Hostname: page-component-8448b6f56d-m8qmq Total loading time: 0 Render date: 2024-04-18T01:30:46.427Z Has data issue: false hasContentIssue false
  • English
  • Français

Excess mortality in patients with schizophrenia spectrum disorders in Malaga (Spain): A cohort study

Published online by Cambridge University Press:  04 February 2021

Berta Moreno-Küstner ,
Jose Guzman-Parra Open the ORCID record for Jose Guzman-Parra [Opens in a new window] ,
Yolanda Pardo ,
Yolanda Sanchidrián ,
Sebastián Díaz-Ruiz  and
Fermin Mayoral-Cleries
Berta Moreno-Küstner
Affiliation:
Departamento de Personalidad, Evaluación y Tratamiento Psicológico, Grupo GAP, Facultad de Psicología, Universidad de Málaga, Spain
Jose Guzman-Parra*
Affiliation:
Department of Mental Health, University General Hospital of Malaga. Biomedical Research Institute of Malaga (IBIMA), Spain
Yolanda Pardo
Affiliation:
Department of Mental Health, University General Hospital of Malaga. Biomedical Research Institute of Malaga (IBIMA), Spain
Yolanda Sanchidrián
Affiliation:
Departamento de Personalidad, Evaluación y Tratamiento Psicológico, Grupo GAP, Facultad de Psicología, Universidad de Málaga, Spain
Sebastián Díaz-Ruiz
Affiliation:
Instituto de Medicina Legal de Málaga, Spain
Fermin Mayoral-Cleries
Affiliation:
Department of Mental Health, University General Hospital of Malaga. Biomedical Research Institute of Malaga (IBIMA), Spain
*
Author for correspondence: Jose Guzman-Parra, E-mail: joseguzman@uma.es
Rights & Permissions [Opens in a new window]

Abstract

Aims

There is evidence that patients with schizophrenia spectrum disorders present higher mortality in comparison with the general population. The aim of this study was to analyse the causes of mortality and sociodemographic factors associated with mortality, standardised mortality ratios (SMRs), life expectancy and potential years of life lost (YLL) in patients with schizophrenia spectrum disorders in Spain.

Methods

The study included a cohort of patients from the Malaga Schizophrenia Case Register (1418 patients; 907 males; average age 42.31 years) who were followed up for a minimum of 10 years (median = 13.43). The factors associated with mortality were analysed with a survival analysis using Cox's proportional hazards regression model.

Results

The main causes of mortality in the cohort were circulatory disease (21.45%), cancer (17.09%) and suicide (13.09%). The SMR of the cohort was more than threefold that of the population of Malaga (3.19). The life expectancy at birth was 67.11 years old, which is more than 13 years shorter than that of the population of Malaga. The YLL was 20.74. The variables associated with a higher risk of mortality were age [adjusted hazard ratio (AHR) = 1.069, p < 0.001], male gender (AHR = 1.751, p < 0.001) and type of area of residence (p = 0.028; deprived urban zone v. non-deprived urban area, AHR = 1.460, p = 0.028). In addition, receiving welfare benefit status in comparison with employed status (AHR = 1.940, p = 0.008) was associated with increased mortality.

Conclusions

There is excess mortality in patients with schizophrenia spectrum disorders and also an association with age, gender, socioeconomic inequalities and receiving welfare benefits. Efforts directed towards improved living conditions could have a positive effect on reducing mortality.

Keywords

Health outcomespsychosisrisk factorsschizophrenia
Type
Original Article
Information
Epidemiology and Psychiatric Sciences , Volume 30 , 2021 , e11
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0), which permits unrestricted re- use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2021. Published by Cambridge University Press

Introduction

In general, mental disorders are strongly associated with premature mortality worldwide (Walker et al., Reference Walker, McGee and Druss2015) and remain an important global health problem (Liu et al., Reference Liu, Daumit, Dua, Aquila, Charlson, Cuijpers, Druss, Dudek, Freeman, Fujii, Gaebel, Hegerl, Levav, Munk Laursen, Ma, Maj, Elena Medina-Mora, Nordentoft, Prabhakaran, Pratt, Prince, Rangaswamy, Shiers, Susser, Thornicroft, Wahlbeck, Fekadu Wassie, Whiteford and Saxena2017). Among them, excess mortality in schizophrenia spectrum disorders is a major public health concern that causes significant suffering in patients, families and society. Reviews of the literature on mortality in schizophrenia and psychotic disorders have found a standardised mortality ratio (SMR) of 2–4 (Saha et al., Reference Saha, Chant and McGrath2007; McGrath et al., Reference McGrath, Saha, Chant and Welham2008; Ringen et al., Reference Ringen, Engh, Birkenaes, Dieset and Andreassen2014; Piotrowski et al., Reference Piotrowski, Gondek, Królicka-Dere¸gowska, Misiak, Adamowski and Kiejna2017). A recent meta-analysis by Oakley et al. (Reference Oakley, Kisely, Baxter, Harris, Desoe, Dziouba and Siskind2018) found a gender-pooled SMR of 3.08 for schizophrenia and psychotic disorders in the community. Likewise, a recent systematic review (Hjorthøj et al., Reference Hjorthøj, Stürup, McGrath and Nordentoft2017) found 14.5 potential years of life lost (YLL) associated with schizophrenia, with an overall weighted average life expectancy of 64.7 years, being lower for men (59.9 years) than for women (67.6 years).

