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Symptom remission at 12-weeks strongly predicts long-term recovery from the first episode of psychosis

Published online by Cambridge University Press:  25 July 2019

Paola Dazzan Open the ORCID record for Paola Dazzan [Opens in a new window] ,
Julia M. Lappin ,
Margaret Heslin ,
Kim Donoghue ,
Ben Lomas ,
Uli Reininghaus ,
Adanna Onyejiaka ,
Tim Croudace ,
Peter B. Jones  and
Robin M. Murray
...Show all authors
Paola Dazzan*
Affiliation:
Department of Psychosis Studies, Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK National Institute for Health Research Mental Health Biomedical Research Centre at South London and Maudsley NHS Foundation Trust and King's College London, London, UK
Julia M. Lappin
Affiliation:
School of Psychiatry, Faculty of Medicine, University of New South Wales, Sydney, Australia
Margaret Heslin
Affiliation:
National Institute for Health Research Mental Health Biomedical Research Centre at South London and Maudsley NHS Foundation Trust and King's College London, London, UK Department of Health Service & Population Research, Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK
Kim Donoghue
Affiliation:
Department of Addictions, Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK
Ben Lomas
Affiliation:
Department of Psychiatry, University of Nottingham, Nottingham, UK
Uli Reininghaus
Affiliation:
Department of Health Service & Population Research, Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK Department of Public Mental Health, Central Institute of Mental Health, Medical Faculty Mannheim, Heidelberg University
Adanna Onyejiaka
Affiliation:
Department of Psychosis Studies, Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK
Tim Croudace
Affiliation:
School of Nursing & Health Sciences, University of Dundee, Dundee, UK
Peter B. Jones
Affiliation:
University of Cambridge, and Cambridgeshire and Peterborough NHS Foundation Trust, Cambridge, UK
Robin M. Murray
Affiliation:
Department of Psychosis Studies, Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK National Institute for Health Research Mental Health Biomedical Research Centre at South London and Maudsley NHS Foundation Trust and King's College London, London, UK
Paul Fearon
Affiliation:
Discipline of Psychiatry, School of Medicine, Trinity College, Dublin, Ireland
Gillian A. Doody
Affiliation:
Department of Psychiatry, University of Nottingham, Nottingham, UK
Craig Morgan
Affiliation:
National Institute for Health Research Mental Health Biomedical Research Centre at South London and Maudsley NHS Foundation Trust and King's College London, London, UK Department of Health Service & Population Research, Institute of Psychiatry, Psychology & Neuroscience, King's College London, London, UK
*
Author for correspondence: Paola Dazzan, E-mail: paola.dazzan@kcl.ac.uk
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Abstract

Background

To determine the baseline individual characteristics that predicted symptom recovery and functional recovery at 10-years following the first episode of psychosis.

Methods

AESOP-10 is a 10-year follow up of an epidemiological, naturalistic population-based cohort of individuals recruited at the time of their first episode of psychosis in two areas in the UK (South East London and Nottingham). Detailed information on demographic, clinical, and social factors was examined to identify which factors predicted symptom and functional remission and recovery over 10-year follow-up. The study included 557 individuals with a first episode psychosis. The main study outcomes were symptom recovery and functional recovery at 10-year follow-up.

Results

At 10 years, 46.2% (n = 140 of 303) of patients achieved symptom recovery and 40.9% (n = 117) achieved functional recovery. The strongest predictor of symptom recovery at 10 years was symptom remission at 12 weeks (adj OR 4.47; CI 2.60–7.67); followed by a diagnosis of depression with psychotic symptoms (adj OR 2.68; CI 1.02–7.05). Symptom remission at 12 weeks was also a strong predictor of functional recovery at 10 years (adj OR 2.75; CI 1.23–6.11), together with being from Nottingham study centre (adj OR 3.23; CI 1.25–8.30) and having a diagnosis of mania (adj OR 8.17; CI 1.61–41.42).

Conclusions

Symptom remission at 12 weeks is an important predictor of both symptom and functional recovery at 10 years, with implications for illness management. The concepts of clinical and functional recovery overlap but should be considered separately.

Keywords

Clinical outcomefunctional outcomepsychosisremissionschizophrenia
Type
Original Articles
Information
Psychological Medicine , Volume 50 , Issue 9 , July 2020 , pp. 1452 - 1462
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 in any medium, provided the original work is properly cited
Copyright
Copyright © Cambridge University Press 2019

Introduction

Our ability to predict outcome following a first psychotic episode remains limited. Decades of research have shown that factors such as earlier age of onset, male gender, longer duration of untreated illness, and insidious onset are each grossly associated with worse outcome in schizophrenia (Johnstone et al., Reference Johnstone, Owens, Bydder, Colter, Crow and Frith1989; Jablensky et al., Reference Jablensky, Sartorius, Ernberg, Anker, Korten, Cooper, Day and Bertelsen1992; Leung and Chue, Reference Leung and Chue2000; Marshall et al., Reference Marshall, Lewis, Lockwood, Drake, Jones and Croudace2005; Rabinowitz et al., Reference Rabinowitz, Levine and Häfner2006). None of these factors, however, has proven sensitive or specific enough to be clinically useful in predicting the outcome for an individual.

This lack of knowledge about clinically useful predictors reflects several issues. First, long-term cohort studies of first-episode psychosis (FEP) to date have evaluated prevalence samples with schizophrenia only (rather than all psychoses), which tend to have an over-representation of patients with poorer outcomes and an under-representation of those who do not remain in treatment (van Os et al., Reference van Os, Wright and Murray1997). Second, many have implemented structured treatment protocols, not necessarily reflective of real-life practice, with consequent limited generalizability of findings. Third, there has been variability in the timeframes evaluated, the assessment tools used, and the outcome measures reported. Definitions used for remission and recovery, for example, range from the total absence of symptoms (Thara et al., Reference Thara, Henrietta, Joseph, Rajikumar and Eaton1994) to symptoms present below a certain threshold (Crumlish et al., Reference Crumlish, Whitty, Clarke, Browne, Kamali, Gervin, McTigue, Kinsella, Waddington, Larkin and O'Callaghan2009) for variable periods of time. Finally, symptom remission and social functioning have often been reported together, with both considered necessary for a good outcome, although such coupling lacks an empirical basis.

