Early-onset psychosis (EOP) refers to the development of a first episode of psychosis before the age of 18 years.Reference Salazar de Pablo, Moreno, Gonzalez-Pinto, Paya, Castro-Fonieles and Baeza1 EOP is characterised by a high frequency of negative symptoms.Reference Bonnot and Dumas2 Negative symptoms are defined as a reduction of normal functions related to either motivation and interest (e.g. avolition, anhedonia and asociality) or expressive functions (e.g. blunted affect and alogia)Reference Correll and Schooler3 and can be evaluated categorically based on their presence/absence or continuously based on their severity. Younger age at onset is associated with more negative symptoms at follow-up,Reference Immonen, Jääskeläinen, Korpela and Miettunen4 and the severity of negative symptoms is associated with several poor outcomes.Reference Arango, Buitelaar, Correll, Díaz-Caneja, Figueira and Fleischhacker5–Reference Díaz-Caneja, Pina-Camacho, Rodríguez-Quiroga, Fraguas, Parellada and Arango7 Negative symptoms are challenging to identify in young people,Reference De Berardis, De Filippis, Masi, Vicari and Zuddas8 and over 60% of individuals with EOP experience ‘poor’ long-term outcomes and unmet therapeutic needs.Reference Clemmensen, Vernal and Steinhausen9 Furthermore, the prevalence of negative symptoms in EOP and their effect on prognosis remains unclear.Reference Downs, Dean, Lechler, Sears, Patel and Shetty6
Prior research in populations at clinical high risk for psychosis (CHR-P) typically includes adolescents and young adultsReference Fusar-Poli, Salazar de Pablo, Correll, Meyer-Lindenberg, Millan and Borgwardt10 from different risk groups, including ultra-high risk criteria (Supplementary eTable 1, available at https://doi.org/10.1192/bjp.2022.203) and basic symptom criteria (Supplementary eTable 2). However, most of the evidence examining negative symptoms focuses on adult or mixed CHR-P samples, with relatively little research focusing on children and adolescents.Reference Catalan, Salazar de Pablo, Vaquerizo Serrano, Mosillo, Baldwin and Fernández-Rivas11,Reference Armando, Klauser, Anagnostopoulos, Hebebrand, Moreno and Revet12 However, in children and adolescents at CHR-P, negative symptoms have been found to be clinically relevant and sometimes predominant psychopathologically.Reference Spada, Molteni, Pistone, Chiappedi, McGuire and Fusar-Poli13 Negative symptoms have also been associated with poor outcomes and poor recovery levels in this population.Reference Schlosser, Jacobson, Chen, Sugar, Niendam and Li14
To our knowledge, no previous meta-analysis has evaluated the prevalence of negative symptoms in children and adolescents with EOP or at CHR-P or investigated the influence of moderating factors, such as gender, age or study design, on the prevalence of negative symptoms. From a diagnostic and prognostic perspective, previous systematic reviews and meta-analyses have variously examined the link between negative symptoms and functioning in individuals at CHR-P,Reference Devoe, Braun, Seredynski and Addington15 the association between cannabis and nicotine use and negative symptoms,Reference Sabe, Zhao and Kaiser16 the association between the duration of untreated psychosis and negative symptomsReference Boonstra, Klaassen, Sytema, Marshall, De Haan and Wunderink17 and the relationship between depressive symptoms and negative symptoms.Reference Edwards, Garety and Hardy18 These studies have been limited in scope: they have just examined correlates of negative symptoms or outcomes associated with negative symptoms;Reference Devoe, Braun, Seredynski and Addington15–Reference Edwards, Garety and Hardy18 none of these studies focused on children and adolescents; none comprehensively summarised the available evidence or provided methodological and research agenda recommendations to advance the field.
Previous meta-analyses have evaluated the efficacy of antipsychotic medications for the treatment of psychotic symptoms in EOP, finding that most antipsychotics were efficacious for positive symptoms.Reference Harvey, James and Shields19–Reference Pagsberg, Tarp, Glintborg, Stenstrøm, Fink-Jensen and Correll21 Meta-analytical reports from a much smaller cohort of studies showed that antipsychotics reduced negative symptom scores compared with placebo, but no comparisons were statistically significant,Reference Harvey, James and Shields19 except for clozapine in some studies,Reference Krause, Zhu, Huhn, Schneider-Thoma, Bighelli and Chaimani22 highlighting the need for further research on the treatment of negative symptoms. In the CHR-P field, research on therapeutic advances for children and adolescents has been even more limited, and most studies have focused on other outcomes, such as transition to psychosis.Reference Catalan, Salazar de Pablo, Vaquerizo Serrano, Mosillo, Baldwin and Fernández-Rivas11,Reference Raballo, Poletti, Preti and McGorry23
Based on the above, the aim of this study was to (a) evaluate the prevalence of children and adolescents with EOP and at CHR-P who presented with negative symptoms and which factors increased or decreased this prevalence and (b) provide a comprehensive review of the current status and advances in the diagnosis, prognosis and treatment of negative symptoms in children and adolescents with EOP or at CHR-P. Our hypothesis was that negative symptoms would be at least as common in EOP as in adult-onset psychosis and as common in children and adolescents at CHR-P as in children and adolescents with EOP. We further hypothesised that the severity of negative symptoms would be associated with poor outcomes. Finally, we were keen to explore whether evidence for interventions for negative symptoms in both children and adolescents with EOP and children and adolescents at CHR-P was sufficient to recommend specific interventions above others.
Method
This systematic review and meta-analysis was registered in PROSPERO (CRD42022360925). It was conducted following the guidelines of the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) 2020 statementReference Moher, Liberati, Tetzlaff, Altman and Group24 (Supplementary eTables 3 and 4) and Meta-analyses of Observational Studies in Epidemiology (MOOSE) checklist (Supplementary eTable 5),Reference Stroup, Berlin, Morton, Olkin, Williamson and Rennie25 following Enhancing the Quality and Transparency of Health Research (EQUATOR) reporting guidelines.Reference Altman, Simera, Hoey, Moher and Schulz26
Search strategy and selection criteria
We performed a multi-step literature search (keywords in Supplementary eMethods1). First, the PubMed and Web of Science databases (Clarivate Analytics) were searched, incorporating the Web of Science Core Collection, BIOSIS Citation Index, KCI-Korean Journal Database, MEDLINE, Russian Science Citation Index and SciELO Citation Index, as well as the Cochrane Central Register of Reviews and Ovid/PsycInfo databases from inception until 18 August 2022, without language restriction. Second, we searched for data in relevant conference proceedings, including the Schizophrenia International Research Society (SIRS) and Early Intervention in Mental Health international conference (IEPA), as well as in trial registries (clinicaltrials.gov, WHO International Clinical Trials Registry Platform). Following recent guidelines,Reference Hunter, Webster, Page, Willson, McDonald and Berber27 search terms were simplified for the search conducted in conference proceedings and trial registries (‘early-onset’, ‘adolescents’ and ‘negative symptoms’). Third, we completed our search by reviewing the references of systematic reviews/meta-analyses retrieved during our search.