Mortality in schizophrenia is associated with natural causes, mainly cardiovascular diseases (Brown et al., Reference Brown, Kim, Mitchell and Inskip2010; Bushe et al., Reference Bushe, Taylor and Haukka2010), cardiometabolic adverse events related to anti-psychotic medication (Mitchell et al., Reference Mitchell, Vancampfort, Sweers, Van Winkel, Yu and De Hert2013) and other physical health comorbidities such as cancer (Crump et al., Reference Crump, Winkleby, Sundquist and Sundquist2013; Laursen et al., Reference Laursen, Nordentoft and Mortensen2014; Morgan et al., Reference Morgan, McGrath, Jablensky, Badcock, Waterreus, Bush, Carr, Castle, Cohen, Galletly, Harvey, Hocking, McGorry, Neil, Saw, Shah, Stain and MacKinnon2014). Among the unnatural causes of death, suicide is the most common (Rantanen et al., Reference Rantanen, Koivisto, Salokangas, Helminen, Oja, Pirkola, Wahlbeck and Joukamaa2009; Brown et al., Reference Brown, Kim, Mitchell and Inskip2010; Laursen et al., Reference Laursen, Nordentoft and Mortensen2014). Concerning sociodemographic factors, living in areas of socioeconomic disadvantage has been associated with higher mortality rates (Tsai et al., Reference Tsai, Chung, Lee, Chou, Su, Shen, Lin and Chou2014).

In addition, the excess mortality found in schizophrenia spectrum disorders does not seem to be diminishing with the advances in diagnostic and therapeutic methods; instead, it is increasing (McGrath et al., Reference McGrath, Saha, Chant and Welham2008; Oakley et al., Reference Oakley, Kisely, Baxter, Harris, Desoe, Dziouba and Siskind2018). Although mortality has declined for the general population, people with schizophrenia spectrum disorders still have elevated mortality (Ösby et al., Reference Ösby, Westman, Hällgren and Gissler2016; Westman et al., Reference Westman, Eriksson, Gissler, Hällgren, Prieto, Bobo, Frye, Erlinge, Alfredsson and Ösby2018). Lee et al. (Reference Lee, Liu, Tu, Palmer, Eyler and Jeste2018) found that the SMR increased by 37% from pre-1970 to post-1970 studies and Bushe et al. (Reference Bushe, Taylor and Haukka2010) found a peak in the mid-1990s. Therefore, as a public concern, excess mortality in schizophrenia remains a phenomenon that is insufficiently studied and unsolved (Piotrowski et al., Reference Piotrowski, Gondek, Królicka-Dere¸gowska, Misiak, Adamowski and Kiejna2017) and analyses have shown high levels of heterogeneity between regions.

Furthermore, there is a lack of studies in southern and eastern Europe on mortality in schizophrenia spectrum disorders (Gondek et al., Reference Gondek, Królicka, Piotrowski and Kiejna2015) and the study of possible regional differences could be informative and valuable (Galletly, Reference Galletly2017). The scarcity of studies in these regions makes it difficult to assess the longitudinal evolution of mortality in schizophrenia spectrum disorders in a large part of Europe and also to explore more about the different sociodemographic factors that could be influencing the so-called mortality gap. In Spain, there has been one published study estimating the characteristics of physical disease in hospitalised patients with schizophrenia, which concluded that physical disease in schizophrenia was associated with an SMR of 3.6 (Bouza et al., Reference Bouza, Lápez-Cuadrado and Amate2010). In order to evaluate the mortality in schizophrenia and related disorders, we have carried out this study based on data from a well-defined catchment area in southern Spain where a comprehensive case register operating since 2003 was developed. Hence, the purpose of the present study is to present mortality data in a cohort of patients with schizophrenia spectrum disorders in Malaga (Spain); specifically, the causes of mortality, SMR, life expectancy, YLL and possible sociodemographic factors associated with mortality were analysed.

Methods

Design, setting and cohort

We conducted an observational study using data from a historical cohort of the Registry of Schizophrenia of Malaga (RESMA). The RESMA was a census of patients diagnosed with schizophrenia spectrum disorders treated in any mental health services of the catchment area of the Regional University Hospital of Malaga, which covers 315 159 inhabitants. The participants were included in the RESMA between 1 January 2003 and 31 December 2006. Demographically, the area predominantly contained an urban population, with only 14% of participants living in rural areas and 9.7% living in socioeconomically deprived areas (Moreno-Küstner et al., Reference Moreno-Küstner, Mayoral, Navas-Campaña, García-Herrera, Angona, Martín and Rivas2016). The RESMA is based on healthcare data collected routinely from several psychiatric record systems merged into a unique database. Details of the baseline characteristics of the sample have been described previously (Moreno-Küstner et al., Reference Moreno-Küstner, Mayoral, Pérez, García-Herrera, Algarra, Rivas, Pérez, Becerra and Gornemann2009, Reference Moreno-Küstner, Mayoral, Navas-Campaña, García-Herrera, Angona, Martín and Rivas2016). The cohort study included all patients with a clinical diagnosis of schizophrenia spectrum disorders (ICD-10 codes F20–F29) (World Health Organization, 2016). The subjects were followed up to 31 December 2016. The median time of follow-up was 13.43 years [interquartile range ([IQR) = 10.51–13.51 years].

We used different procedures to confirm the status of cases as alive, dead or censored. The process was performed in two stages. The first source of information was the digitised routine medical record of Andalusia: thus, when an appointment was attended after 31 December 2016 the participant was considered alive. The second source of information was the Malaga Civil Register, where deaths are registered in the INFOREG programme (computerisation of civil registries), which allows searches at the regional and national level. To corroborate the causes of mortality, the Institute of Forensic and Legal Medicine of Malaga was checked. In participants whose information had not been available in medical records, a search was performed to confirm whether the person was dead and to identify the date and cause of death. Subjects for whom no data were obtained in medical records or the Civil Registry were considered to be censored and were included in the follow-up period until the date of last contact with the health system (date of censoring).