Evidence from short-term (up to 2 years) follow-up studies and clinical trials suggests that early improvement in symptom severity may predict response to antipsychotic drugs and short-term clinical outcome (Craig et al., Reference Craig, Fennig, Tanenberg-Karant and Bromet1999; Robinson et al., Reference Robinson, Woerner, Alvir, Bilder, Hinrichsen and Lieberman1999; Emsley et al., Reference Emsley, Oosthuizen, Kidd, Koen, Niehaus and Turner2006). Although symptomatic improvement following first treatment (4–6 weeks to 3 months) has been associated with better outcome at 1–2 years (Lieberman et al., Reference Lieberman, Jody, Geisler, Alvir, Loebel, Szymanski, Woerner and Borenstein1993; Robinson et al., Reference Robinson, Woerner, Alvir, Bilder, Hinrichsen and Lieberman1999), its relationship with longer-term outcome remains unclear. Follow-up studies of more than 8 years' duration have indirectly reported that non-specific measures of early remission, such as ‘prompt treatment’ (Friis et al., Reference Friis, Melle, Johannessen, Røssberg, Barder, Evensen, Haahr, Ten Velden Hegelstad, Joa, Langeveld, Larsen, Opjordsmoen, Rund, Simonsen, Vaglum and McGlashan2016) and ‘shorter proportion of time spent experiencing symptoms in first few years of illness’ (Wiersma et al., Reference Wiersma, Nienhuis, Slooff and Giel1998; Harrison et al., Reference Harrison, Hopper, Craig, Laska, Siegel, Wanderling, Dube, Ganev, Giel, an der Heiden, Holmberg, Janca, Lee, León, Malhotra, Marsella, Nakane, Sartorius, Shen, Skoda, Thara, Tsirkin, Varma, Walsh and Wiersma2001; Hegelstad et al., Reference Hegelstad, Larsen, Auestad, Evensen, Haahr, Joa, Johannesen, Langeveld, Melle, Opjordsmoen, Rossberg, Rund, Simonsen, Sundet, Vaglum, Friis and McGlashan2012) are associated with better long-term outcome. None of these studies has evaluated the role of time to the first remission according to operationalised criteria in long-term outcome.

In order to move towards a novel framework for targeted interventions, we need longitudinal data from unselected samples of incident cases of all psychoses (not just schizophrenia), evaluated using clear operational definitions of symptomatic and functional outcomes. Factors that predict sustained symptom remission and functional recovery should be explored separately to inform differential interventions. This is what we aimed to do in this unique study.

In a large cohort of individuals experiencing FEP, we evaluated predictors of symptom and functional remission and recovery over the subsequent 10-years in three domains (demographic, clinical, social) (Morgan et al., Reference Morgan, Lappin, Heslin, Donoghue, Lomas, Reininghaus, Onyejiaka, Croudace, Jones, Murray, Fearon, Doody and Dazzan2014).

Method

We conducted a 10-year follow-up study (ÆSOP-10) of an epidemiological cohort of 557 individuals initially assessed at the time of their first episode of psychosis (FEP) in two UK centres, south-east London (urban) and Nottingham (semi-urban). This sample comprised all incident cases who presented to specialist mental health services within tightly-defined catchment areas in the two centres (n = 532). The study was approved by the local Research Ethics Committees.

Our procedures for tracing cases were in line with those of previous long-term follow-up studies of psychosis (Harrison et al., Reference Harrison, Hopper, Craig, Laska, Siegel, Wanderling, Dube, Ganev, Giel, an der Heiden, Holmberg, Janca, Lee, León, Malhotra, Marsella, Nakane, Sartorius, Shen, Skoda, Thara, Tsirkin, Varma, Walsh and Wiersma2001; White et al., Reference White, Stirling, Hopkins, Morris, Montague, Tantam and Lewis2009). At approximately 10-years after inclusion, we sought to trace and re-interview all cases included in the baseline study (see Morgan et al., Reference Morgan, Lappin, Heslin, Donoghue, Lomas, Reininghaus, Onyejiaka, Croudace, Jones, Murray, Fearon, Doody and Dazzan2014).

Baseline

At baseline, information was collated on clinical presentation and demographic and social characteristics. Assessments were completed on a range of clinical and social risk factors (Morgan et al., Reference Morgan, Dazzan, Morgan, Jones, Harrison, Leff, Murray and Fearon2006). Baseline ICD-10 and DSM-IV diagnoses were determined at consensus meetings using data collected with the Schedules for Clinical Assessment in Neuropsychiatry (SCAN) (WHO, 1992). From this schedule, a series of symptom dimensions (mania, reality distortion, negative, depressive and disorganization) was obtained (Demjaha et al., Reference Demjaha, Morgan, Morgan, Landau, Dean, Reichenberg, Sham, Fearon, Hutchinson, Jones, Murray and Dazzan2009). We created an index of disadvantage by counting the presence of four markers: living alone, being single, being unemployed, living in rented housing.