Articles identified were screened as abstracts by two researchers working independently (G.S.P., V.S.) and those that were irrelevant were screened out. The full texts of the remaining articles were assessed for eligibility against the inclusion and exclusion criteria, and decisions were made regarding their final inclusion in the systematic review by consensus or mitigation.
Inclusion criteria for the overall review and synthesis were (a) original individual studies, abstracts or conference proceedings, either cross-sectional, longitudinal, randomised clinical trials (RCTs) or other intervention studies, (b) providing relevant information/results on negative symptoms in our populations of interest, (c) conducted in children and adolescents (mean age <18 years, in line with previous reviews on children and adolescents at CHR-P),Reference Fusar-Poli, Salazar de Pablo, Correll, Meyer-Lindenberg, Millan and Borgwardt10 (d) conducted in children and adolescents diagnosed with EOP or at CHR-P as per validated instruments and diagnostic criteria (e.g. DSM-any version, ICD-any version and equivalents for EOP, Structured Interview for Psychosis-Risk Syndrome (SIPS), Scale of Psychosis-risk Symptoms (SOPS), Comprehensive Assessment of At-Risk Mental States (CAARMS) and equivalentsReference Salazar de Pablo, Catalan and Fusar-Poli28,Reference Salazar de Pablo, Radua, Pereira, Bonoldi, Arienti and Besana29 for CHR-P), (f) published in any language. Exclusion criteria were (a) reviews, editorials or clinical cases, (b) studies reporting on other mental health conditions or with a mean age ≥18 years (since no similar review was found for EOP, studies including EOP individuals >25 years were excluded), (c) studies reporting only negative symptom scores (e.g. Positive and Negative Syndrome Scale scores) without relevant additional results regarding negative symptoms as per established validators, (d) studies without results in children and adolescents with EOP or at CHR-P. Overlap was allowed for the systematic review as long as the key findings were not identical. However, for the meta-analysis, an additional inclusion criterion was that of non-overlapping samples (≤50% overlapping sample) as per our protocol.
Outcome measures, covariates and data extraction
Researchers (B.P., J.V.S., A.A.) independently extracted data from all included studies into an Excel spreadsheet. Any discrepancies were resolved through consensus or consulting a senior researcher (G.S.P.) when necessary. The variables extracted can be found in Supplementary eMethods2.
Quality assessment
Quality was assessed using a modified version of the Newcastle–Ottawa Scale (NOS) for cross-sectional and cohort studies. Studies were awarded a maximum of eight points (items can be found in Supplementary eTable 6). Additionally, for RCTs, the Cochrane Risk of Bias Tool (RoB2) was used, and the overall quality was rated as low risk of bias, unclear risk of bias or high risk of bias (Supplementary eMethods 3).
Qualitative data synthesis
We provided a narrative synthesis of the findings from the included studies. The available evidence was structured into diagnostic factors, prognostic factors and therapeutic factors. Evidence was provided separately for children and adolescents with EOP and at CHR-P.
Quantitative meta-analysis
Random-effects meta-analytical estimates were computed independently and categorically for children and adolescents with EOP and at CHR-P, including the prevalence of EOP and CHR-P with negative symptoms as per individual study definition. The meta-analyses were conducted using Stata/MP 16.0 with the metaprop package of STATA statistical software (StataCorp) for Mac,Reference Nyaga, Arbyn and Aerts30 which was developed for pooling proportions in a meta-analysis of multiple studies, and with Comprehensive Meta-Analysis Version 3 for Mac (Biostat, Inc., Englewood, NJ; https://www.meta-analysis.com/?gclid=CjwKCAiAk--dBhABEiwAchIwkcm3gREJ81_iOw3KBdGLG1_Qjf-md9IOeyg_fLmAecxJJwFC6HODAhoCbR0QAvD_BwE). The 95% confidence intervals (CIs) were derived from Wilson score procedures. Publication bias was assessed with the metafunnel function of Stata, which produces funnel plots for assessing small-study reporting bias in meta-analysis, and with Egger's test in the metabias function of Stata. Heterogeneity among study point estimates was assessed using Q statistics. The proportion of the total variability in the effect size estimates was evaluated with the I 2 index. Since we expected significant heterogeneity, random-effects models were used.
We conducted sub-analyses and meta-analytical regression analyses to estimate the association between the prevalence of negative symptoms and moderating factors. Sub-analyses included (a) decade of publication (1991–2000, 2001–2010, 2011–2022), (b) continent (Europe, Asia, North America, Africa – owing to availability of data), (c) age (studies including some young adults ≥18 years compared with those with only children and adolescents); (d) design (cross-sectional, longitudinal). Meta-regression analyses evaluated the influence of (a) publication year, (b) percentage of participants with schizophrenia, (c) sample size; (d) mean age, (e) percentage of males, (e) percentage on antipsychotics and (f) quality of the studies (NOS scores) on the results. Statistical significance was considered when P < 0.05.
Results
Our literature search identified 3289 studies; 3193 were screened at title and abstract level and 289 were assessed as full text against inclusion and exclusion criteria. Of those, 133 studies were finally included in the systematic review (Fig. 1): 129 (97%) were written in English and 4 (3%) in other languages; 100 (75.2%) focused on EOP, 29 (21.8%) on CHR-P and 4 (3%) on both. Across all studies, 9055 children and adolescents were included (6776 with EOP, 2138 at CHR-P and 141 without clear designation to one or the other diagnostic group). The sample size of the studies ranged from 10 to 638 (median 45). In total, 68 (51.1%) studies were carried out in Europe, 35 (26.3%) studies in North America, 24 (18.0%) in Asia, 2 (1.5%) in Australia, 1 (0.8%) in South America, 1 (0.8%) in Africa and 2 (1.5%) in more than one continent. Altogether, 127 studies (95.5%) were available as full manuscripts and 6 (4.5%) as abstracts/conference proceedings. Overall, 56 (42.1%) studies were cross-sectional, 52 (39.1%) were longitudinal observational studies, 14 (10.5%) were RCTs, and 11 (8.3%) were other intervention studies. The overall mean age of the participants was 15.5 years (s.d. = 1.6) and 54.1% were males. The mean age of participants with EOP was 15.3 years (s.d. = 1.6) and 56.1% were males. The mean age of participants at CHR-P was 16.1 years (s.d. = 1.0) and 48.6% were males.
Fig. 1 Preferred reporting items for systematic reviews and meta-analyses (PRISMA) flowchart outlining the study selection process.
Quality assessment
Overall, the quality of the included studies ranged from 1 to 8, with a median of 5 and a mean of 4.8 (s.d. = 1.4); 4 (28.6%) RCTs were rated as low risk of bias, 4 (28.6%) RCTs were rated as unclear risk of bias and 6 (42.9%) RCTs were rated as high risk of bias (Supplementary eTables 7 and 8). The quality of the studies evaluating children and adolescents with EOP ranged from 1 to 8, with a median of 5 and a mean of 4.7 (s.d. = 1.4) (Supplementary eTable 7). The quality of the studies evaluating children and adolescents at CHR-P ranged from 3 to 8, with a median of 5 and a mean of 5.1 (s.d. = 1.3) (Supplementary eTable 8).
