (ES-SCZ) and functioning (GAF, The Global Assessment of Functioning scale; PSP, The Personal and Social Performance scale) as well as clinical features (PANSS, The Positive and Negative Syndrome Scale) adjusted for age, sex and education.

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