Symptom course and outcome

We used an extended version of the WHO Life Chart to collate information across symptom and social course and outcome, as previously described (Morgan et al., Reference Morgan, Lappin, Heslin, Donoghue, Lomas, Reininghaus, Onyejiaka, Croudace, Jones, Murray, Fearon, Doody and Dazzan2014). The Life Chart has been used successfully in previous long- term follow-up studies, including those with follow-up periods in excess of 10-years, and is designed to collate information from multiple sources (Sartorius et al., Reference Sartorius, Gulbinat, Harrison, Laska and Siegel1996; Morgan et al., Reference Morgan, Lappin, Heslin, Donoghue, Lomas, Reininghaus, Onyejiaka, Croudace, Jones, Murray, Fearon, Doody and Dazzan2014). We included additional substance use and service contact information, and a timeline to document psychotic symptoms and contacts with mental health services. We recorded prescription of, and compliance with, anti-psychotic medications throughout the follow-up. Although the Life Chart has been shown to produce reliable ratings (Susser et al., Reference Susser, Finnerty, Mojtabai, Yale, Conover, Goetz and Amador2000), all clinical ratings were made by consensus.

Information on symptoms in the month preceding follow-up was collected using the Schedules for Clinical Assessment in Neuropsychiatry (SCAN) Version 2 (WHO, 1992), the Scale for the Assessment of Negative Symptoms (SANS), and the Global Assessment of Function (symptom score) (Endicott et al., Reference Endicott, Spitzer, Fleiss and Cohen1976). Information from the Life Chart and SCAN were used to make a lifetime diagnosis.

Symptom remission and recovery

In line with Andreasen and colleagues (Andreasen et al., Reference Andreasen, Carpenter, Kane, Lasser, Marder and Weinberger2005), we defined remission as absence of overt psychotic symptoms (operationalised as a score of 2 or 3 on Rating Scale 2 in the SCAN; 0 = absence, 1 = symptom occurred, but fleeting, 2 = symptom definitely present, 3 = symptom present more or less continuously) for a period of at least 6 months. We used the symptom criteria to define early symptomatic remission beginning at most 3 months after the first contact. We defined symptom recovery as sustained remission for 2 or more years.

Social functioning and functional recovery

Information on sociodemographic markers of social function and integration across a number of domains (housing, employment, relationships, education, and social networks) over follow-up was collected using the Life Chart (Table 2). Information on social function in the month prior to follow-up was collected using the Life Chart and the GAF (disability score) (24). GAF score equal to or greater than 60 was used to define functional recovery.

Analysis

We describe primary outcomes using frequencies and percentages, and means or medians and standard deviations or inter-quartile ranges. We examined associations between each set of putative baseline and early course predictors and (a) symptom recovery at 10 years using logistic regression and (b) functional recovery (i.e. GAF > 60) at 10 years using linear regression. We first fit univariable models and then adjusted (a) for study centre, age, gender, and ethnicity and (b) in turn, for other variables found to be associated with each outcome, retaining in the final models only those variables that improved model fit based on likelihood ratio tests. For final models, we further report pseudo-R2 statistics and percentage recovered correctly predicted, estimated using post-estimation commands in Stata. All analyses were conducted using Stata 13.

Results

Description of the sample

Of the original 532 incident cases, 37 (7.0%) had died, 29 (5.5%) had left the country and 8 (1.5%) were excluded based on information not available at baseline. Of the remaining 458 cases, we obtained useable information on symptom course and outcome across one or more of our three domains on 387 (84.5% of 458) for at least 8 years of follow-up. There were no systematic differences by age, gender, ethnicity, duration of untreated psychosis (DUP), baseline employment, baseline diagnosis, mode of initial contact with mental health services, or study centre between those with follow up information and those without (Morgan et al., Reference Morgan, Lappin, Heslin, Donoghue, Lomas, Reininghaus, Onyejiaka, Croudace, Jones, Murray, Fearon, Doody and Dazzan2014). The sample characteristics are presented in Table 1.

Table 1. Demographic, social, and clinical characteristics of the sample

IQR, Interquartile range

a Missing, 14.

b Missing, 126.

c Missing, 8.

d Missing, 51.

e Missing, 46.

f Missing, 42.

g Missing, 84.

h Missing, 101.

i Missing, 98.

j Missing, 87.

k Missing, 92.

Remission and symptom and functional recovery at 10 years

Details of illness course and symptom and social outcome have been previously reported (Morgan et al., Reference Morgan, Lappin, Heslin, Donoghue, Lomas, Reininghaus, Onyejiaka, Croudace, Jones, Murray, Fearon, Doody and Dazzan2014). Briefly, at follow-up 213 cases (65.3% of 326) were not experiencing psychotic symptoms and 140 (46.2% of 303 on whom complete data were available) met criteria for recovery. Relevant to this study, 77 (57.9%) of these had been in remission at 12-weeks, compared with 34 (22.8% of 163) of those who were not in recovery at 10-years (Table 2). Among cases for whom we had reliable medication information (228; 75.2% of 303 with data on recovery), 56.4% of those who were recovered (57 of 101) had been prescribed antipsychotic medication in the preceding 2-years, v. 85.8% (109 of 127) of those not recovered (χ2 24.6, df 1, p < 0.001) (Note: all cases were, at some point, prescribed antipsychotic medication).

Table 2. Symptomatic Recovery at 10 years (unless specified, number included in analyses = 303)

a Adjusted for, as appropriate, centre, sex, age (as continuous variable), and ethnicity

b Missing, 58.

c Missing, 75.

d Missing, 8.

e Missing, 21.

f Missing, 75.

g Note, no variable for percentage of time on medication during first year following contact was associated with recovery.

h Missing, 36.

i Missing, 7.

Functional recovery at 10 years (GAF ⩾ 60) was achieved by 117 (40.9% of 286). Only a minority had been in paid work for over 75% of the follow-up period (34 of 290; 11.7%), and a minority for between 25% and 75% of the follow-up (48; 16.6%), with the overwhelming majority employed for <25% (208, 71.7%). Similarly, at follow up only 22.8% (66) had been in paid work. Most individuals were single throughout follow-up (218, 71.9%) and at follow-up (205, 67.7%).