Mortality was studied in relation to the following variables at baseline: age, gender, civil status (single, married/with partner, separated, divorced, widowed), level of education (no formal education and illiterate, primary school, secondary school, higher education), type of living arrangement (family of origin/other relatives, own family, alone, sheltered accommodation, homeless), employment status [employed, unemployed, receiving welfare benefits (because illness or ageing made it impossible for them to continue with their work), others], type of area of residence (non-deprived urban, deprived urban zone, rural, not proceed) and ICD-10 diagnosis [F20: schizophrenia, F22: persistent delusional disorders, F23: acute psychotic disorders, F25: schizoaffective disorders, others (F21: schizotypal disorder, F24: disorder of induced delusions, F28: other non-organic psychotic disorders, F29: unspecified non-organic psychosis)]. The latter variable was also categorised as schizophrenia v. other schizophrenia spectrum disorders in order to calculate the specific SMR, life expectancy and YLL. Natural causes of mortality were classified according to the broad categories of the ICD-10 (World Health Organization, 2016) and non-natural causes of mortality were categorised as suicides or other non-natural causes.

Analytical methods

We calculated the mortality rate by dividing the number of observed deaths (deaths from all causes) in the cohort by the person-years at risk, multiplying by 1000 and then stratifying according to sociodemographic and diagnostic variables.

The SMRs were calculated as the ratio of the number of observed deaths in the sample and the number of expected deaths in the province of Malaga obtained by the mortality statistics of the province of Malaga in 2009 (mid-year) (National Institute of Statistic, 2009). For the calculation of SMR for suicide, the national mortality statistics in 2009 were used, as data from Malaga were not available. The expected deaths were calculated by multiplying the population in the cohort by the time in follow-up and by the specific death rate in the general population (5-year age groups), standardised by gender. The SMR was estimated for the entire cohort and by gender, age and diagnosis categories, as well as for suicide. The SMR summarises the degree to which the mortality rate is higher or lower in a specific group compared to the general population. The SMR provides an easy-to-understand approximation of the relative risk of the study cohort in comparison with the standard population.

We calculated the life expectancy of the cohort according to Chiang's method of abridged life tables, with age intervals of 5 years (Chiang and World Health Organisation, Reference Chiang1979). Life expectancy was calculated for the entire cohort and by gender and diagnosis categories. Life expectancy is a measure that estimates the level of mortality of a population through the years that a person is expected to live at birth under the mortality conditions of the study period. Life expectancy might be useful because it is less affected by the composition and the follow-up time of the cohort studied than SMR and is also easy to understand and interpreted.

The YLL was also calculated based on the difference between the expected age of death of deceased persons in the sample according to the National Institute of Statistics of 2009, standardised by gender and the empirical age of death of deceased individuals, divided by the number of deceased persons. The YLL reflects the years of life that the deceased would have lived if the corresponding life expectancy had been fulfilled. The YLL has advantages including the fact that it avoids arbitrary age cut-offs and assigns higher weights to the deaths at younger ages (Martinez et al., Reference Martinez, Soliz, Caixeta and Ordunez2019).

Likewise, within-cohort analyses were conducted to study factors associated with mortality using Cox's proportional hazards regression models (univariate and multivariate). A univariate analysis was performed to compare the censored individuals (N = 99; 7.0%) and those with information on their survival until the end of the follow-up period. There was no association between the two groups, except for the type of living arrangement (χ 2 = 12.405; p = 0.015): the censored group lived more frequently in sheltered accommodation (20% v. 9.7%) or alone (13.3% v. 8.8%) and less frequently with family or other relatives (45.6% v. 54.2%) or with their own family (20.0% v. 25.6%). The median follow-up time for non-censored individuals was 13.51 (IQR = 10.51–13.51) and for censored individuals was 9.25 (IQR = 6.36–11.79). The multivariate models were used to confounding control. The confounders were decided based on prior causal knowledge (depicting causal graphs) and following standard epidemiological confounder control rules (Shrier and Platt, Reference Shrier and Platt2008). The multivariate analyses that were carried out both with the original data and the missing data were imputed using Multiple Imputation by Chained Equations (MICE). The results did not vary significantly and it was decided to use the data without imputation (see online Supplementary Table S1 in the supplementary material for the results using the imputed models). The linearity of the continuous variables was evaluated using the Martingale residual graph (see online Supplementary Fig. S1 in the Supplementary Material) and the proportional hazard assumption was analysed with Cox's proportional hazards test based on Schoenfeld residuals (cox.zph function in R). Also, a Kaplan–Meier survival analysis was conducted. The analysis was carried out using SPSS version 19.0 and R version 3.4.1 with package survival.

Results

In this study, 1418 patients were included. Briefly, cases were more frequently male (63.90%), middle-aged (average: 42.31; s.d.: 13.63), single (61.35%), with no formal education or primary education only (64.53%), living with their family of origin/other relatives (48.02%) and receiving welfare benefits mainly due to their severe mental illness (41.60%). Most of the cohort lives in non-deprived urban areas (72%). The majority had a diagnosis of schizophrenia (60.08%). Table 1 shows the demographic characteristics and diagnoses of the sample at baseline, the number of events (deaths), person-years of follow-up and mortality rates.

Table 1. Study sample description of patients with schizophrenia spectrum disorders by demographic characteristics and diagnosis at baseline

Mortality

Out of 1418 patients, 275 (19.4%) individuals died during the follow-up period, with the mortality rate being 17.40 per 1000 person-years.

The most frequent cause of mortality was circulatory system disease (21.45%, N = 59), followed by cancer (17.09%, N = 47). Non-natural causes of mortality accounted for approximately a quarter of the deaths (19.09%, N = 53); these were mainly due to suicide (13.09%, N = 36). Information regarding the causes of mortality is summarised in Table 2. Among individuals <35 years old at the beginning of follow-up, suicide was the main cause of mortality (48.38%, N = 15).

Table 2. Causes of mortality by the International Classification of Diseases 10th version

Mortality was three times higher than in the general population of Malaga (SMR = 3.189). Regarding gender, the SMR for men (3.385) was higher than for women (2.840); with regard to age groups, the SMR was especially high in the lower age ranges, and this progressively reduced: 9.323 (15–29 years), 7.670 (30–44 years), 4.325 (45–59 years) and 2.109 (>60 years). The SMR was higher in schizophrenia (3.997) compared with other schizophrenia spectrum disorders (2.534). Regarding suicide, the SMR was 22.118 [19.414 (14.112–24.716) in men and 38.002 (19.977–56.026) in women] (Table 3).

