Studying people with primary, enduring negative symptoms is one approach to reduce the heterogeneity in research and clinical samples.5 In 1988, Carpenter et al. introduced the concept of deficit schizophrenia to identify a more homogenous subgroup of patients with enduring negative symptoms.2 The term ‘negative symptoms of schizophrenia’ refers to normal behaviour that is absent – such as flat affect, poverty of speech, avolition and apparent lack of desire for the company of others (as distinct from ‘positive’, psychotic symptoms such as delusions and hallucinations). In this context, ‘primary’ refers to negative symptoms that are caused by the schizophrenia disease process itself and not by other factors (such as medication side effects, overwhelming psychotic symptoms, anxiety or depression) that cause ‘secondary’ negative symptoms. Patients with schizophrenia who have these enduring (lasting >1 year) and primary negative features are said to have the deficit syndrome of schizophrenia, or deficit schizophrenia (DS), while those without these features have nondeficit schizophrenia (NDS).6

Deficit and nondeficit groups differ relative to the dimensions used to distinguish diseases – signs and symptoms, risk factors, course of illness, risk factors, and treatment response, suggesting that deficit schizophrenia is a separate disease within the syndrome of schizophrenia.7 Subsequent research has supported this concept, including some double dissociations.5,8

Several studies have examined potential risk or protective factors for DS. Male gender and family history of schizophrenia are replicated risk factors for DS, compared to NDS.8 Winter birth has been associated with an excess of schizophrenia since 1929 and replicated many times,9 but when distinguishing between deficit and nondeficit types, both a review from 20017 and a pooled analysis from 6 countries in 200410 indicate that summer birth is associated with the deficit type of schizophrenia. Interestingly, a study by Kirkpatrick et al. suggested that summer birth is not only associated with the deficit subtype of schizophrenia but also with social anhedonia and low depression score in a nonpatient group.11 Recently, it has been shown that post-traumatic stress disorder (PTSD) is associated with secondary negative symptoms in schizophrenia whereas no such association was found among patients with primary negative symptoms (DS).12 Such differences suggest that earlier insults in neurodevelopment may be linked to the deficit syndrome whereas schizophrenia patients with triggers later in life (e.g. sexual or physical abuse or substance misuse) are less prone to developing primary negative symptoms. The relevance of substance misuse and secondary negative symptoms has been considered previously with detection of symptoms such as amotivation and anhedonia among chronic cannabis users13,14 but the need remains to clarify if this is a risk factor for NDS. Similarly, although population-based studies of schizophrenia have suggested associations with preterm birth and low birth weight15–18 it is unclear if this would be applicable to DS. Specific risk factors have been associated with clinical features in both the deficit/nondeficit syndrome7 and the general schizophrenia literature.8,9 For instance, a latent class analysis of first episode psychosis suggested the existence of a ‘neurodevelopmental group’ of predominantly male patients with a higher prevalence of negative symptoms, family history of psychosis and earlier onset compared to a ‘paranoid group’ with a higher proportion of women, lower family risk and predominantly positive symptoms.19 More recently, we have found an anatomical difference between DS and NDS patients that suggested their development begins to diverge by the early second trimester.20 This evidence and the difference in season of birth suggested the hypothesis that these two groups of patients may differ with regards to the timing of risk factors. However, to date no study has measured associations between a comprehensive range of risk factors and the presence/absence of the deficit syndrome.

In this study, we used a cohort of clozapine-treated schizophrenia patients to examine multiple potential risk factors for schizophrenia with primary negative symptoms. By selecting a clozapine-treated group, we aimed to reduce further the sample heterogeneity due to illness course and treatment response. Given the extensive evidence on prenatal and childhood/adolescent risk factors for schizophrenia, developmental differences between DS and NDS were predicted. We hypothesized that there would be a distinct pattern of risk factors, with those influencing early development such as low birth weight and summer birth being risk factors for DS more than NDS, and those influencing later development such traumatic life experience and cannabis use being greater risk factors for NDS. Risk factors in the study were chosen based on the DS literature7,8 and the schizophrenia literature,9 although these were limited to those available in the study dataset.