Predictors of symptom and functional recovery at 10 years

As noted, we examined the effects of four blocks of factors on symptom (Table 2) and functional (Table 4) recovery at 10-years: demographic; social; clinical; and early symptom course (remission at 12-weeks). Effects are shown before and after adjustment for age, gender, study centre, and ethnicity. We additionally performed these analyses only including the subset of patients with a diagnosis of schizophrenia (See Supplementary Table).

Predictors of symptom recovery at 10 years

Early symptom course (remission at 12-weeks) strongly predicted recovery (adj OR 4.47; CI 2.60–7.67). Other variables associated with recovery (at p < 0.05) were a diagnosis of mania with psychosis (adj OR 3.22; CI 1.54–6.73) or of depression with psychosis (adj OR 1.98; CI 1.00–3.95); and on the dimension scales, a high symptom score on mania (adj OR 1.14; CI 1.03–1.25) or a low symptom score on reality distortion (adj OR 0.91; CI 0.83–1.00). Recovery was less likely (p ⩽ 0.05) among those with high scores for social disadvantage (score = 3, adj OR 0.40; CI 0.18–0.87; score = 4, adj OR 0.29; CI 0.13–0.67) and non-white British ethnicity (adj OR 0.43; CI 0.25–0.76) (Table 2).

When we further adjusted for all other variables retained in our models (as detailed above), strong associations with symptom recovery at 10 years (n = 213) remained for early symptom course (remission at 12-weeks) (adj OR 3.33; CI 1.72–6.43), a diagnosis of psychotic depression (adj OR 2.68; CI 1.02–7.05), and non-white British ethnicity (adj OR 0.44; CI 0.21–0.91) (Table 3). Our final model explained around 15% of the variance in symptom recovery and correctly predicted 61.0% with symptom recovery.

Table 3. Symptomatic Recovery at 10 years, adjusted model (number included in analyses = 213)

a Adjusted for centre, sex, age (as continuous variable), and ethnicity

b Adjusted for centre, sex, age (as continuous variable), and ethnicity, and all other variables in table

c Pseudo r 2 0.15 (i.e. approximately 15% of variance explained by variables in model)

d Percentage with symptom recovery correctly predicted, 61.0%

Predictors of functional recovery at 10 years

Early symptom course (remission at 12-weeks) strongly predicted functional recovery (i.e. GAF score >60) (adj OR 4.43; CI 2.46–7.98) (Table 4). The following also strongly predicted functional recovery (at p ⩽ 0.05): study centre (i.e. Nottingham v. south-east London) (OR 1.88; CI 1.02–3.48); being female (adj OR 2.19; CI 1.30–3.68); having a diagnosis of mania with psychosis (adj OR 11.28; CI 4.40–28.92) or depression with psychosis (adj OR 2.64; CI 1.20–5.85); high mania symptoms scores (adj OR 1.26; CI 1.12–1.41); and low negative symptom scores (adj OR 0.78; CI 0.66–0.92).

Table 4. Functional Recovery (i.e. GAF-D ⩾ 60) at 10 years (unless specified, number included in analyses = 286)

a Adjusted for, as appropriate, centre, sex, age (as continuous variable), and ethnicity.

b Missing, 52.

c Missing, 64.

d Missing, 9.

e Missing, 28.

f Missing, 58.

g Note, no variable for percentage of time on medication during first year following contact was associated with recovery.

h Missing, 35.

i Missing, 22.

Functional recovery was less likely among those of non-white British ethnicity (adj OR 0.50; CI 0.28–0.89); those with no educational qualifications (adj OR 0.40; CI 0.16–0.99); those with insidious mode of onset (adj OR 0.41; CI 0.23–0.73); and those with longer DUP (adj OR 0.41; CI 0.24–0.71) (Table 4). There was a strong association between recovery and social disadvantage, such that with each additional disadvantage, there was a progressively lower likelihood of recovery (score = 2, OR 0.35; CI 0.15–0.82; score = 3, OR 0.22; CI 0.09–0.52; and score = 4, OR 0.18; CI 0.07–0.44).

When we further adjusted for all other variables retained in our models (as detailed above), strong associations with functional recovery at 10 years (n = 213) remained for early symptom course (remission at 12-weeks) (adj OR 2.75; CI 1.23–6.11), study centre (i.e. Nottingham v. south-east London) (adj OR 3.23; CI 1.25–8.30), and a diagnosis of mania with psychosis (adj OR 8.17; CI 1.61–41.42) (Table 5). Our final model explained around 32% of the variance in functional recovery and correctly predicted 73.6% with functional recovery.

Table 5. Functional Recovery at 10 years, adjusted model (number included in analyses = 197)

Note: Mode of onset and DUP are strongly associated; therefore, only one (DUP) was included in final model.

a Adjusted for centre, sex, age (as continuous variable), and ethnicity.

b Adjusted for centre, sex, age (as continuous variable), and ethnicity, and all other variables in table.

c Pseudo r 2 0.32 (i.e., approximately 32% of variance explained by variables in model).

d Percentage with functional recovery correctly predicted, 73.6%.

Discussion

This is the first long-term, epidemiological, naturalistic follow-up that has investigated the specific role of early remission and other predictors of outcome across multiple domains in a cohort of individuals following their first episode of psychosis. Our main finding is that symptom remission at 12-weeks is a strong predictor of both symptom and functional recovery at 10-years. Furthermore, we found that diagnosis at first onset is a strong predictor of recovery: depressive psychosis was predictive of good symptom recovery and manic psychosis was highly predictive of good functional recovery. Finally, being from the Nottingham study centre was predictive of good functional recovery. Overall, our final models explained more of the variance in functional than symptom outcomes, although for both the percentage explained was relatively low. Clearly, other unmeasured factors also contribute to variations in recovery in psychosis.