Table 3. Standardised mortality ratios of patients with schizophrenia spectrum disorders by gender, age intervals and diagnosis

a The expected deaths were calculated from the data of the National Institute of Statistics (2009).

b Standardised by age and sex.

c Standardised by age.

Life expectancy at birth was more than 13 years shorter compared to that of the population of Malaga (67.11 v. 80.52) and more than 14 years shorter when considering only patients diagnosed with schizophrenia (66.20 v. 80.52). Regarding gender, the difference in life expectancy between the cohort and the general population was higher in men (more than 13 years less: 63.94 v. 77.71) than in women (10 years less: 73.24 v. 83.28) (Table 4).

Table 4. Life expectancy in the province of Malaga population and in the cohort by gender and diagnosis

a Data from the National Institute of Statistics (2009).

For the entire sample, the YLL was 20.74 years. In the sample with schizophrenia, the YLL was higher (22.80 years) than in other schizophrenia spectrum disorders, except schizophrenia (17.65 years). The YLL for men was higher (21.13 years) than for women (19.90 years).

In bivariate Cox regression analysis, the following variables were associated with mortality: age (UHR = 1.062, p < 0.001), civil status (p < 0.001), level of education (p < 0.001), type of living arrangement (p < 0.001) and employment status (p < 0.001) (for details see Table 5). After adjustment in the multivariate analysis, the variables associated with higher mortality were age [adjusted hazard ratio (AHR) = 1.069, p < 0.001), male gender (AHR = 1.751, p < 0.001) and type of area of residence (p = 0.028; deprived urban zone v. non deprived urban zone: AHR = 1.460, p = 0.028). In addition, receiving welfare benefit status in comparison with employed status was associated with increased mortality (AHR = 1.940, p = 0.008). Detailed information on the multivariate survival analysis is shown in Table 5. According to Kaplan-Meier, the average survival was 0.986 at 1 year, 0.935 at 5 years and 0.847 at 10 years.

Table 5. Survival analysis of all mortality causes by Cox regression

* Average survival (Kaplan-Meier) per year: 0.986; at 5 years: 0.935 and at 10 years: 0.847.

Note: UHR, unadjusted hazard ratio; AHR, adjusted hazard ratio.

a Covariates: gender and type of area of residence.

b Covariates: age.

c Covariates: age, gender, diagnosis, level of education, employment status and type of area of residence.

d Covariates: age, gender and diagnosis.

e Covariates: age, gender, level of education and diagnosis.

f Covariates: age, gender, level of education and diagnosis.

g Covariates: age and gender.

h Covariates: age and gender.

Discussion

The main finding of this study was the corroboration of a mortality gap in patients with schizophrenia spectrum disorder compared with the general population in a wide catchment area of Spain and the association of mortality with socioeconomic disadvantages. To the best of our knowledge, this is the first study in Spain to calculate mortality indexes using a population-based register from mental health services (including mainly community care-based users and in-patients). Importantly, the study was carried out in a population in which there was a lack of information on a fundamental issue such as the mortality of patients with schizophrenia spectrum disorders in a population where the mental health care services are less developed than in the countries where mortality has been studied.

Our results indicate that the SMR was 3.189 in the cohort and 3.997 in the sample of individuals diagnosed with schizophrenia, with both values being higher than in the meta-analysis of Oakley et al. (Reference Oakley, Kisely, Baxter, Harris, Desoe, Dziouba and Siskind2018), which found an SMR of 3.085 in schizophrenia spectrum disorders and 3.103 for studies that only included schizophrenia. The YLL found in our study was more than 5 years higher in comparison with a meta-analysis by Hjorthøj et al. (Reference Hjorthøj, Stürup, McGrath and Nordentoft2017) in which the YLL was 14.5. However, despite the YLL and SMR indicating higher relative mortality in our cohort, life expectancy was higher in comparison with the value of 64.7 years reported by Hjorthøj et al. (Reference Hjorthøj, Stürup, McGrath and Nordentoft2017). This apparently contradictory result could be explained by Spain having one of the most long-lived populations in the world and corroborates the mortality gap in schizophrenia in southern Spain, confirming that this population does not benefit completely from the health improvements that have occurred in our context in recent decades. Nevertheless, these results need to be replicated in extended studies. Regarding results in nearby countries, a study in France found an SMR that was very similar to that of our study (Tran et al., Reference Tran, Rouillon, Loze, Casadebaig, Philippe, Vitry and Limosin2009), but another study in northern Italy found a lower SMR (2.17) in a population with schizophrenia (Grigoletti et al., Reference Grigoletti, Perini, Rossi, Biggeri, Barbui, Tansella and Amaddeo2009). The difference in SMR in the present study in comparison with the Italian study is relevant and might be explained by the limited sample size of the Italian study (4613 person-years) and the differences in socioeconomic variables between regions. It is also important to highlight that the mortality gap is higher in the younger population. Thus, one of the most concerning outcomes is that the SMR is more than nine times higher than in the general population at younger ages of 15–29 years and seven times higher at ages of 30–44 years. This could be explained by the high mortality due to suicide in the young population with schizophrenia spectrum disorders among other factors. In fact, another important result in our study is that the SMR of suicide (22.18) was higher in comparison with other studies; for example, a meta-analysis of ten studies found an SMR of 12.86 (Saha et al., Reference Saha, Chant and McGrath2007) and highlighted the need to improve treatments to prevent suicides in our environment. This elevated SMR may be influenced by the lower rates of suicide and suicidal behaviour in southern European regions, including Spain, compared with other countries in northern Europe (Castillejos et al., Reference Castillejos, Huertas, Martín and Moreno Küstner2020). Further studies in our area are needed to explore this issue in more depth. Our study also shows that the mortality gap is higher in men than in women, as found by other studies (Laursen, Reference Laursen2011; Crump et al., Reference Crump, Winkleby, Sundquist and Sundquist2013; Nielsen et al., Reference Nielsen, Uggerby, Jensen and McGrath2013; Lesage et al., Reference Lesage, Rochette, Émond, Pelletier, St-Laurent, Diallo and Kisely2015).

