Delirium is a common neuropsychiatric syndrome with serious consequences for hospitalised patients, especially older patients with pre-existing cognitive impairment.1,2 It has been conceptualised as an attention deficit problem that develops in hours to days and is the direct consequence of a general medical condition or intake of drugs and toxins.3,4 The prevalence of delirium varies in different clinical scenarios: in the emergency department, 10%; in hospital admission wards, 10–30%; in surgical wards, 15–53%; in non-ventilated patients in intensive care, 30–50%, and in patients with mechanical ventilation, 80%.5,6 Delirium can be preceded by a 2–3-day prodromal phase of poor concentration, anxiety, irritability and sleep disturbance.7

The sequelae of delirium can include prolonged hospitalisation, increased morbidity and mortality rates and a greater likelihood of needing residential care.8,9 A meta-analysis that included 2000 patients aged over 65 years found that the risk of death increased from 27.5% to 38% in patients with delirium, the risk of admission to a geriatric institution increased from 10.7% to 33.4% and the risk of dementia soared from 8.1% to 62.5%.10 The additional costs of treating a patient with delirium were estimated at 16,303 to 64,421 US dollars, which would be equivalent to 38 to 152 billion US dollars attributable to delirium for one year of treatment.11

Other negative outcomes associated with in-hospital delirium are: falls, pressure ulcers, urinary incontinence and removal of catheters and tubes12,13; prolonged hospital stay14,15; reduced mobilisation and worse performance in activities of daily living (ADL)16–18; and use of mechanical restraints.19

The aim of this research was to compare the incidence of hospital mortality in surgical and non-surgical patients diagnosed with delirium and associated sociodemographic and clinical factors.

This was a descriptive study of a single retrospective cohort, taking as a unit of analysis the medical records of hospitalised patients who were diagnosed with delirium by a psychiatrist through an unstructured interview according to DSM-5 criteria, from August 2013 to December 2014, in a public hospital dealing with patients of high medical complexity in the city of Medellín, Colombia.

The inclusion criterion was the diagnosis of delirium by a psychiatrist during the study period. No exclusion criteria were applied. The endpoint was defined as hospital death or hospital discharge due to improvement. The variables considered were sociodemographic (age, gender and education) and clinical (principal diagnosis, comorbid diagnosis, admission to intensive care). The risk factors for delirium were: auditory and visual deficit, urinary catheter, surgical treatment, pharmacological and non-pharmacological treatment for delirium, use of benzodiazepines, use of anticholinergic drugs, polypharmacy (use of more than three drugs during hospitalisation); laboratory tests: haemoglobin, creatinine, blood glucose, fluid/electrolyte imbalance, vitamin B,12 folic acid; psychiatric history and cognitive impairment.

Patients were identified, and information compiled from the Hospital's Liaison Psychiatry Unit clinical database, a computerised database where the medical record numbers of patients diagnosed with delirium are recorded. These medical records were subsequently searched for in the electronic medical record of the hospital where the study was conducted, and the required information was extracted. Only one of the investigators carried out the search and recorded the information.

To keep information bias to a minimum, care was taken with the quality of the data collected. The information was analysed with the software SPSS 21.0®, licensed to Universidad CES.

To describe the sociodemographic characteristics of the study population, the median [interquartile range] was used because age did not have a normal distribution. For the qualitative variables, we used absolute values, ratios and proportions. For the bivariate analysis, significance tests such as the χ2 and the Fischer exact test, the Mann–Whitney U test and the McNemar test were used, and p values and 95% confidence intervals were reported (95% CI). The groups were compared by age, gender, education and type of treatment (surgical or non-surgical). The outcomes of improvement and death were compared in the groups studied. This project was approved by the Research Committee of the Universidad CES and the Hospital where the research was carried out.

This study assessed the risk factors and in-hospital mortality rate of surgical and non-surgical patients with delirium. The results indicate that, although the mortality rate was higher in the non-surgical group (17.7% vs 7.4%), this difference was not statistically significant. The group with greater mortality (non-surgical group) was significantly older and with a significantly higher degree of cognitive impairment, in line with the findings of other studies that show that advanced age and cognitive impairment are independent risk factors for higher delirium-associated mortality rates.20–22 In one study, Sampson et al.23 found that the risk of death increased significantly with the degree of cognitive impairment prior to hospital admission (hazard ratio [HR]=4.02; 95% confidence interval [95% CI], 2.24–7.36, p<0.001).

Advanced age is a factor constantly associated with delirium,2,20 but when attempting to clarify the relationship between delirium, dementia and higher mortality rates, some studies have found delirium alone to be an independent risk factor,24,25 while others report that, unlike cognitive impairment and the severity of the disease, delirium is not a factor associated with higher mortality rates.26–29

A systematic review conducted by Jackson et al.30 looking for prognostic factors in patients with in-hospital delirium found 18 predictors of poor prognosis. Of these predictors, the duration of the delirium, the hypoactive subtype and comorbidity with depression and dementia showed the strongest association. Our study found that the majority of patients received anticholinergic drugs, benzodiazepines and polypharmacy. Inouye et al. found double the risk of delirium in patients with polypharmacy (odds ratio [OR]=2.9; 95% CI, 1.6–5.4).31 Pisani et al. reported that the use of benzodiazepines was an independent risk factor for delirium for patients in intensive care.32

With regard to sensory deprivation, visual and auditory deficits have been associated with a higher prevalence of delirium.33 Our study found no statistical differences in the prevalences of these deficits. Medical comorbidities that indicate disease severity have been associated with delirium.34,35 Our study found significant differences in the prevalences of cardiovascular and endocrine disease in non-surgical patients and infectious disease in surgical patients.

In their meta-analysis, Ahmet et al. identified 29 delirium risk factors such as low haematocrit and abnormal urea, leucocytes and albumin.36 Our study found high prevalences of laboratory-test abnormalities, without significant differences between the study groups.

A study by McCusker et al.37 found that in-hospital incident delirium was associated with an increase in hospital stay of approximately eight days. Our results show that the patients in the surgical group had a significantly longer hospital stay than the non-surgical group and longer than the average (12 days) for the hospital where the study population was obtained.

This study had the following limitations: (a) because it is a retrospective study, complete information was not available for all study variables; (b) delirium and dementia were not diagnosed with validated instruments, although psychiatrists highly trained in delirium performed all the diagnoses; (c) due to the methodology used, caution is advised when interpreting the results and considering possible causality; (d) the reported mortality rate was derived from incident and prevalent cases of delirium; (e) although most of the patients in the two groups experienced clinical improvement, no neuropsychological scale was applied which might have detected the subtle neurocognitive alterations that frequently persist after discharge; and (f) there was no delirium-free control group, so we cannot guarantee that the differences found are fully attributable to the delirium. Despite these limitations, our study provides valuable information on the comparison of surgical and non-surgical patients with delirium.

Lastly, advanced age and cognitive impairment were determining factors of the higher mortality rate in the non-surgical patient group in this study. The appropriate recognition and treatment of a number of potentially modifiable risk factors (including polypharmacy, use of benzodiazepines, fluid/electrolyte imbalance and anaemia) would help reduce the onset and duration of delirium and perhaps improve the prognosis and survival of these patients.

The authors have no conflicts of interest to declare.