This study has a number of strengths. It used an incidence cohort of first episode psychosis patients who presented to any psychiatric service. This reduced the chances of only including patients with a particularly illness type, as is often the case for in-patient populations or those drawn only from early intervention services. The study naturalistic approach makes this sample as unbiased as possible. Finally, the study is unique in having evaluated a broad range of predictors across multiple domains over time, allowing the description of the heterogeneous course trajectories of psychosis. A major strength is the reporting of recovery across a range of domains, which has yielded evidence that predictors of symptom and functional recovery differ and are somewhat independent of each other.

Some limitations should be acknowledged. As with all longitudinal evaluations, we cannot exclude the potential for selection and information bias arising from, respectively, loss to follow-up and missing or inaccurate data. However, we were able to evaluate the symptom and functional status of over 90% of the cohort. We found no strong evidence of systematic bias when we compared those with some information available with those without (Morgan et al., Reference Morgan, Lappin, Heslin, Donoghue, Lomas, Reininghaus, Onyejiaka, Croudace, Jones, Murray, Fearon, Doody and Dazzan2014), suggesting that attrition is unlikely to have affected findings. The potential for information bias should also be considered. We made use of all possible sources of information, and clinical ratings were made by consensus. To limit the potential variability in the extent and quality of information available, we only made ratings of the presence or absence of symptoms on the basis of clear and definite information. Also, we only considered lifetime substance use and did not separately consider patterns of use and abstinence following FEP. Finally, completeness of information was inevitably less for those not re-interviewed. However, we found that symptom course and outcome were better in the Nottingham sample, while, at the same time, cases in Nottingham were less likely to be re-interviewed.

This is the first time that a role for early symptom remission (defined with an operationalized set of criteria) has been established as important in the long-term outcome of any psychosis. This finding advances evidence from shorter longitudinal studies that early symptom remission is associated with better symptomatic outcome (Emsley et al., Reference Emsley, Oosthuizen, Kidd, Koen, Niehaus and Turner2006; Verma et al., Reference Verma, Subramaniam, Abdin, Poon and Chong2012). It adds to existing evidence that a shorter proportion of time spent experiencing symptoms in the first years of illness (Harrison et al., Reference Harrison, Hopper, Craig, Laska, Siegel, Wanderling, Dube, Ganev, Giel, an der Heiden, Holmberg, Janca, Lee, León, Malhotra, Marsella, Nakane, Sartorius, Shen, Skoda, Thara, Tsirkin, Varma, Walsh and Wiersma2001) is associated with better long-term outcome, and importantly, it demonstrates that this applies to both symptom and functional domains.

This crucial role for early remission could be explained in multiple ways. These first 12 weeks may be the time required to receive at least one adequate trial of pharmacological treatment. While it is theoretically possible that those individuals who did not achieve early remission were those who had received no or ineffective treatment, our data suggest this was not the case. There were no differences in exposure to antipsychotics between individuals who did and did not remit at 12-weeks. It is also possible that these early responders represent a subgroup more likely to respond to treatment. This is consistent with emerging evidence that between 10 and 20% of first episode patients show rapid response to the first antipsychotic received (Agid et al., Reference Agid, Siu, Pappadopulos, Vanderburg and Remington2013). In our study, these individuals follow a more benign illness trajectory. They may warrant a less assertive management approach after the resolution of the first episode. Conversely, identifying non-responders early in treatment could enable clinicians to consider alternative treatment options in order to find the earliest possible effective treatment (Kinon et al., Reference Kinon, Chen, Ascher-Svanum, Stauffer, Kollack-Walker, Zhou, Kapur and Kane2010).

Our data support early management in first episode psychosis, which aims not only to reduce DUP, but also to promptly reduce symptom severity, to minimize the time spent with psychotic symptoms. In our sample, DUP was not a predictor of poor symptom recovery, but rather a predictor of poor functional recovery at 10-years. Our interpretation of this finding is that once patients receive antipsychotic treatment, their ability to respond is the key predictor of future symptom recovery, independently of DUP. In turn, a longer DUP may affect their ability to function in social and occupational spheres, and where these deficits are engrained over time, they persist even despite symptomatic improvement. Therefore, while antipsychotic treatment is an important part of early first episode psychosis management, it remains only one aspect of the holistic care that can be provided, which would include also non-pharmacological interventions such as for example psychoeducation and family work.

Interestingly, one-third of patients who initially remitted did not recover in the long-term. This heterogeneity of illness course may reflect the interplay between external factors and the pathophysiology of the disorder, which over time generates multiple possible trajectories. For example, intervening life events, stress, substance use, ongoing symptoms, family support, vocational opportunities, compliance with pharmacological and other treatments may independently contribute to shaping illness course after the initial period (Racenstein et al., Reference Racenstein, Harrow, Reed, Martin, Herbener and Penn2002; Petersen et al., Reference Petersen, Jeppesen, Thorup, Abel, Øhlenschlaeger, Christensen, Krarup, Jørgensen and Nordentoft2005; Miller, Reference Miller2008; Jordan et al., Reference Jordan, Lutgens, Joober, Lepage, Iyer and Malla2014; Colizzi et al., Reference Colizzi, Carra, Fraietta, Lally, Quattrone, Bonaccorso, Mondelli, Ajnakina, Dazzan, Trotta, Sideli, Kolliakou, Gaughran, Khondoker, David, Murray, MacCabe and Di Forti2016; Weibell et al., Reference Weibell, Hegelstad, Auestad, Bramness, Evensen, Haahr, Joa, Johannessen, Larsen, Melle, Opjordsmoen, Rund, Simonsen, Vaglum, McGlashan, McGorry and Friis2017).