Regarding natural causes of death, in accordance with our results, other studies have found that cardiovascular disease is the main cause of mortality (Ösby et al., Reference Ösby, Westman, Hällgren and Gissler2016; Westman et al., Reference Westman, Eriksson, Gissler, Hällgren, Prieto, Bobo, Frye, Erlinge, Alfredsson and Ösby2018), highlighting the necessity to reduce cardiovascular risk in this population. Studies carried out in Spain on the physical health of a population with severe mental disorders show a high prevalence of risk factors of mortality: metabolic syndrome, tobacco consumption and unhealthy lifestyle behaviours (Manzanares et al., Reference Manzanares, Monseny, Ortega, Montalvo, Franch, Gutiérrez-Zotes, Reynolds, Walker, Vilella and Labad2014; Fernández Guijarro et al., Reference Fernández Guijarro, Miguel García, Pomarol-Clotet, Egea López, Burjales Martí and Rigol Cuadra2020). In general, schizophrenia spectrum disorders have been associated with unhealthy lifestyles that have a negative impact on health and also reduce access to healthcare (Kurdyak et al., Reference Kurdyak, Vigod, Calzavara and Wodchis2012; Tsai et al., Reference Tsai, Chung, Lee, Chou, Su, Shen, Lin and Chou2014; Jayatilleke et al., Reference Jayatilleke, Hayes, Dutta, Shetty, Hotopf, Chang and Stewart2017; Gur et al., Reference Gur, Weizman, Stubbs, Matalon, Meyerovitch, Hermesh and Krivoy2018). Likewise, results from a Spanish consensus on the physical health of patients with schizophrenia concluded that an awareness of several aspects of the physical health of this population should be increased among primary healthcare providers and specialists (Sáiz Ruiz et al., Reference Sáiz Ruiz, Bobes García, Vallejo Ruiloba, Giner Ubago and Garcia-Portilla Gonzalez2008). Concerning non-natural causes of mortality, suicide was the most frequent (13.09%) and the first cause of mortality among patients <35 years old. Our results are in accordance with those of Alaräisänen et al. (Reference Alaräisänen, Miettunen, Räsänen, Fenton, Koivumaa-Honkanen and Isohanni2009), who analysed a cohort of patients with schizophrenia, following them from 16 to 39 years and found that half of the cause of death was suicide. Likewise, Palmer et al. (Reference Palmer, Pankratz and Bostwick2005) found that the suicide rate was higher in a first-episode cohort than in those followed-up later during their illness.

After controlling by confounders, several sociodemographic variables were associated with mortality: age, gender, type of area of residence and receiving welfare benefits (compared with employed status). Interestingly, our study found a relationship between mortality and participants who lived in disadvantaged socioeconomic areas. This finding is consistent with some studies suggesting that socioeconomic inequalities influence mortality and morbidity in schizophrenia spectrum disorders (Kisely et al., Reference Kisely, Smith, Lawrence, Cox, Campbell and Maaten2007; Burns et al., Reference Burns, Tomita and Kapadia2014). Unfavourable socioeconomic conditions are frequent in populations with serious mental illness and could affect the course of the mental disorder and influence the mortality gap (Muntaner et al., Reference Muntaner, Eaton, Miech and O'Campo2004). Also, medical advances and improvements in healthcare, which have turned illnesses that were fatal into chronic diseases, have had no relevant impact on specific subgroups, including persons with schizophrenia (Lee et al., Reference Lee, Liu, Tu, Palmer, Eyler and Jeste2018). Lee et al. (Reference Lee, Liu, Tu, Palmer, Eyler and Jeste2018) suggest a parallel between socially or economically disadvantaged segments of the general population and people with schizophrenia concerning mortality gap. It is important to highlight the potential role of the recession in the results of this study as the economic crisis resulted in increased unemployment, poverty and inequality in Spain from 2008. Another important consequence of the recession was the reduction in mental health services in the catchment area (Moreno-Küstner and Masedo Gutierrez, Reference Moreno-Küstner and Masedo Gutierrez2017). Future studies are necessary to analyse these issues in more depth.

Finally, we found that participants receiving welfare benefits had increased mortality compared with employed participants. It is possible that receiving welfare benefits is associated with more frequent physical illnesses and higher severity of the disorder. It would be relevant to study whether employment promotion might be beneficial in preventing early mortality in this population. In summary, in accordance with Galletly (Reference Galletly2017), socioeconomic factors cannot be ignored in the analysis of mortality outcomes.

Strengths and limitations

To the best of our knowledge, this is the first study in Spain to evaluate mortality in schizophrenia spectrum disorders from community care settings using linked data. The study considered all patients diagnosed with schizophrenia spectrum disorders engaged with mental health services in an epidemiologically characterised cohort. Furthermore, some vulnerable groups are represented in the cohort as there is a wide range of services in the catchment area, including services for homeless individuals with severe mental disorders. A major strength of this study is that mortality data have been accurately validated using a prospective design, with a follow-up period of more than 13 years. Thus, censored data were small and comparable to similar recent studies.

