Research on schizophrenia and life expectancy has mainly focused on premature mortality.

This study investigates factors associated with longevity in patients with schizophrenia receiving long-term care and identifies shared traits among these individuals.

A retrospective cross-sectional study analysing the clinical records of 138 patients with schizophrenia who died between 2015 and 2017 in a psychiatric long-term care facility was conducted. Longevity was defined by life tables drawn from the national health database. Variables were compared between longevity and control groups to determine predictors of longer lifespans. Cluster analysis was employed to identify shared traits among individuals with longevity. Causes of death by age were compared.

In the long-term care setting, of the 138 participants, 45 were in the longevity group. This group had more males, lower antipsychotic doses, but more mobility issues. Significant predictors of longevity included older age at onset, longer length of stay, lower activities of daily living scores and a hypertension diagnosis. Cluster analysis revealed two patterns, suggesting that poorer health indicators did not necessarily lead to shorter lives. Fatalities caused by pneumonia were associated with a higher age, compared to those from cancer and choking.

Addressing modifiable risk factors enhances life expectancy in patients with schizophrenia, especially for males, while the age at onset may play a significant role. An integrated long-term care model with close monitoring and timely provision of mental and general healthcare may help extend lifespans. Further research is needed to balance long-term residential care and community-based care for elderly patients with schizophrenia.

It remains unknown whether severe mental disorders contribute to fatally harmful effects of physical illness.

To investigate the risk of all-cause death and loss of life-years following the onset of a wide range of physical health conditions in people with severe mental disorders compared with matched counterparts who had only these physical health conditions, and to assess whether these associations can be fully explained by this patient group having more clinically recorded physical illness.

Using Czech national in-patient register data, we identified individuals with 28 physical health conditions recorded between 1999 and 2017, separately for each condition. In these people, we identified individuals who had severe mental disorders recorded before the physical health condition and exactly matched them with up to five counterparts who had no recorded prior severe mental disorders. We estimated the risk of all-cause death and lost life-years following each of the physical health conditions in people with pre-existing severe mental disorders compared with matched counterparts without severe mental disorders.

People with severe mental disorders had an elevated risk of all-cause death following the onset of 7 out of 9 broadly defined and 14 out of 19 specific physical health conditions. People with severe mental disorders lost additional life-years following the onset of 8 out 9 broadly defined and 13 out of 19 specific physical health conditions. The vast majority of results remained robust after considering the potentially confounding role of somatic multimorbidity and other clinical and sociodemographic factors.

A wide range of physical illnesses are more likely to result in all-cause death in people with pre-existing severe mental disorders. This premature mortality cannot be fully explained by having more clinically recorded physical illness, suggesting that physical disorders are more likely to be fatally harmful in this patient group.

Although the PROWESS trial demonstrated a mortality benefit, subsequent studies in different patient populations have not reproduced the effect. As a result, concerns have been expressed about the clinical effectiveness of drotrecogin alfa (activated). Therefore the aim of this audit was to review the clinical impact of drotrecogin alfa (activated) when used outside clinical trials.

A retrospective review of ICU charts and medical records of patients who had received drotrecogin alfa (activated) in the five largest users of drotrecogin alfa (activated) in England. Patients characteristics details at ICU admission and vital status at hospital discharge were recorded. The severity of illness was assessed by the APACHE II score (using first 24 h admission data) and the number of organ dysfunctions. Adverse incidents were recorded and any sequence effect explored.

In all, 351 patients received drotrecogin alfa (activated) between December 2002 and November 2005. Of those, 201 (57.2%) were male, and 177 (50.4%) were admitted after recent surgery. The patients’ average age was 61.8 yr. The mean admission APACHE II score was 23.3 and the average number of dysfunctional organs on admission was 3.3. The hospital mortality was 46.7% (164 deaths). The expected number of deaths calculated by using the APACHE II risk of death was 173 (49.3%) and by number of sepsis induced organ failures 210 (59.7%). Overall, there were 33 (9.4%) adverse incidents.

Expected mortality derived from both the APACHE II score and organ dysfunctions suggests that drotrecogin alfa (activated) does reduce mortality. Serious adverse incidents occurred in 5.1% patients; however, the direct contributing effect of drotrecogin alfa (activated) cannot be established from this type of audit.