Another important predictor of recovery at 10-years was a diagnosis of depressive or manic psychosis. To our knowledge, this is the first time that differences in outcome have been investigated for affective psychosis diagnostic subtypes. Depressive psychosis predicted better symptom recovery, while mania strongly predicted better functional recovery. Affective disorders, in general, have been reported to be predictive of a better outcome in longitudinal studies of duration 15–25 years (Marneros et al., Reference Marneros, Deister and Rohde1990; Bottlender et al., Reference Bottlender, Strauss and Möller2010; Henry et al., Reference Henry, Amminger, Harris, Yuen, Harrigan, Prosser, Schwartz, Farrelly, Herrman, Jackson and McGorry2010). Our findings align with long-term follow-ups of major depressive disorder (psychotic and non-psychotic), suggesting that psychosocial disability is associated with severity of depressive/bipolar 1 symptoms (Judd et al., Reference Judd, Akiskal, Schettler, Endicott, Leon, Solomon, Coryell, Maser and Keller2005). In our study, those patients with a manic presentation were symptomatic for a shorter period than those with schizophrenia, and so were more likely to achieve 12-week remission. However, manic psychosis was an additional highly independent predictor of functional recovery. Good functional recovery was also predicted by being from the Nottingham study centre. There was evidence that functional outcomes were better, on average, for patients in Nottingham. While we do not know the reasons for this, it is tantalising to speculate that the factors related to urbanicity that increase risk of psychosis onset also impact on its outcome. Finally, since patients with schizophrenia are those more likely to be considered for long term maintenance antipsychotic treatment, we repeated the analyses including only participants with this diagnosis. We find that even considering only this group, all findings are in the same direction as the main findings, though inevitably with some loss of power likely due to the smaller sample sizes (See online Supplementary Table S1). These additional analyses confirmed that our main finding that early remission is the best predictor of recovery stands.

While other demographic, clinical, and social factors were considered, their predictive power in the regression models of 10-year recovery was modest. The only notable predictor of symptom recovery, in addition to early remission and depressive psychosis diagnosis, was White British ethnicity. This is consistent with our previous findings in this sample, that black Caribbean individuals experience worse clinical, social, and service use outcomes, and black African individuals worse social and service use outcomes (Morgan et al., Reference Morgan, Fearon, Lappin, Heslin, Donoghue, Lomas, Reininghaus, Onyejiaka, Croudace, Jones, Murray, Doody and Dazzan2017). There is growing evidence that substance use is associated with poorer outcomes following FEP (Lambert et al., Reference Lambert, Conus, Lubman, Wade, Yuen, Moritz, Naber, McGorry and Schimmelmann2005; Petersen et al., Reference Petersen, Jeppesen, Thorup, Abel, Øhlenschlaeger, Christensen, Krarup, Jørgensen and Nordentoft2005), but it did not independently predict outcome in our sample, possibly because of the method we used to evaluate use. Ideally, substance use throughout follow-up would be assessed by serial assessments verified by toxicology. However, this may also be due to the fact that we included individuals presenting with FEP throughout adulthood (16–65 years), in contrast to other studies that included younger individuals in whom substance use is more prevalent [e.g. (15–29 years) (Lambert et al., Reference Lambert, Conus, Lubman, Wade, Yuen, Moritz, Naber, McGorry and Schimmelmann2005); (16–40 years) (Petersen et al., Reference Petersen, Jeppesen, Thorup, Abel, Øhlenschlaeger, Christensen, Krarup, Jørgensen and Nordentoft2005)].

In conclusion, remission at 12-weeks should be used to inform clinical management following first episode psychosis. It may represent a useful means of stratifying patients into treatment protocols reflecting likely subsequent course. While the diagnosis may also have a predictive role, with depressive and manic presentations being predictive of long-term clinical and functional recovery respectively, our data suggest that prediction of long-term outcome from the first episode of any psychosis remains extremely challenging.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S0033291719001399.

Author ORCIDs

Paola Dazzan, 0000-0002-8427-3617.

Acknowledgements

This work was supported by UK Medical Research Council (ref: G0500817) and the Department of Health via the National Institute for Health Research (NIHR) Biomedical Research Centre at South London and Maudsley Foundation Trust (SLaM) and King's College London. According to UK research councils’ Common Principles on Data Policy, we are working towards making data supporting this study available.

Conflict of interest

None.