However, we must consider some limitations. First, the study is affected by any errors and omissions that may exist in the clinical routine databases and there are missing data for some of the analysed variables. Second, a source of bias could be the use of a prevalence rather than an incidence cohort, as most participants were middle-aged during the index period and had already survived the period of highest mortality. This is important because the follow-up was related to the earliest date of registry in the RESMA, but not necessarily the date of disease onset or earliest contact with a mental health service. Third, we have only measured potential risk factors for mortality at baseline, despite some variables being time-varying. Fourth, the diagnosis in the RESMA is not likely to be as accurate as the information obtained in a more structured research setting. However, studies have shown strong agreement between clinical diagnosis in registers and research settings (Jakobsen et al., Reference Jakobsen, Frederiksen, Hansen, Jansson, Parnas and Werge2005; Moreno-Küstner et al., Reference Moreno-Küstner, Mayoral, Navas-Campaña, García-Herrera, Angona, Martín and Rivas2016). The clinical diagnosis of a participant in the study was checked by senior psychiatrists in direct contact with participants. Fifth, the recruitment process missed individuals who avoided service contact during the index period, but, as published previously (Moreno-Küstner et al., Reference Moreno-Küstner, Mayoral, Navas-Campaña, García-Herrera, Angona, Martín and Rivas2016), very few patients with schizophrenia spectrum disorders are not in contact with public mental health services. Sixth, the YLL is not always calculated based on regional statistics and the different methodologies could make a comparison between studies problematic. Also, it is difficult to compare the SMR with other regions or countries with different age compositions and SMR of suicide is limited by the sample size of the cohort. Last, the generalisation of our analysis needs to be evaluated further, as the findings clearly refer to the population who had contacted mental health services within the specified period.

Conclusions and clinical implications

In summary, this study showed that individuals suffering from schizophrenia spectrum disorders had higher mortality than the general population. The study provides detailed information about mortality: the SMR was more than 3, the YLL was more than 20 and life expectancy at birth was 67.11 years. Finally, several characteristics, such as age, being male, living in socioeconomically deprived urban areas and receiving welfare benefits, were associated with mortality.

Our results imply that urgent studies are required in Spain and southern Europe to determine factors associated with premature mortality in schizophrenia spectrum disorders and how they might be reduced in our environment. Future studies should explore the relative contribution to the mortality of, for example, medication and substance use, among others. Our findings support the necessity to implement strategies to improve the healthcare of this population and increase efforts to prevent suicide. Actions directed to improving living conditions, socioeconomic integration and the quality of health services could be beneficial in reducing mortality.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S2045796020001146.

Data

The data are available under request to the authors.

Acknowledgements

We are grateful to all the public health agencies which collaborated with this study, especially, the Malaga Primary Care Sanitary District, the Regional Hospital of Málaga and the Civil Registry of Malaga.

Financial support

Fermin Mayoral Cleries and Jose Guzman-Parra have received funding from the Andalusia Government in the grants for human resources reinforcement in the research activity (Acción A de intesificación 2017 and Acción B de refuerzos de larga duración 2014). Berta Moreno Küstner has received funding from the Andalusian Government (P10-CTS-5862), and from the Ministry of Health (Ministry of Health, Social Services and Equality, Spain (Grant: PI16/00647) and co-founded by European Regional Development Fund (FEDER)

Conflict of interest

The authors declare no conflict of interest.

Ethical standards

This study was approved by the Provincial Ethics Committee of Research of Malaga and by the University of Malaga's Ethics Committee. The authors assert that all procedures contributing to this work comply with the ethical standards of the relevant national and institutional committees on human experimentation and with the Helsinki Declaration of 1975, as revised in 2000.