Systematic review in children and adolescents with EOP
Characteristics of the included studies (n = 100) and key findings related to children and adolescents with EOP can be found in Supplementary eTable 7. Findings evaluated at meta-analytical level will be reported separately below.
Diagnostic or detection factors
In total, 42 (42.0%) studies focused on diagnostic or detection factors. Findings related to diagnostic categories and subgroups can be found in Supplementary eResults 1, and findings related to neuroanatomical, neuroimaging and other neurobiological non-cognitive findings can be found in Supplementary eResults 2. Findings on clinical factors, functioning and quality of life and cognitive factors are synthesised below.
Altogether, 12 (12.0%) studies focused primarily on comorbidity and clinical factors. Negative symptoms were more severe in children and adolescents with EOP with higher levels of depression (P = 0.023).Reference Calderon-Mediavilla, Vila-Badia, Dolz, Butjosa, Barajas and Del Cacho31 The prevalence of negative symptoms was associated with enuresis (OR = 1.93, P < 0.05) and incontinence during psychosis (OR = 3.35, P = 0.005).Reference Hollis32 No overall differences in negative symptoms between children and adolescents with EOP with and without OCD were found (P > 0.05).Reference Nechmad, Ratzoni, Poyurovsky, Meged, Avidan and Fuchs33,Reference Poyurovsky, Faragian, Shabeta and Kosov34 A positive association was found between negative symptoms and emotional expression (r = 0.58, P < 0.01), involvement (r = 0.54, P < 0.05) and recall (r = 0.48, P < 0.05).Reference Hadjez, Stein, Gabbay, Bruckner, Meged and Barak35 Also, an association was found between more severe negative symptoms and greater emotion regulation impairment (β = 0.31, P = 0.02).Reference Vines, Bridgwater, Bachman, Hayes, Catalano and Jalbrzikowski36 Interestingly, children and adolescents with EOP who had never attempted suicide had more negative symptoms during the first episode than those with previous attempts (P < 0.05),Reference Jarbin and von Knorring37 and the percentage with a history of suicide attempts was higher among those without persistent negative symptoms (P = 0.002).Reference Karakuş, Ermiş, Tunçtürk, Yüksel, Alarslan and Sağlam38 There was an association between negative symptoms in males and a delayed puberty (P = 0.001), which did not appear in females.Reference Ramanathan, Miewald, Montrose and Keshavan39 A family history of psychosisReference Fleischhaker, Schulz, Tepper, Martin, Hennighausen and Remschmidt40,Reference Paruk, Jhazbhay, Singh, Sartorius and Burns41 or family burdenReference Hintze and Borkowska42 did not seem to have an effect on negative symptoms (P > 0.05).
Altogether, 12 (12.0%) studies focused primarily on functioning and quality of life. In EOP, negative symptoms were associated with impairment in premorbid functioning (P < 0.01), global functioning (P < 0.01), social functioning (P < 0.01),Reference Meng, Schimmelmann, Mohler, Lambert, Branik and Koch43,Reference Burton, Tso, Carrion, Niendam, Adelsheim and Auther44 role functioning (P = 0.003),Reference Burton, Tso, Carrion, Niendam, Adelsheim and Auther44 daily living skills (r = −0.348, P < 0.05),Reference Puig, Penades, Baeza, Sánchez-Gistau and De la Serna45 peer relationships (r = 0.26, P < 0.005),Reference McClellan, Breiger, McCurry and Hlastala46 quality of life (P < 0.001)Reference Pencer, Addington and Addington47 and general unawareness (r = 0.48),Reference Schwartz-Stav, Apter and Zalsman48 but not with unawareness about psychotic symptoms (P > 0.05).Reference Schwartz-Stav, Apter and Zalsman48 Negative symptoms were increased in children and adolescents with EOP with declining social support compared with those with a stable social support group (P < 0.05).Reference DeVylder and Gearing49
Altogether, 7 (7.0%) studies focused primarily on cognitive factors. More negative symptoms were associated with smell identification deficits (r = 0.47, P = 0.03),Reference Corcoran, Whitaker, Coleman, Fried, Feldman and Goudsmit50 lower IQ (r = 0.41–0.63, P < 0.05)Reference Corcoran, Whitaker, Coleman, Fried, Feldman and Goudsmit50,Reference McClellan, McCurry, Speltz and Jones51 and lower performance on some executive function and working memory tasks.Reference Hintze and Borkowska42 Specifically, negative symptoms were associated with worse speed of processing at baseline (r = 0.309, P < 0.05) and 6-month follow-up (r = 0.184, P < 0.05),Reference Pandina, Nuamah, Petersen, Singh, Savitz and Hough52 more perseverative errors (r = 0.31, P < 0.05), less phonological fluency (r = −0.27, P < 0.05), higher number of uncommon responses (r = 0.27, P < 0.05) and slower response time (r = 0.44, P = 0.015).Reference Cohen, Sereni, Kaplan, Weizman, Kikinzon and Weiner53 Additionally, specific negative symptoms were associated with specific cognitive domains. This included the association of apathy (β = −0.257, P = 0.002) and diminished expression (β = −0.259, P = 0.001) with verbal learning; and of diminished expression with speed of processing (β = −0.173, P = 0.024).Reference Mørch-Johnsen, Smelror, Andreou, Barth, Johannessen and Wedervang-Resell54 However, no significant association was found between negative symptoms and attention (P < 0.05).Reference Thaden, Rhinewine, Lencz, Kester, Cervellione and Henderson55
Prognostic factors
Altogether, 37 (37%) studies looked at longitudinal prognostic factors. The key factors about the changes in negative symptoms in children and adolescents with EOP and the factors that contribute to these changes are reported below following the same order as above (diagnostic categories and subgroups, clinical factors, functioning and quality of life, neurobiological findings and cognitive factors) including additionally prognostic therapeutic factors.