Footnotes

*

Joint first author

References

Agid, O, Siu, CO, Pappadopulos, E, Vanderburg, D and Remington, G (2013) Early prediction of clinical and functional outcome in schizophrenia. European Neuropsychopharmacology 23, 842851.CrossRefGoogle Scholar
Andreasen, NC, Carpenter, WT Jr, Kane, JM, Lasser, RA, Marder, SR and Weinberger, DR (2005) Remission in schizophrenia: proposed criteria and rationale for consensus. American Journal of Psychiatry 162, 441449.CrossRefGoogle ScholarPubMed
Bottlender, R, Strauss, A and Möller, HJ (2010) Social disability in schizophrenic, schizoaffective and affective disorders 15 years after first admission. Schizophrenia Research 116, 915.CrossRefGoogle ScholarPubMed
Colizzi, M, Carra, E, Fraietta, S, Lally, J, Quattrone, D, Bonaccorso, S, Mondelli, V, Ajnakina, O, Dazzan, P, Trotta, A, Sideli, L, Kolliakou, A, Gaughran, F, Khondoker, M, David, AS, Murray, RM, MacCabe, JH and Di Forti, M (2016) Substance use, medication adherence and outcome one year following a first episode of psychosis. Schizophrenia Research 170, 311317.CrossRefGoogle ScholarPubMed
Craig, T, Fennig, S, Tanenberg-Karant, M and Bromet, EJ (1999) Six-month clinical status as a predictor of 24-month clinical outcome in first-admission patients with schizophrenia. Annals of Clinical Psychiatry 11, 197203.CrossRefGoogle ScholarPubMed
Crumlish, N, Whitty, P, Clarke, M, Browne, S, Kamali, M, Gervin, M, McTigue, O, Kinsella, A, Waddington, JL, Larkin, C and O'Callaghan, E (2009) Beyond the critical period: longitudinal study of 8-year outcome in first-episode non-affective psychosis. British Journal of Psychiatry 194, 1824.CrossRefGoogle ScholarPubMed
Demjaha, A, Morgan, K, Morgan, C, Landau, S, Dean, K, Reichenberg, A, Sham, P, Fearon, P, Hutchinson, G, Jones, PB, Murray, RM and Dazzan, P (2009) Combining dimensional and categorical representation of psychosis: the way forward for DSM-V and ICD-11? Psychological Medicine 39, 19431955.CrossRefGoogle ScholarPubMed
Emsley, R, Oosthuizen, PP, Kidd, M, Koen, L, Niehaus, DJ and Turner, HJ (2006) Remission in first-episode psychosis: predictor variables and symptom improvement patterns. Journal of Clinical Psychiatry 67, 17071712.CrossRefGoogle ScholarPubMed
Endicott, J, Spitzer, RL, Fleiss, JL and Cohen, J (1976) The global assessment scale: a procedure for measuring overall severity of psychiatric disturbance. Archives of General Psychiatry 33, 766771.CrossRefGoogle ScholarPubMed
Friis, S, Melle, I, Johannessen, JO, Røssberg, JI, Barder, HE, Evensen, JH, Haahr, U, Ten Velden Hegelstad, W, Joa, I, Langeveld, J, Larsen, TK, Opjordsmoen, S, Rund, BR, Simonsen, E, Vaglum, PW and McGlashan, TH (2016) Early predictors of ten-year course in first-episode psychosis. Psychiatric Services 67, 438443.CrossRefGoogle ScholarPubMed
Harrison, G, Hopper, K, Craig, T, Laska, E, Siegel, C, Wanderling, J, Dube, KC, Ganev, K, Giel, R, an der Heiden, W, Holmberg, SK, Janca, A, Lee, PW, León, CA, Malhotra, S, Marsella, AJ, Nakane, Y, Sartorius, N, Shen, Y, Skoda, C, Thara, R, Tsirkin, SJ, Varma, VK, Walsh, D and Wiersma, D (2001) Recovery from psychotic illness: a 15- and 25-year international follow-up study. British Journal of Psychiatry 178, 506517.CrossRefGoogle ScholarPubMed
Hegelstad, WT, Larsen, TK, Auestad, B, Evensen, J, Haahr, U, Joa, I, Johannesen, JO, Langeveld, J, Melle, I, Opjordsmoen, S, Rossberg, JI, Rund, BR, Simonsen, E, Sundet, K, Vaglum, P, Friis, S and McGlashan, T (2012) Long-term follow-up of the TIPS early detection in psychosis study: effects on 10-year outcome. American Journal of Psychiatry 169, 374380.CrossRefGoogle ScholarPubMed
Henry, LP, Amminger, GP, Harris, MG, Yuen, HP, Harrigan, SM, Prosser, AL, Schwartz, OS, Farrelly, SE, Herrman, H, Jackson, HJ and McGorry, PD (2010) The EPPIC follow-up study of first-episode psychosis: longer-term clinical and functional outcome 7 years after index admission. Journal of Clinical Psychiatry 71, 716728.CrossRefGoogle ScholarPubMed
Jablensky, A, Sartorius, N, Ernberg, G, Anker, M, Korten, A, Cooper, JE, Day, R and Bertelsen, A (1992) Schizophrenia: manifestations, incidence and course in different cultures. A World Health Organisation ten-country study. Psychological Medicine Monograph Supplement 20, 197.CrossRefGoogle ScholarPubMed
Johnstone, EC, Owens, DG, Bydder, GM, Colter, N, Crow, TJ and Frith, CD (1989) The spectrum of structural brain changes in schizophrenia: age of onset as a predictor of cognitive and clinical impairments and their cerebral correlates. Psychological Medicine 19, 91103.CrossRefGoogle ScholarPubMed
Jordan, G, Lutgens, D, Joober, R, Lepage, M, Iyer, SN and Malla, A (2014) The relative contribution of cognition and symptomatic remission to functional outcome following treatment of a first episode of psychosis. Journal of Clinical Psychiatry 75, e566e572.CrossRefGoogle ScholarPubMed
Judd, LL, Akiskal, HS, Schettler, PJ, Endicott, J, Leon, AC, Solomon, DA, Coryell, W, Maser, JD and Keller, MB (2005) Psychosocial disability in the course of bipolar I and II disorders: a prospective, comparative, longitudinal study. Archives of General Psychiatry 62, 13221330.CrossRefGoogle ScholarPubMed
Kinon, BJ, Chen, L, Ascher-Svanum, H, Stauffer, VL, Kollack-Walker, S, Zhou, W, Kapur, S and Kane, JM (2010) Early response to antipsychotic drug therapy as a clinical marker of subsequent response in the treatment of schizophrenia. Neuropsychopharmacology 35, 581590.CrossRefGoogle ScholarPubMed
Lambert, M, Conus, P, Lubman, DI, Wade, D, Yuen, H, Moritz, S, Naber, D, McGorry, PD and Schimmelmann, BG (2005) The impact of substance use disorders on clinical outcome in 643 patients with first-episode psychosis. Acta psychiatrica Scandinavica 112, 141148.CrossRefGoogle ScholarPubMed