References

Alaräisänen, A, Miettunen, J, Räsänen, P, Fenton, W, Koivumaa-Honkanen, HTJ and Isohanni, M (2009) Suicide rate in schizophrenia in the Northern Finland 1966 Birth Cohort. Social Psychiatry and Psychiatric Epidemiology 44, 11071110.CrossRefGoogle ScholarPubMed
Bouza, C, Lápez-Cuadrado, T and Amate, JM (2010) Physical disease in schizophrenia: a population-based analysis in Spain. BMC Public Health 10, 745.CrossRefGoogle ScholarPubMed
Brown, S, Kim, M, Mitchell, C and Inskip, H (2010) Twenty-five year mortality of a community cohort with schizophrenia. British Journal of Psychiatry 196, 116121.CrossRefGoogle ScholarPubMed
Burns, JK, Tomita, A and Kapadia, AS (2014) Income inequality and schizophrenia: increased schizophrenia incidence in countries with high levels of income inequality. International Journal of Social Psychiatry 60, 185196.CrossRefGoogle ScholarPubMed
Bushe, CJ, Taylor, M and Haukka, J (2010) Mortality in schizophrenia: a measurable clinical endpoint. Journal of Psychopharmacology 24, 1725.CrossRefGoogle ScholarPubMed
Castillejos, MC, Huertas, P, Martín, P and Moreno Küstner, B (2020) Prevalence of suicidality in the European general population: a systematic review and meta-analysis. Archives of Suicide Research. Online ahead of print.CrossRefGoogle ScholarPubMed
Chiang, CL, World Health Organization (1979) Life Table and Mortality Analysis. Geneva: World Health Organization: Tokio.Google Scholar
Crump, C, Winkleby, MA, Sundquist, K and Sundquist, J (2013) Comorbidities and mortality in persons with schizophrenia: a Swedish national cohort study. American Journal of Psychiatry 170, 324333.CrossRefGoogle ScholarPubMed
Fernández Guijarro, S, Miguel García, C, Pomarol-Clotet, E, Egea López, EN, Burjales Martí, MD and Rigol Cuadra, MA (2020) Metabolic syndrome screening in people with severe mental illness: results from two Spanish community mental health centers. Journal of the American Psychiatric Nurses Association 26, 162171.CrossRefGoogle ScholarPubMed
Galletly, CA (2017) Premature death in schizophrenia: bridging the gap. The Lancet Psychiatry 4, 263265.CrossRefGoogle ScholarPubMed
Gondek, T, Królicka, A, Piotrowski, P and Kiejna, A (2015) The European studies on mortality in schizophrenia. Psychiatria Polska 49, 11391148.CrossRefGoogle Scholar
Grigoletti, L, Perini, G, Rossi, A, Biggeri, A, Barbui, C, Tansella, M and Amaddeo, F (2009) Mortality and cause of death among psychiatric patients: a 20-year case-register study in an area with a community-based system of care. Psychological Medicine 39, 18751884.CrossRefGoogle Scholar
Gur, S, Weizman, S, Stubbs, B, Matalon, A, Meyerovitch, J, Hermesh, H and Krivoy, A (2018) Mortality, morbidity and medical resources utilization of patients with schizophrenia: a case-control community-based study. Psychiatry Research 260, 177181.CrossRefGoogle ScholarPubMed
Hjorthøj, C, Stürup, AE, McGrath, JJ and Nordentoft, M (2017) Years of potential life lost and life expectancy in schizophrenia: a systematic review and meta-analysis. The Lancet Psychiatry 4, 295301.CrossRefGoogle ScholarPubMed
Jakobsen, KD, Frederiksen, JN, Hansen, T, Jansson, LB, Parnas, J and Werge, T (2005) Reliability of clinical ICD-10 schizophrenia diagnoses. Nordic Journal of Psychiatry 59, 209212.CrossRefGoogle ScholarPubMed
Jayatilleke, N, Hayes, RD, Dutta, R, Shetty, H, Hotopf, M, Chang, CK and Stewart, R (2017) Contributions of specific causes of death to lost life expectancy in severe mental illness. European Psychiatry 43, 109115.CrossRefGoogle ScholarPubMed
Kisely, S, Smith, M, Lawrence, D, Cox, M, Campbell, LA and Maaten, S (2007) Inequitable access for mentally ill patients to some medically necessary procedures. CMAJ 176, 779784.CrossRefGoogle ScholarPubMed
Kurdyak, P, Vigod, S, Calzavara, A and Wodchis, WP (2012) High mortality and low access to care following incident acute myocardial infarction in individuals with schizophrenia. Schizophrenia Research 142, 5257.CrossRefGoogle ScholarPubMed
Laursen, TM (2011) Life expectancy among persons with schizophrenia or bipolar affective disorder. Schizophrenia Research 131, 101104.CrossRefGoogle ScholarPubMed
Laursen, TM, Nordentoft, M and Mortensen, PB (2014) Excess early mortality in schizophrenia. Annual Review of Clinical Psychology 10, 425448.CrossRefGoogle Scholar
Lee, EE, Liu, J, Tu, X, Palmer, BW, Eyler, LT and Jeste, DV (2018) A widening longevity gap between people with schizophrenia and general population: a literature review and call for action. Schizophrenia Research 196, 913.CrossRefGoogle ScholarPubMed
Lesage, A, Rochette, L, Émond, V, Pelletier, É, St-Laurent, D, Diallo, FB and Kisely, S (2015) A surveillance system to monitor excess mortality of people with mental illness in Canada. Canadian Journal of Psychiatry 60, 571579.CrossRefGoogle ScholarPubMed
Liu, NH, Daumit, GL, Dua, T, Aquila, R, Charlson, F, Cuijpers, P, Druss, B, Dudek, K, Freeman, M, Fujii, C, Gaebel, W, Hegerl, U, Levav, I, Munk Laursen, T, Ma, H, Maj, M, Elena Medina-Mora, M, Nordentoft, M, Prabhakaran, D, Pratt, K, Prince, M, Rangaswamy, T, Shiers, D, Susser, E, Thornicroft, G, Wahlbeck, K, Fekadu Wassie, A, Whiteford, H and Saxena, S (2017) Excess mortality in persons with severe mental disorders: a multilevel intervention framework and priorities for clinical practice, policy and research agendas. World Psychiatry 16, 3040.CrossRefGoogle ScholarPubMed
Manzanares, N, Monseny, R, Ortega, L, Montalvo, I, Franch, J, Gutiérrez-Zotes, A, Reynolds, RM, Walker, BR, Vilella, E and Labad, J (2014) Unhealthy lifestyle in early psychoses: the role of life stress and the hypothalamic-pituitary-adrenal axis. Psychoneuroendocrinology 39, 110.CrossRefGoogle ScholarPubMed
Martinez, R, Soliz, P, Caixeta, R and Ordunez, P (2019) Reflection on modern methods: years of life lost due to premature mortality - A versatile and comprehensive measure for monitoring non-communicable disease mortality. International Journal of Epidemiology 48, 13671376.CrossRefGoogle ScholarPubMed
McGrath, J, Saha, S, Chant, D and Welham, J (2008) Schizophrenia: a concise overview of incidence, prevalence, and mortality. Epidemiologic Reviews 30, 6776.CrossRefGoogle Scholar