The trajectory of negative symptoms was variable. One study found worsening of negative symptoms after 6 monthsReference Perez-Garza, Victoria-Figueroa and Elena Ulloa-Flores56 and three others reported consistent and stable negative symptoms,Reference Garcia Traverso, Fraguas, Arango, Castro-Fornieles, González-Pinto and Parellada57–Reference Bunk, Eggers and Klapal59 including after as many as 42 years (P = 0.935).Reference Bunk, Eggers and Klapal59
Individuals who developed schizophrenia had more negative symptoms than those diagnosed with affective psychosis 1 year after their index admission (P = 0.03).Reference Paillere-Martinot, Aubin, Martinot and Colin60 Negative symptoms at 2 years follow-up were more prominent in children and adolescents with EOP with lower baseline general symptoms (r = −0.242, P = 0.043) and more prominent negative symptoms at baseline (P = 0.025).Reference Parellada, Castro-Fornieles, Gonzalez-Pinto, Pina-Camacho, Moreno and Rapado-Castro61 Duration of untreated psychosis was higher in those with persistent negative symptoms (P = 0.022).Reference Karakuş, Ermiş, Tunçtürk, Yüksel, Alarslan and Sağlam38 Negative symptoms at baseline was the only variable that predicted functional outcome at 2-year follow-up (P = 0.010).Reference Merchan-Naranjo, Fraguas, De Castro, Parellada, Moreno and Ruiz-Sancho62 Negative symptoms at baseline also predicted lower maximum levels of functioning achieved at 1-year (β = 0.6, P = 0.005) and 2-year follow-up (β = 0.5, P = 0.003).Reference McClellan, McCurry, Speltz and Jones51,Reference McClellan, McCurry, Snell and DuBose63 Greater improvement in negative symptoms correlated with a thinner frontal cortex at baseline (r = 0.5, P = 0.003).Reference Garcia-Amador, Joost, Reig, Paradella, Moreno and Moreno64 There was also an association between left frontal cerebrospinal fluid (CSF) volume increase during follow-up (r = 0.58; P = 0.003) and left parietal CSF increase (r = 0.45; P = 0.03) and negative symptoms.Reference Arango, Rapado-Castro, Reig, Castro-Fornieles, González-Pinto and Otero65 Interestingly, negative symptoms at baseline predicted an improvement in executive performance after 2 years (β = 4.688, P = 0.008).Reference Fraguas, Merchan-Naranjo, del Rey-Mejias, Castro-Fornieles, González-Pinto and Rapado-Castro66 Finally, negative symptoms at admission were predictors of poor treatment efficacy in EOP (OR = 0.945, P = 0.009).Reference Cheng, Zhang, Zhang, Xu, Jin and Fang67 In fact, negative symptoms were significantly associated with multiple treatment failures (HR = 1.62, P = 0.02).Reference Downs, Dean, Lechler, Sears, Patel and Shetty6
Therapeutic factors
Altogether, 37 (37%) studies looked directly or indirectly at therapeutic factors and response to interventions. Participants were not selected based on the presence of negative symptoms. The key advances in pharmacological interventions in RCTs, pharmacological interventions in other clinical trials, psychosocial interventions in RCTs and psychosocial interventions in other clinical trials are detailed below.
Evidence in EOP coming from RCTs was limited for pharmacological interventions. Clozapine decreased negative symptoms in treatment-resistant EOP compared with haloperidol in a double-blind RCT (P = 0.002).Reference Kumra, Frazier, Jacobsen, McKenna, Gordon and Lenane68 Clozapine was also more efficacious than olanzapine in reducing negative symptoms in treatment-resistant EOP after 8 weeks (P = 0.04; d = 0.89)Reference Shaw, Sporn, Gogtay, Overman, Greenstein and Gochman69 and 12 weeks (P = 0.02, d = 0.92)Reference Kumra, Kranzler, Gerbino-Rosen, Kester, De Thomas and Kafantaris70 in another RCT. Treatment with lurasidone compared with placebo was associated with greater improvement in negative symptoms for children and adolescents with previously treated EOP (P = 0.017; s.m.d. = 0.32) but not in treatment-naive children and adolescents with EOP.Reference Correll, Tocco, Hsu, Goldman and Pikalov71 With regard to evidence from other intervention studies, negative symptoms improved after 20 days (P < 0.001)Reference McConville, Arvanitis, Thyrum, eh, Wilkinson and Chaney72 and 88 weeksReference McConville, Carrero, Sweitzer, Potter, Chaney and Foster73 in an open-label trial with quetiapine. One study in children and adolescents with EOP found that negative symptoms responded better to aripiprazole than positive symptoms (P = 0.028).Reference Kim, Cho, Shin, Kim, Choi and Kim74 In a randomised open-label study comparing olanzapine with risperidone, negative symptoms improved more with olanzapine after 8 weeks (P < 0.01)Reference Findling, McNamara, Youngstrom, Branicky, Demeter and Schulz75 and after 1 year,Reference Ross, Novins, Farley and Adler76 and a ≥50% reduction in negative symptoms was achieved more frequently with olanzapine (41.7%) than with risperidone (7.7%) (P = 0.047) (note that this difference disappeared following Bonferroni correction).Reference Mozes, Ebert, Michal, Spivak and Weizman77 However, efficacy was similar for risperidone (14% decline in negative symptoms), olanzapine (17.7% decline) and haloperidol (19.2% decline) in another study.Reference Gothelf, Apter, Reidman, Brand-Gothelf, Bloch and Gal78 No differences in negative symptom reduction were found between quetiapine and olanzapine (P > 0.05).Reference Parellada, Moreno, Ruiz-Sancho, Medina and Arango79 Similarly, no difference in efficacy for negative symptoms emerged between paliperidone and aripiprazole after 2 months (P = 0.535) or 6 months (P = 0.696).Reference Savitz, Lane, Nuamah, Gopal and Hough80
Evidence from RCTs was also limited for psychosocial interventions. In one RCT a psychoeducation group for children and adolescents with EOP and their parents showed a greater reduction in negative symptoms than the non-structured group (r = 0.41).Reference Calvo, Moreno, Ruiz-Sancho, Rapado-Castro, Moreno and Sánchez-Gutiérrez81 However, the improvement did not persist after 2 years.Reference Calvo, Moreno, Ruiz-Sancho, Rapado-Castro, Moreno and Sánchez-Gutiérrez82 There was, though, an association between improvements in executive function and a reduction in negative symptoms (P < 0.05) in the psychoeducation group.Reference Rapado-Castro, Moreno, Ruiz-Sancho, Camino, Arango and Mayoral83 With regard to evidence from other intervention studies, participants attending a programme of residential out-patient care following discharge from a clinic showed a significantly greater decrease in negative symptoms than the control group (P = 0.002).Reference Hemmerle, Roepcke, Eggers and Oades84 No differences in negative symptom improvement were found between cognitive–behavioural therapy (CBT) added to treatment as usual and treatment as usual only at the end of the intervention (P = 0.317), as well as at 9-month (P = 0.169) and 18-month follow-up (P = 0.086).Reference Müller, Kommescher, Güttgemanns, Wessels, Walger and Lehmkuhl85
Systematic review in children and adolescents at CHR-P
Characteristics of the included studies (n = 33) and key findings related to CHR-P can be found in Supplementary eTable 8. Findings evaluated at meta-analytical level will be reported separately below.
Diagnostic or detection factors
Altogether, 13 (39.4%) studies focused primarily on diagnostic or detection factors. The key diagnostic and detection factors in CHR-P are reported below following the same order as above (diagnostic categories and subgroups, clinical factors, functioning and quality of life, neurobiological findings and cognitive factors).