Leung, A and Chue, P (2000) Sex differences in schizophrenia, a review of the literature. Acta Psychiatrica Scandinavica Supplement 401, 338.CrossRefGoogle ScholarPubMed
Lieberman, J, Jody, D, Geisler, S, Alvir, J, Loebel, A, Szymanski, S, Woerner, M and Borenstein, M (1993) Time course and biologic correlates of treatment response in first-episode schizophrenia. Archives of General Psychiatry 50, 369376.CrossRefGoogle ScholarPubMed
Marneros, A, Deister, A and Rohde, A (1990) Psychopathological and social status of patients with affective, schizophrenic and schizoaffective disorders after long-term course. Acta Psychiatrica Scandinavica 82, 352358.CrossRefGoogle ScholarPubMed
Marshall, M, Lewis, S, Lockwood, A, Drake, R, Jones, P and Croudace, T (2005) Association between duration of untreated psychosis and outcome in cohorts of first-episode patients: a systematic review. Archives of General Psychiatry 62, 975983.CrossRefGoogle ScholarPubMed
Miller, BJ (2008) A review of second-generation antipsychotic discontinuation in first-episode psychosis. Journal of Psychiatric Practice 14, 289300.CrossRefGoogle ScholarPubMed
Morgan, C, Dazzan, P, Morgan, K, Jones, P, Harrison, G, Leff, J, Murray, R and Fearon, P and AESOP study group (2006) First episode psychosis and ethnicity: initial findings from the AESOP study. World Psychiatry 5, 4046.Google ScholarPubMed
Morgan, C, Lappin, J, Heslin, M, Donoghue, K, Lomas, B, Reininghaus, U, Onyejiaka, A, Croudace, T, Jones, PB, Murray, RM, Fearon, P, Doody, GA and Dazzan, P (2014) Reappraising the long-term course and outcome of psychotic disorders: the AESOP-10 study. Psychological Medicine 44, 27132726.CrossRefGoogle ScholarPubMed
Morgan, C, Fearon, P, Lappin, J, Heslin, M, Donoghue, K, Lomas, B, Reininghaus, U, Onyejiaka, A, Croudace, T, Jones, PB, Murray, RM, Doody, GA and Dazzan, P (2017) Ethnicity and long-term course and outcome of psychotic disorders: the ÆSOP-10 study. British Journal of Psychiatry 211, 8894.CrossRefGoogle ScholarPubMed
Petersen, L, Jeppesen, P, Thorup, A, Abel, MB, Øhlenschlaeger, J, Christensen, , Krarup, G, Jørgensen, P and Nordentoft, M (2005) A randomised multicentre trial of integrated versus standard treatment for patients with a first episode of psychotic illness. British Medical Journal 331, 602.CrossRefGoogle ScholarPubMed
Rabinowitz, J, Levine, SZ and Häfner, H (2006) A population based elaboration of the role of age of onset on the course of schizophrenia. Schizophrenia Research 88, 96101.CrossRefGoogle ScholarPubMed
Racenstein, JM, Harrow, M, Reed, R, Martin, E, Herbener, E and Penn, DL (2002) The relationship between positive symptoms and instrumental work functioning in schizophrenia: a 10 year follow-up study. Schizophrenia Research 56, 95103.CrossRefGoogle ScholarPubMed
Robinson, DG, Woerner, MG, Alvir, JM, Bilder, RM, Hinrichsen, GA and Lieberman, JA (1999) Predictors of treatment response from a first episode of schizophrenia or schizoaffective disorder. American Journal of Psychiatry 156, 544549.Google ScholarPubMed
Sartorius, N, Gulbinat, W, Harrison, G, Laska, E and Siegel, C (1996) Long-term follow-up of schizophrenia in 16 countries. A description of the International Study of Schizophrenia conducted by the World Health Organization. Social Psychiatry and Psychiatric Epidemiology 31, 249258.Google Scholar
Susser, E, Finnerty, M, Mojtabai, R, Yale, S, Conover, S, Goetz, R and Amador, X (2000) Reliability of the life chart schedule for assessment of the long-term course of schizophrenia. Schizophrenia Research 42, 6777.CrossRefGoogle ScholarPubMed
Thara, R, Henrietta, M, Joseph, A, Rajikumar, S and Eaton, WW (1994) Ten-year course of schizophrenia – the Madras longitudinal study. Acta psychiatrica Scandinavica 90, 329336.CrossRefGoogle ScholarPubMed
van Os, J, Wright, P and Murray, R (1997) Follow-up studies of schizophrenia I: Natural history and non-psychopathological predictors of outcome. European Psychiatry 12, 327s341s.CrossRefGoogle ScholarPubMed
Verma, S, Subramaniam, M, Abdin, E, Poon, LY and Chong, SA (2012) Symptomatic and functional remission in patients with first-episode psychosis. Acta Psychiatrica Scandinavica 126, 282289.CrossRefGoogle ScholarPubMed
Weibell, MA, Hegelstad, WTV, Auestad, B, Bramness, J, Evensen, J, Haahr, U, Joa, I, Johannessen, JO, Larsen, TK, Melle, I, Opjordsmoen, S, Rund, BR, Simonsen, E, Vaglum, P, McGlashan, T, McGorry, P and Friis, S (2017) The effect of substance use on 10-year outcome in first-episode psychosis. Schizophrenia Bulletin 43, 843851.CrossRefGoogle ScholarPubMed
White, C, Stirling, J, Hopkins, R, Morris, J, Montague, L, Tantam, D and Lewis, S (2009) Predictors of 10-year outcome of first-episode psychosis. Psychological Medicine 39, 14471456.CrossRefGoogle ScholarPubMed
Wiersma, D, Nienhuis, FJ, Slooff, CJ and Giel, R (1998) Natural course of schizophrenic disorders: a 15-year follow-up of a Dutch incidence cohort. Schizophrenia Bulletin 24, 7585.CrossRefGoogle ScholarPubMed
World Health Organization (WHO) (1992) Schedules for Clinical Assessment in Neuropsychiatry. Geneva: World Health Organization.Google Scholar
Figure 0

Table 1. Demographic, social, and clinical characteristics of the sample

Figure 1

Table 2. Symptomatic Recovery at 10 years (unless specified, number included in analyses = 303)

Figure 2

Table 3. Symptomatic Recovery at 10 years, adjusted model (number included in analyses = 213)

Figure 3

Table 4. Functional Recovery (i.e. GAF-D ⩾ 60) at 10 years (unless specified, number included in analyses = 286)

Figure 4

Table 5. Functional Recovery at 10 years, adjusted model (number included in analyses = 197)

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