Cross-sectional, single-centre study of a cohort of clozapine-treated schizophrenia patients at a community mental health trust in the UK. The study included electronic clinical records of more than 200 cases and five years of follow-up. The dataset for this project was accessed on 20th May 2018. The anonymized clinical records were embedded in a database approved for research and clinical purposes (NHS Research Ethics 13/EE/0121). All cases were assessed and under the care of the same consultant psychiatrist (EF-E).

Participants were included from records of patients with schizophrenia. Inclusion criteria were intentionally broad, including all clozapine-treated patients for whom the ‘deficit’ versus ‘nondeficit’ categorization was available (see below). Exclusion criteria were off-label use of clozapine (no schizophrenia), lack of consent or absence of deficit versus nondeficit categorization. The study was carried out in accordance with the latest version of the Declaration of Helsinki. Informed consent of the participants was obtained.

Routinely, all clinical assessments included a full psychiatric history, mental state examination, current medication list, smoking habit and use of other recreational drugs, comprehensive clozapine side effects assessment and psychopathological scales (see below). Patients have their weight measured every six months and height checked once. Once/year a physical health assessment is done by the general practitioner (GP) who also documents diagnoses such as diabetes in the GP records.

The data included details of the initial contact with this clinical service, including age (as a proxy for FEP), clinical presentation (delusions, abnormal perceptions, catatonia, depression, mania or others) as well as concomitant use of cannabis (yes/no). Birth weight (in grams) was collected as part of the developmental history. Birth weight was self-reported and only included if verified by a parent, or if the patient reported the same birth weight at a minimum of two separate consultations (Ziauddeen et al., 2016). Parents’ year of birth were recorded and used to calculate paternal and maternal age at the time of patient's birth. Any family history of mental illness and diabetes was also recorded. In the present study, we recorded a positive family history of psychosis if a first-degree relative had any history of a psychotic illness (affective or non-affective). Family history of diabetes was assessed for first-degree relatives only.

We chose a wider definition of summer birth (May–August)21 as compared to (June–July)10,22 as we anticipated a lower statistical power given our small study population.

All face-to-face assessments included Global Assessment of Functioning (GAF) and the Clinical Global Impression for Schizophrenia (CGI-SCH),23 which measures severity of positive, negative, depressive, cognitive symptoms as well as an overall severity score, all ranging from 1 (no symptoms) to 7 (extremely severe). The short version of the Warwick-Edinburg Wellbeing scale was performed annually,24 as well as the Obsessive Compulsive Inventory-Revised (OCI-R).25

As part of routine clinical practice, two new scales and instruments were included from 2016: The Schedule for the Deficit Syndrome (SDS) and the Traumatic History Questionnaire (THQ). The SDS is the gold standard and validated semi-structured clinical interview tool for ascertaining the presence of the DS in schizophrenia.6 This interview is specifically designed to assess whether negative symptoms are primary and enduring features rather than secondary or transient. The six negative symptoms listed for diagnosis of DS are assessed with each given a score between 0 (normal) to 4 (severely impaired). The categorization of DS requires a score of 2 on at least two of six negative symptoms. In addition, the patient is given a global severity score and a global deficit/nondeficit categorization.6 The rating psychiatrist (EF-E) was trained by a senior author of the SDS (BK) and had extensive experience in the use of the instrument. The THQ is a screening tool for PTSD26 designed for clinical practice. It asks about 24 potentially traumatic experiences, divided in three groups: general trauma, crime-related, and physical and sexual abuse. It does not rate PTSD symptoms, but whether the subject has experienced the traumatic event, its frequency, and the age at which the patient had the trauma. A modified version was used, adding a 25th question related to perceived bullying. This last question reads: ‘have you ever experienced physical or emotional bullying, either at school or somewhere else?’. For this study, we calculated whether the traumatic experience was suffered before the onset of the FEP.