More severe negative symptoms were associated with greater illness severity (r = −039, P > 0.001),Reference Salazar de Pablo, Guinart, Cornblatt, Auther, Carrión and Carbon86 poorer current global functioning (r = −0.26; P = 0.015),Reference Gerstenberg, Furrer, Tesler, Franscini, Walitza and Huber87 social functioning (r = 0.38–0.47, P ≤ 0.001)Reference Gerstenberg, Furrer, Tesler, Franscini, Walitza and Huber87,Reference Niendam, Bearden, Johnson, McKinley, Loewy and O'Brien88 and role functioning (r = −0.25; P = 0.025),Reference Gerstenberg, Furrer, Tesler, Franscini, Walitza and Huber87 lower current functioning (r = −0.17; P = 0.031), lower lowest functioning in the past year (r = −0.20; P = 0.014) and lower highest functioning in the past year (r = −0.19; P = 0.022).Reference Salazar de Pablo, Guinart, Cornblatt, Auther, Carrión and Carbon86 A correlation between negative symptoms and depressive symptoms was also observed (r = 0.380–533, P < 0.01),Reference Rodriguez-Pascual, Alvarez-Subiela, Tor, Pardo, de la Serna and Sugranyes89,Reference Addington, Shah, Liu and Addington90 particularly anhedonia (P < 0.001).Reference Pelizza, Poletti, Azzali, Paterlini, Garlassi and Scazza91 No correlations between negative symptoms and attachment (P > 0.05)Reference Quijada, Tizon, Artigue, Kwapil and Barrantes-Vidal92 were found. No differences in negative symptoms were found between children and adolescents at CHR-P with attenuated negative/disorganised symptoms only, those with attenuated positive symptoms and those with schizophrenia-like psychosis (P > 0.05).Reference Lencz, Smith, Auther, Correll and Cornblatt93 More individuals with negative symptoms were found among children and adolescents at CHR-P with major depressive disorder than without major depressive disorder (90.3% v. 68.2%, P = 0.021).Reference Rodriguez-Pascual, Alvarez-Subiela, Tor, Pardo, de la Serna and Sugranyes89 One study reported that 70% of children and adolescents at CHR-P experienced a decrease in the ability to start/maintain social relationships, 80% experienced poor work and school performance and 55% experienced social withdrawal.Reference Quijada, Tizon, Artigue and Parra94
Negative symptoms were more severe in children and adolescents at CHR-P with 22q11 deletion syndrome than without the syndrome (P = 0.0081).Reference Armando, Girardi, Vicari, Menghini, Digilio and Pontillo95 From a neuroimaging perspective, larger left amygdala volumes were associated with negative symptoms in females (P = 0.020) but not in males.Reference Bartholomeusz, Whittle, Pilioussis, Allott, Rice and Schäfer96 Negative symptoms were associated with worse processing speed (r = −0.31, P = 0.014) and verbal performance (r = −0.37, P = 0.03)Reference Lindgren, Manninen, Laajasalo, Mustonen, Kalska and Suvisaari97 as well as the total speed of timed activities (P = 0.038).Reference Pitzianti, Pontillo, Vicari, Armando and Pasini98 Moreover, different negative symptom dimensions were associated with difficulties in metacognition (i.e. cognition related to cognitive impairments) (P < 0.001).Reference Pelizza, Poletti, Azzali, Garlassi, Scazza and Paterlini99 However, no significant associations emerged between negative symptoms and neurocognitive measures in another study (P > 0.05).Reference Niendam, Bearden, Johnson, McKinley, Loewy and O'Brien88
Prognostic and therapeutic factors
Altogether, 20 (60.6%) studies focused on longitudinal prognostic or therapeutic factors. The key factors regarding changes in negative symptoms in children and adolescents at CHR-P and the factors that contribute to these changes are reported below following the same order as above (diagnostic categories and subgroups, clinical factors, functioning and quality of life, neurobiological findings and cognitive factors, therapeutic factors). Participants in clinical trials were not selected based on the presence of negative symptoms.
Males had more severe negative symptoms than females at 6-month and 12-month follow-up (P < 0.05).Reference White, Niendam, Bearden, Zinberg, O'Brien and Cannon100 Negative symptoms at baseline did not predict transition to psychosis (P = 0.76) in one study (n = 71, 1-year follow-up),Reference Giordano, Palumbo, Pontillo, Mucci, Galderisi and Vicari101 whereas they did in another (n = 153, 7-year follow-up) (AUC = 0.74, P < 0.01).Reference Lindgren, Kuvaja, Jokela and Therman102 In fact, conversion was best predicted by negative symptoms compared with other clinical variables in children and adolescents at CHR-P (P = 0.006, d = 0.46),Reference Zhang, Xu, Chen, Wei, Tang and Hu103 and 100% of children and adolescents at CHR-P who transitioned to psychosis had negative symptoms in a further study.Reference Spada, Molteni, Pistone, Chiappedi, McGuire and Fusar-Poli13 Additionally, positive remarks by family members were associated with decreased negative symptoms (P < 0.05).Reference O'Brien, Zinberg, Bearden, Lopez, Kopelowicz and Daley104
In one RCT, omega-3 fatty acid treatment was associated with significantly lower negative symptom scores at 12 weeks (P < 0.05), 6 months (P < 0.05) and 12 months (r = 0.52, P < 0.05) compared with placebo.Reference Amminger, Schafer, Papageorgiou, Klier, Cotton and Harrigan105 More severe baseline negative symptoms were associated with treatment response in the omega-3 supplemented group compared with the placebo group (d = 0.7).Reference Amminger, Mechelli, Rice, Kim, Klier and McNamara106 However, no significant differences in negative symptoms between the groups receiving CBT and risperidone, CBT and placebo, supportive therapy and placebo, and monitoring only were found in another study (P > 0.05).Reference McGorry, Nelson, Phillips, Yuen, Francey and Thampi107 Family-focused treatment was also not associated with an improvement in negative symptoms (P > 0.05). Children and adolescents at CHR-P who were on antipsychotics showed greater improvement in negative symptoms than those not on antipsychotics (P = 0.03) in a family-focused treatment trial.Reference Miklowitz, O'Brien, Schlosser, Addington, Candan and Marshall108
Meta-analyses on the prevalence of negative symptoms
Twenty studies and 1799 individuals were included in the meta-analysis: 1457 children and adolescents with EOP (mean age 15.5 years (s.d. = 1.2), 52.1% males) and 342 children and adolescents at CHR-P (mean age 15.2 years (s.d. = 0.9), 52.6% males). Note that this is 15% of the included studies: the rest were not meta-analysed as they evaluated negative symptoms continuously (i.e. their severity) or were overlapping with these studies. Altogether, 66.0% (95% CI 53.6–78.5%) of the total sample had negative symptoms (k = 20 studies, n = 1799). Heterogeneity (I 2) across the included studies was statistically significant (I 2 = 98.0%, P < 0.001). Publication bias was not detected in the funnel plot (Supplementary eFig. 1) or Egger's test (P = 0.395) (Supplementary eTable 9). Notably, no overlap was found in any of the studies included in the meta-analysis.
Of the children and adolescents with EOP, 60.8% (95% CI 46.4–75.2%) had negative symptoms (k = 15, n = 1457) (Fig. 2). Heterogeneity across the included studies was statistically significant (I 2 = 97.5%, P < 0.001). Publication bias was not detected in the funnel plot (Supplementary eFig. 2) or Egger's test (P = 0.578) (Supplementary eTable 9). Of the children and adolescents at CHR-P, 79.6% (95% CI 66.3–92.9%) had negative symptoms (k = 6, n = 342) (Fig. 3). Heterogeneity across the included studies was statistically significant (I 2 = 92.2%, P < 0.001). Publication bias was not detected in the funnel plot (Supplementary eFig. 3) or Egger's test (P = 0.057) (Supplementary eTable 9).