Mitchell, AJ, Vancampfort, D, Sweers, K, Van Winkel, R, Yu, W and De Hert, M (2013) Prevalence of metabolic syndrome and metabolic abnormalities in schizophrenia and related disorders-a systematic review and meta-analysis. Schizophrenia Bulletin 39, 306318.CrossRefGoogle ScholarPubMed
Moreno-Küstner, B and Masedo Gutierrez, AI (2017) Economic crisis and mental health – findings from Spain. Die Psychiatrie 14, 95102.Google Scholar
Moreno-Küstner, B, Mayoral, F, Pérez, O, García-Herrera, JM, Algarra, J, Rivas, F, Pérez, R, Becerra, F and Gornemann, I (2009) The Malaga schizophrenia case-register (RESMA): overview of methodology and patient cohort. The International Journal of Social Psychiatry 55, 515.CrossRefGoogle ScholarPubMed
Moreno-Küstner, B, Mayoral, F, Navas-Campaña, D, García-Herrera, JM, Angona, P, Martín, C and Rivas, F (2016) Prevalence of schizophrenia and related disorders in Malaga (Spain): results using multiple clinical databases. Epidemiology and Psychiatric Sciences 25, 3848.CrossRefGoogle ScholarPubMed
Morgan, VA, McGrath, JJ, Jablensky, A, Badcock, JC, Waterreus, A, Bush, R, Carr, V, Castle, D, Cohen, M, Galletly, C, Harvey, C, Hocking, B, McGorry, P, Neil, AL, Saw, S, Shah, S, Stain, HJ and MacKinnon, A (2014) Psychosis prevalence and physical, metabolic and cognitive co-morbidity: data from the second Australian national survey of psychosis. Psychological Medicine 44, 21632176.CrossRefGoogle Scholar
Muntaner, C, Eaton, WW, Miech, R and O'Campo, P (2004) Socioeconomic position and major mental disorders. Epidemiologic Reviews 26, 5362.CrossRefGoogle ScholarPubMed
National Institute of Statistic (2009) Tablas de mortalidad por año, provincia, sexo, edad y funciones. [Mortality tables by year, province, gender, age and functions].Google Scholar
Nielsen, RE, Uggerby, AS, Jensen, SOW and McGrath, JJ (2013) Increasing mortality gap for patients diagnosed with schizophrenia over the last three decades - A Danish nationwide study from 1980 to 2010. Schizophrenia Research 146, 2227.CrossRefGoogle ScholarPubMed
Oakley, P, Kisely, S, Baxter, A, Harris, M, Desoe, J, Dziouba, A and Siskind, D (2018) Increased mortality among people with schizophrenia and other non-affective psychotic disorders in the community: a systematic review and meta-analysis. Journal of Psychiatric Research 102, 245253.CrossRefGoogle ScholarPubMed
Ösby, U, Westman, J, Hällgren, J and Gissler, M (2016) Mortality trends in cardiovascular causes in schizophrenia, bipolar and unipolar mood disorder in Sweden 1987–2010. European Journal of Public Health 26, 867871.CrossRefGoogle ScholarPubMed
Palmer, BA, Pankratz, VS and Bostwick, JM (2005) The lifetime risk of suicide in schizophrenia: a reexamination. Archives of General Psychiatry 62, 247253.CrossRefGoogle ScholarPubMed
Piotrowski, P, Gondek, TM, Królicka-Dere¸gowska, A, Misiak, B, Adamowski, T and Kiejna, A (2017) Causes of mortality in schizophrenia: an updated review of European studies. Psychiatria Danubina 29, 108120.CrossRefGoogle ScholarPubMed
Rantanen, H, Koivisto, AM, Salokangas, RKR, Helminen, M, Oja, H, Pirkola, S, Wahlbeck, K and Joukamaa, M (2009) Five-year mortality of Finnish schizophrenia patients in the era of deinstitutionalization. Social Psychiatry and Psychiatric Epidemiology 44, 135142.CrossRefGoogle ScholarPubMed
Ringen, PA, Engh, JA, Birkenaes, AB, Dieset, I and Andreassen, OA (2014) Increased mortality in schizophrenia due to cardiovascular disease - a non-systematic review of epidemiology, possible causes and interventions. Frontiers in Psychiatry 5, 137.CrossRefGoogle ScholarPubMed
Saha, S, Chant, D and McGrath, J (2007) A systematic review of mortality in schizophrenia: is the differential mortality gap worsening over time? Archives of General Psychiatry 64, 11231131.CrossRefGoogle ScholarPubMed
Sáiz Ruiz, J, Bobes García, J, Vallejo Ruiloba, J, Giner Ubago, J and Garcia-Portilla Gonzalez, MP (2008) Consensus on physical health of patients with schizophrenia from the Spanish Societies of Psychiatry and Biological Psychiatry. Actas Espanolas de Psiquiatria 36, 251264.Google ScholarPubMed
Shrier, I and Platt, RW (2008) Reducing bias through directed acyclic graphs. BMC Medical Research Methodology 8, 70.CrossRefGoogle ScholarPubMed
Tran, E, Rouillon, F, Loze, JY, Casadebaig, F, Philippe, A, Vitry, F and Limosin, F (2009) Cancer mortality in patients with schizophrenia: an 11-year prospective cohort study. Cancer 115, 35553562.CrossRefGoogle Scholar
Tsai, KY, Chung, TC, Lee, CC, Chou, YM, Su, CY, Shen, SP, Lin, CH and Chou, FHC (2014) Is low individual socioeconomic status (SES) in high-SES areas the same as low individual SES in low-SES areas: a 10-year follow-up schizophrenia study. Social Psychiatry and Psychiatric Epidemiology 49, 8996.CrossRefGoogle ScholarPubMed
Walker, ER, McGee, RE and Druss, BG (2015) Mortality in mental disorders and global disease burden implications a systematic review and meta-analysis. JAMA Psychiatry 72, 334341.CrossRefGoogle ScholarPubMed
Westman, J, Eriksson, SV, Gissler, M, Hällgren, J, Prieto, ML, Bobo, WV, Frye, MA, Erlinge, D, Alfredsson, L and Ösby, U (2018) Increased cardiovascular mortality in people with schizophrenia: a 24-year national register study. Epidemiology and Psychiatric Sciences 27, 519527.CrossRefGoogle ScholarPubMed
World Health Organization (2016) International Statistical Classification of Diseases and Related Health Problems, 10th Revision (ICD-10). Geneva: World Health Organization.Google Scholar
Figure 0

Table 1. Study sample description of patients with schizophrenia spectrum disorders by demographic characteristics and diagnosis at baseline

Figure 1

Table 2. Causes of mortality by the International Classification of Diseases 10th version

Figure 2

Table 3. Standardised mortality ratios of patients with schizophrenia spectrum disorders by gender, age intervals and diagnosis

Figure 3

Table 4. Life expectancy in the province of Malaga population and in the cohort by gender and diagnosis

Figure 4

Table 5. Survival analysis of all mortality causes by Cox regression

Supplementary material: File

Moreno-Küstner et al. supplementary material

Table S1 and Figure S1

Download Moreno-Küstner et al. supplementary material(File)
File 31.1 KB