Analyses were divided in two parts. First, we compared the two groups (DS and NDS) regarding symptom/outcome and sociodemographic measures known from other studies to differ between deficit/nondeficit schizophrenia: severity of negative and positive symptoms, length of illness, and general functioning. Second, we compared the two patient groups on known risk factors for DS (gender, family history of schizophrenia, summer birth). We also compared known risk factors for schizophrenia itself (compared to the general population): advanced paternal age, low birth weight, history of physical and sexual abuse, and cannabis use.27–30

All statistical analyses were conducted using SPSS v25.0 for Mac, with a two-tailed 0.05 significance level, unless otherwise specified. Data from DS and NDS groups were compared with the chi-square test, Fisher's exact test, one sample t-test, and bivariate correlation using the Pearson r coefficient, as appropriate. Given our small sample size, we calculated the power of each test to control for type II errors using univariate analysis in SPSS; results are presented as observed power. An observed power greater than 80% (0.80) was considered satisfactory. Logistic regression was used as a confirmatory analysis to test the association between different risk factors and the deficit syndrome, controlling for multiple comparisons.

Table 2 gives the demographic and clinical characteristics of the DS and NDS groups. The deficit group had significantly lower GAF scores (p<0.01), indicating poorer overall function. As expected, the deficit group scored significantly higher on the CGI-SCH for negative symptoms, cognitive symptoms,31 and overall severity (p<0.001), but did not differ for positive or depressive symptoms (p>0.1).32 The remaining sociodemographic and clinical details did not differ significantly between the two groups (though there were non-significant trends towards those with DS being more commonly male, using less antidepressant medication, and being more likely to have type 2 diabetes mellitus [T2DM]).

Table 3 shows the prevalence of different risk factors in their approximate chronological order. Compared to DS, NDS patients were significantly more likely to have reported using cannabis at the time of their first episode of psychosis, and similar to previous research,21 we found an association between DS and summer birth (p<0.05). We also assessed the prevalence of summer birth using the narrower definition (June–July). Although the prevalence of birth in June-July remained higher among DS patients than NDS patients (27.1% versus 18.5%), the results were not statistically significant (p=0.20) and the observed power remained low at 25%. The statistical power for risk factors that were not associated with either group, that is family history of psychosis, paternal age >35, male gender and birth weight less than 3000g had power estimates of 9.2%, 14.1%, 17.5% and 15.6% respectively.

We further explored the role of traumatic events. Table 4 shows the prevalence of reported experience of range of traumatic events across the lifespan and before FEP. Both groups reported a high prevalence of trauma exposure, both lifetime exposure (86.5% in the total study population) and prior to FEP (68.5%). Crime-related events were reported significantly more often by patients with NDS, reaching statistical significance for crime-related events prior to FEP (NDS 27.9% vs. DS 8.9%; p<0.05). Nondeficit patients also had higher exposure to physical or sexual abuse, both during their entire lifetime (41.9% vs. 26.1%; p=0.07) and prior to FEP (35.7% vs. 17.8%; p<0.05).

Logistic regression was performed, using deficit/nondeficit categorization as the dependent variable and the list of risk factors in Fig. 1 as independent variables, except low birth weight. We excluded birth weight as only 64% of the total sample had that information. Using this model, with a R2 of 0.25, only cannabis use at the time of FEP (p<0.01) and physical or sexual abuse before FEP (p<0.01) were significant predictors of nondeficit syndrome type.

Figure 1.

Confirmatory logistic regression analysis, using schizophrenia categorization and the variables: family history of psychosis, paternal age >35 years old, male gender, summer birth, cannabis association and physical or sexual abuse prior to FEP in a multivariate model. Statistical significance is marked by stars, where p<0.05 is represented by *, p<0.01 by ** and p<0.001 by ***, with odds ratio (OR) and 95% confidence interval (95% CI). Abbreviation: first-episode psychosis (FEP).

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