Fig. 2 Negative symptom prevalence in children and adolescents with early-onset psychosis.
Fig. 3 Negative symptom prevalence in children and adolescents at clinical high-risk for psychosis.
Sub-analyses and meta-regression analyses
In the sub-analyses, the decade of publication seemed to moderate the prevalence of negative symptoms (Q = 10.427, P = 0.005). Studies published in 2011–2022 detected negative symptoms in 70.3% (95% CI 56.6–81.1%) of children and adolescents with EOP or at CHR–P, whereas studies published in 2001–2020 detected negative symptoms in 66.0% (95% CI 43.2%–83.2%) and studies published in 1991–2000 detected negative symptoms in 43.6% (95% CI 34.0%–53.8%).
The continent of publication also moderated the prevalence of negative symptoms (Q = 9.145, P = 0.027). Studies published in Europe (72.6%, 95% CI 59.2–82.9%) and Asia (60.9%, 95% CI 24.9–88%) found a higher prevalence of negative symptoms than those published in North America (49.7%, 95% CI 41.6–57.8%) or Africa (46.5%, 95% CI 32.3–61.3%).
No differences were found between studies including some individuals ≥18 years compared with those studies including only individuals <18 years (Q = 0.026, P = 0.871) or between cross-sectional studies and longitudinal studies (Q = 0.020, P = 0.889) (Table 1).
Table 1 Subgroup analyses
In the meta-regression analyses, neither publication year, percentage with schizophrenia, sample size, mean age, percentage of males, percentage on antipsychotics nor NOS scores were significantly associated with the prevalence of negative symptoms (all P > 0.05) (Table 2).
Table 2 Meta-regression analyses
Discussion
To the best of our knowledge, this is the first systematic review to provide a comprehensive evaluation of the evidence regarding negative symptoms and diagnostic, prognostic and therapeutic factors in children and adolescents with EOP or at CHR-P. Additionally, this is the first quantitative meta-analysis on this topic. We systematically reviewed 133 studies evaluating 6776 children and adolescents with EOP and 2138 children and adolescents at CHR-P, and conducted the first meta-analysis on the prevalence of negative symptoms in children and adolescents in 20 studies involving 1799 individuals (1457 with EOP and 342 at CHR-P) for those studies evaluating the presence/absence of negative symptoms and independent of whether they also reported on the dimensional severity of negative symptoms. The prevalence of negative symptoms in children and adolescents with EOP was 61% and the prevalence in those at CHR-P was 80%. In general, negative symptoms were associated with poorer clinical, functional, neurobiological, cognitive and intervention outcomes in both children and adolescents with EOP and children and adolescents at CHR-P, as detailed in the included studies and the systematic review above. Various interventions in heterogeneous populations have been piloted with variable results that require further study replication. Overall, these findings suggest that negative symptoms are frequent and clinically relevant both in children and adolescents with EOP and in those at CHR-P.
Negative symptoms in EOP
One of our main findings is that over 60% of children and adolescents with EOP experience negative symptoms when these are evaluated. Negative symptoms seem to appear in about 30–50% of individuals with an adult-onset first episode of psychosis.Reference Bobes, Arango, Garcia-Garcia and Rejas109,Reference Patel, Jayatilleke, Broadbent, Chang, Foskett and Gorrell110 The prevalence observed was thus 20–100% higher in children and adolescents with EOP than in adults with a first episode of psychosis. There are different hypotheses or explanations for these results. On the one hand, it may be that this higher prevalence is due to other characteristics of children and adolescents with EOP, which may in turn be associated with poor prognosis. For instance, children and adolescents with EOP present with more neurodevelopmental difficulties,Reference Owen and O'Donovan111 poorer premorbid adjustment,Reference Díaz-Caneja, Pina-Camacho, Rodríguez-Quiroga, Fraguas, Parellada and Arango7 more cognitive impairment and higher impulsivityReference Kao and Liu112 than individuals with adult-onset psychosis. Alternatively, it may be that the participants were particularly enriched in risk factors.Reference Fusar-Poli, Schultze-Lutter, Cappucciati, Rutigliano, Bonoldi and Stahl113 Of note, individual studies found that children and adolescents with EOP showed negative symptoms more frequently, and that an earlier age at onset was associated with a higher number of (and more severe) negative symptoms.Reference Kim, Shin and Lee114,Reference Bahn115 In any case, the assessment and management of negative symptoms in children and adolescents with EOP should be prioritised. Psychiatrists and other mental health professionals should actively and comprehensively evaluate negative symptoms in young people. This includes child and adolescent mental health service clinicians treating children and adolescents with EOP who present to their clinic for the first time, and adult clinicians when these patients transition to their services. On a positive note, our sub-analyses suggest that in the past two decades the identification of negative symptoms has improved globally, at least in research studies. Nevertheless, a potential reason for health professionals not focusing on negative symptoms clinically may be rooted in the fact that high-level evidence for specific treatments for negative symptoms is lacking.Reference Correll, Rubio, Inczedy-Farkas, Birnbaum, Kane and Leucht116 In adults with schizophrenia, at least, antidepressantsReference Galling, Vernon, Pagsberg, Wadhwa, Grudnikoff and Seidman117,Reference Helfer, Samara, Huhn, Klupp, Leucht and Zhu118 and aerobic exerciseReference Ziebart, Bobos, MacDermid, Furtado, Sobczak and Doering119 have been shown to improve negative symptoms, but no such trial data exist for children and adolescents with EOP.
Negative symptoms in CHR-P
Another particularly relevant finding is that negative symptoms appeared in almost 80% of children and adolescents at CHR-P and that this prevalence was higher than for children and adolescents with EOP; importantly, these findings held true at a meta-analytical level. It seems that negative symptoms are observed in the context of emerging attenuated positive symptoms during the prodromal period before the first episode of psychosis. Previous evidence suggests that negative symptoms may be the most common first symptoms of schizophrenia,Reference Correll and Schooler3 potentially appearing 1 year before the emergence of attenuated positive symptoms.Reference Carrión, Demmin, Auther, McLaughlin, Olsen and Lencz120 This sequence of events has led some researchers to suggest that individuals with negative symptoms should be included as a new clinical risk group for developing psychosis.Reference Spada, Molteni, Pistone, Chiappedi, McGuire and Fusar-Poli13,Reference Carrion, Correll, Auther and Cornblatt121 However, one prospective cohort study found that the conversion to psychosis in the group with negative symptoms only was about 5% at 5 years,Reference Carrion, Correll, Auther and Cornblatt121 indicating that negative symptoms alone have limited positive predictive validity. The implication is that screening instrumentsReference Fusar-Poli, Cappucciati, Rutigliano, Lee, Beverly and Bonoldi122 and CHR-P servicesReference Fusar-Poli, Spencer, De Micheli, Curzi, Nandha and McGuire123 should continue identifying ‘high risk’ individuals on the basis of attenuated positive clinical symptoms.Reference Fusar-Poli, Cappucciati, Rutigliano, Lee, Beverly and Bonoldi122 To note, clinical services to prevent psychosis do typically focus on (attenuated) positive symptomsReference Fusar-Poli, Spencer, De Micheli, Curzi, Nandha and McGuire123 in their initial assessment to identify children and adolescents at CHR-P. An alternative explanation for the higher prevalence of negative symptoms in CHR-P could simply be that the instruments used to detect negative symptoms in children and adolescents are more sensitive. To note, negative symptoms were found to be less severe in children and adolescents with EOP than in those at CHR-P fulfilling DSM-5 criteria for attenuated psychosis syndrome (P < 0.001).Reference Wen, Wang, Yao, Liu, Li and Li124 However, the power of our analysis was lower for children and adolescents at CHR-P than for those with EOP, with just six independent studies fulfilling our CHR-P inclusion criteria.
Diagnostic or detection factors
From a diagnostic perspective, we have extensively reviewed clinico-epidemiological, neurobiological and neurocognitive risk factors that increase the likelihood of experiencing negative symptoms or their severity. In our meta-regression analysis, sample prevalence of schizophrenia was not associated with an increased prevalence of negative symptoms. Individual studies did find a greater severity of negative symptoms in the schizophrenia subgroup.Reference Remberk, Bazynska, Bronowska, Potocki, Krempa-Kowalewska and Niwiński125 This finding suggests that negative symptoms do not only appear in schizophrenia and should be evaluated and monitored in children and adolescents in the early stages of psychosis regardless of their diagnosis or presentation. That said, there may be some individuals in whom the therapeutic intensity of pharmacological interventions, particularly antipsychotic treatment, could be minimised and psychosocial interventions could be offered instead. For instance, young people with brief psychotic disorders seem to present less severe negative symptoms, not only compared with schizophrenia (P = 0.006)Reference Remberk, Bogumil, Bronowska, Namyslowska and Potocki126 but also compared with psychosis ‘not otherwise specified’ (P = 0.02).Reference Correll, Lencz, Smith, Auther, Nakayama and Hovey127 This finding is in line with previous suggestions of offering psychosocial interventions without antipsychotic medication to individuals with brief psychotic episodesReference Salazar de Pablo, Jauhar and Fusar-Poli128 or with a shorter duration of untreated psychosis,Reference Francey, O'Donoghue, Nelson, Graham, Baldwin and Yuen129 which is in turn associated with less severe negative symptoms.Reference Howes, Whitehurst, Shatalina, Townsend, Onwordi and Mak130
Risk factors may also have an effect on the presentation of negative symptoms. For instance, children and adolescents with EOP and obesity seemed to present with less severe negative symptoms (P = 0.003).Reference Kemp, Correll, Tohen, Delbello, Ganocy and Findling131 It is therefore important to advance knowledge on the implementation of precision psychiatry to be able to offer state-of-the-art interventions that are personalised and needs-based.Reference Salazar de Pablo, Studerus, Vaquerizo-Serrano, Irving, Catalan and Oliver132 To do that, it is vital to provide mental health professionals with adequate competence and skills training to identify and manage relevant psychopathological and functional disabilities, including those related to negative symptoms.Reference Baldwin, Loebel-Davidsohn, Oliver, de Pablo G, Stahl and Riper133 Notably, the detection of negative symptoms seems to be improving in recent decades, the prevalence of negative symptoms having increased from 44% in 1991–2000 to 70.3% in 2011–2022, suggesting that some of these competencies and skills have been achieved by professionals. One of the challenges in this field, regarding the acquisition of some of these competencies, is the distinction between depressive symptoms and negative symptoms, since there is a correlation between depressive symptoms and negative symptoms and since there may be some overlap, including in individuals with non-affective psychosis.Reference Edwards, Garety and Hardy18,Reference Salazar de Pablo, Guinart, Cornblatt, Auther, Carrión and Carbon86,Reference Rodriguez-Pascual, Alvarez-Subiela, Tor, Pardo, de la Serna and Sugranyes89,Reference Addington, Shah, Liu and Addington90 A systematic review identified that depressed mood, hopelessness and suicidality had greater specificity for depression in people with schizophrenia, whereas alogia, affective blunting and social withdrawal were more characteristic of negative symptoms.Reference Krynicki, Upthegrove, Deakin and Barnes134 These distinctions are not always easy for clinicians to make, but as a recent network analysis in adults with schizophrenia and predominant negative symptoms showed, negative symptoms appear to be an independent symptom cluster that can be delineated from depressive symptoms in the network.Reference Demyttenaere, Anthonis, Acsai and Correll135 Psychometric instruments or digital tools that clearly differentiate these symptoms are required since the presence and severity of negative symptoms may overlap or covary with the severity of other symptoms (e.g. with depressive symptoms but also with positive symptoms or anxiety symptoms) and with functional impairment. Training in the use of these instruments is therefore also important. Finally, the development of a core outcome set for observational and clinical studies in EOP and CHR-P individuals (as per the Core Outcome Measures in Effectiveness Trials: www.comet-initiative.org) that does not rely only on behaviour could reduce heterogeneity and measurement variation and improve the accuracy of the detection of negative symptoms.
Prognostic factors
From a prognostic perspective, this review provided valuable information on diagnostic stability, course and outcomes as well as on the factors that are associated with increased negative symptoms during longitudinal follow-up. Overall, negative symptoms were characterised by consistency and stability.Reference Garcia Traverso, Fraguas, Arango, Castro-Fornieles, González-Pinto and Parellada57,Reference Rapado-Castro, Soutullo, Fraguas, Arango, Payá and Castro-Fornieles58 Interestingly, meta-analytical evidence showed that negative symptoms improved at 12-month follow-up (g = 0.496) but not at 24 months or ≥36 months compared with baseline (P > 0.05) in CHR-P individuals.Reference Salazar de Pablo, Besana, Arienti, Catalan, Vaquerizo-Serrano and Cabras136 This result suggests that negative symptoms need to be monitored during the follow-up period, even if they initially improve. Some children and adolescents with EOP or at CHR-P present with clinical risk factors for poor outcomes (e.g. prominent negative symptoms at baselineReference Parellada, Castro-Fornieles, Gonzalez-Pinto, Pina-Camacho, Moreno and Rapado-Castro61 or long duration of untreated psychosis)Reference Karakuş, Ermiş, Tunçtürk, Yüksel, Alarslan and Sağlam38 or neurobiological risk factors for poor outcomes (e.g. frontal cortical thinness, changes in the cerebrospinal fluid)Reference Garcia-Amador, Joost, Reig, Paradella, Moreno and Moreno64. They may require additional clinical attention since their negative symptoms may deteriorate.
Therapeutic factors
Finally, from a therapeutic perspective, we conclude that research on preventive treatments for children and adolescents with EOP or at CHR-P has limited evidence compared with research in adults.Reference Fusar-Poli, Papanastasiou, Stahl, Rocchetti, Carpenter and Shergill137 In the reviewed studies in children and adolescents with EOP, clozapine was the only medication that showed in RCTs superiority against other antipsychotic medications.Reference Kumra, Frazier, Jacobsen, McKenna, Gordon and Lenane68,Reference Shaw, Sporn, Gogtay, Overman, Greenstein and Gochman69 However, since meta-analytical evidence shows that clozapine is associated with significant cardiometabolic, cardiac, haematological and neurological adverse effects in children and adolescents,Reference Pringsheim, Lam, Ching and Patten138,Reference Solmi, Fornaro, Ostinelli, Zangani, Croatto and Monaco139 clozapine needs to be reserved for treatment-resistant cases in which they have been researched (e.g. after two previous antipsychotics have failed). Other medications, such as aripiprazole, for which a study found a better response in children and adolescents with EOP with negative symptoms than with positive symptoms,Reference Kim, Cho, Shin, Kim, Choi and Kim74 may be prescribed first. Other second-generation antipsychotics (e.g. lurasidoneReference Correll, Tocco, Hsu, Goldman and Pikalov71 and quetiapineReference McConville, Arvanitis, Thyrum, eh, Wilkinson and Chaney72,Reference McConville, Carrero, Sweitzer, Potter, Chaney and Foster73 ) have shown some benefits, but the comparisons do not clearly benefit any of them (apart from clozapine) over the others. The study of other medication groups is recommended, particularly antidepressants, which have shown to be overall effective – although with small effect size – for negative symptoms in adults.Reference Galling, Vernon, Pagsberg, Wadhwa, Grudnikoff and Seidman117,Reference Helfer, Samara, Huhn, Klupp, Leucht and Zhu118 There is also insufficient evidence to recommend any specific psychosocial intervention in children and adolescents with EOP or at CHR-P over the others. Of note, early intervention services (typically offered to adolescents and young adults with EOP or at CHR-P) have shown a reduction in negative symptom severity after 6–24 monthsReference Correll, Galling, Pawar, Krivko, Bonetto and Ruggeri140 compared with treatment as usual, supporting the need for funding and use of early intervention services. To advance knowledge in the field, future research should evaluate changes in negative symptoms as their primary outcome, recruiting and selecting children and adolescents in whom negative symptoms are predominant.
Limitations and strengths
This study has several limitations that must be taken into consideration when interpreting our results. First, the sample sizes and the number of articles were limited for some of the evaluated outcomes. Importantly, only 20 independent samples provided independently meta-analysable data on the presence of negative symptoms, because most studies only reported negative symptoms as a continuous outcome. Second, participants included in the studies were heterogeneous and not selected on the basis of the presence of negative symptoms; the studies were also heterogeneous in their design, methodology and quality, which was low in some of the included studies. Third, the threshold used to consider that negative symptoms were present varied, and some studies did not specify how they measured or defined the presence of negative symptoms. Also, currently used instruments typically rely on behaviour that may have been reported and not always observed, whereas subjective experiences may be insufficiently assessed. Fourth, the mean age of participants in the included studies ranged from 10–17.9 years, which was highly variable. Differences in terms of neurodevelopment and subsequent expression of negative symptoms could exist. We have mitigated against this problem with our sensitivity analyses, but some of these analyses may have been underpowered. Finally, and relatedly, as anticipated in our protocol, the amount of evidence was limited for some outcomes and did not allow us to carry out additional meta-analyses of longitudinal data.
This study also has several strengths. Among them is the fact that this is the ‘first in field’ and most comprehensive systematic review with meta-analytical evidence to date focusing on the prevalence of negative symptoms in children and adolescents with EOP and at CHR-P. Our database for the systematic review was large and globally representative, including 133 individual studies. We used rigorous methods and carefully reported study quality, while providing sensitivity analyses, heterogeneity analyses and publication bias assessments. This approach has allowed us to provide state-of-the-art evidence on the current state in the field but also on the challenges and gaps that future studies should address.
In summary, our findings suggest that negative symptoms are at least as common in children and adolescents with EOP as in adult-onset psychosis, that they appear frequently during the prodromal period in children and adolescents at CHR-P and that they are associated with poor clinical, functional and intervention outcomes in both groups. They highlight the need for further interventional research, so that children and adolescents can receive evidence-based treatments for negative symptoms aimed at improving outcomes.
Supplementary material
Supplementary material is available at https://doi.org/10.1192/bjp.2022.203.
Data availability
This paper reports meta-analytic data based on original published studies. The corresponding author, G.S.P., may be contacted for further information.
Author contributions
Study concept and design: G.S.P., C.C.; data selection and data collection: G.S.P., A.C., J.V.S., B.P., V.S., A.A., V.R.; data analysis: G.S.P.; drafting of the manuscript: G.S.P.; critical revision of the manuscript for important intellectual content: all the authors. G.S.P. had full access to all the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis.
Funding
This research received no specific grant from any funding agency, commercial or not-for-profit sectors.
Declaration of interest
G.S.P. has received personal fees from Janssen Cilag and Menarini. A.C. has received personal fees from Janssen and is supported by the Instituto de Salud Carlos III, Spanish Ministry of Economy and Competitiveness. C.A. has been a consultant to or has received honoraria or grants from Acadia, Angelini, Boehringer, Gedeon Richter, Janssen Cilag, Lundbeck, Minerva, Otsuka, Pfizer, Roche, Sage, Servier, Shire, Schering Plough, Sumitomo Dainippon Pharma, Sunovion and Takeda. C.M. has received honoraria as a consultant and/or advisor and/or for lectures from Angelini, Esteve, Exeltis Janssen, Lundbeck, Neuraxpharm, Nuvelution, Otsuka, Pfizer, Servier and Sunovion outside the submitted work. P.F.P. has received research or personal fees from Lundbeck, Angelini, Menarini and Boehringer Ingelheim. C.A. and C.M. are supported by the Spanish Ministry of Science, Innovation, and Universities, Instituto de Salud Carlos III, European Regional Development Fund ‘A way of making Europe’, Centro de Investigación Biomédica en Red Salud Mental, Madrid Regional Government; and Fundación Mutua Madrileña. J.D. is supported by NIHR Clinician Science Fellowship award and has received support from a Medical Research Council Clinical Research Training Fellowship and Psychiatry Research Trust Peggy Pollak Research Fellowship in Developmental Psychiatry. C.U.C. has been a consultant and/or advisor to or has received honoraria from AbbVie, Acadia, Alkermes, Allergan, Angelini, Aristo, Boehringer-Ingelheim, Cardio Diagnostics, Cerevel, CNX Therapeutics, Compass Pathways, Darnitsa, Gedeon Richter, Hikma, Holmusk, IntraCellular Therapies, Janssen/J&J, Karuna, LB Pharma, Lundbeck, MedAvante-ProPhase, MedInCell, Merck, Mindpax, Mitsubishi Tanabe Pharma, Mylan, Neurocrine, Newron, Noven, Otsuka, Pharmabrain, PPD Biotech, Recordati, Relmada, Reviva, Rovi, Seqirus, SK Life Science, Sunovion, Sun Pharma, Supernus, Takeda, Teva, and Viatris; he provided expert testimony for Janssen and Otsuka; he served on a Data Safety Monitoring Board for Lundbeck, Relmada, Reviva, Rovi, Supernus, and Teva; he has received grant support from Janssen and Takeda and royalties from UpToDate and is a stock option holder of Cardio Diagnostics, Mindpax, LB Pharma and Quantic.
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