Stroke is a leading cause of disability and death worldwide 1. Compared to data for the United States (US), where epidemiological statistics show that 610,000 new cases occur each year, epidemiological data are relatively scarce in Brazil. Still, the available information shows that stroke is the major cause of death in Brazil, accounting for approximately 100,000 deaths annually 2,3.

However, over the last few decades, there has been a global trend of decreased mortality from stroke. This decrease is probably due to the improvement in stroke treatment and to preventive measures, such as the treatment of hypertension. In Brazil, decreases in the death rates from stroke are also evident, but these decreases are restricted to the south and southeastern regions 2,3. Currently, an estimated 5 million stroke survivors live in the US. In Brazil, which has the highest stroke death rates in Latin America, the number of stroke survivors is estimated to be at least half that in the US. As acute stroke management continues to improve, the number of survivors with varying degrees of disability will increase even further. Since stroke often results in major changes in the life of the patient, factors associated with morbidity have received increasing attention 2,3.

A multiplicity of behavioral and affective changes can be associated with vascular lesions of the central nervous system, with the possibility of acute damage to circuits associated with the processing of emotions and cognition. Stroke is often associated with psychiatric symptoms, such as anxiety, depressed mood and apathy 4. Behavioral complications of stroke, although recognized for over a century, have never received the attention devoted to other stroke consequences, such as motor impairment, language disorders, and cognitive deficits. However, beyond the impacts that psychiatric complications have on neurological recovery, psychiatric complications have a significant influence on the professional lives and interpersonal relationships of the patients, on their families and on their caregivers, by modifying patient autonomy, self-esteem and quality of life (QOL) in general 5,6.

Despite such importance, data in the Brazilian literature on the profile of neuropsychiatric disorders in patients after acute stroke are limited. Therefore, the aim of this study was to evaluate the occurrence of psychiatric disorders in Brazilian patients affected by acute ischemic stroke.

This was a cross-sectional study. Patients with a diagnosis of acute ischemic stroke admitted to the Stroke Unit of the Hospital Municipal Odilon Behrens, Belo Horizonte, Brazil, underwent neuropsychiatric evaluations. We included consecutively encountered patients of both genders who were older than 45 years of age (to exclude stroke in young adults, in whom stroke could be associated with diverse etiologies, such as autoimmune diseases) and who provided written informed consent. Individuals with hemorrhagic stroke, autoimmune diseases, active infectious diseases, recent acute myocardial infarction, decreased level of consciousness (Glasgow Coma Scale <15), clinical history of dementia, or severe aphasia or who underwent recent neurosurgery were excluded. Data were collected from November 2013 to November 2015.

In a semi-standardized interview, we collected data on the participant's sociodemographic characteristics, previous history of cerebrovascular disease, clinical comorbidities, use of thrombolytic therapy, use of medication, neuroimaging results, electrocardiogram and physical examination (height, weight, blood pressure, waist circumference and neurological examination). These variables were used to calculate the Framingham Risk Score for cardiovascular disease 7. Stroke was classified in accordance with the Bamford 8 and TOAST 9 classifications. Stroke severity was quantified by using the National Institutes of Health Stroke Scale 10 (NIHSS), and disability was assessed with the Modified Rankin Scale 11 (mRS) and Functional Independence Measure 12 (FIM). Subsequently, patients were interviewed by a trained psychiatrist, using the Mini International Neuropsychiatric Interview-Plus (MINI-Plus) - Brazilian version 5.0.0 13. The MINI-Plus allows the evaluation of current diagnoses and a previous history of mental disorders. In this study, diagnoses were considered “current” if initiated after the ischemic event, as “past” if there was a history of symptoms before but not after the stroke, and as “past/current” if there was history of symptoms before and after the stroke. Two weeks after the evaluation, patients were contacted by phone to ensure the stability of the diagnosis during that period through a structured interview based on the MINI-Plus.

To our knowledge, this is the first study to perform a systematic and comprehensive assessment of the psychiatric profile of Brazilian patients with acute ischemic stroke. A detailed description of the clinical and demographic characteristics of the sample was performed, followed by a structured psychiatric evaluation using a standardized tool for diagnosis. Sixty patients were evaluated.

The analysis of the sociodemographic characteristics of the sample allows us to trace the profile of the patients assisted by a public hospital, which is considered the local reference center for the care of stroke. Thus, we observed that the sample comprised older patients who were predominantly unemployed, had a low income and low education level, and were socially vulnerable.

Patients had a high rate of clinical comorbidities, especially hypertension, obesity, dyslipidemia, diabetes and smoking. A similar medical comorbidity profile was found in a previous study, performed at the same hospital, that investigated the role of Chagas disease as an independent risk factor for the occurrence of stroke 14. The observations of mean BMI values above 25 kg/m2 and high mean blood pressure values, despite the use of medication, draws attention to the unsatisfactory clinical management of patients prior to admission. The Framingham score for the sample was calculated from the recorded clinical variables. This score was developed based on information collected in epidemiological population studies performed over 36 years and estimates the probability of stroke from clinical information 7. The mean score observed was 21.27. This value indicates that the probability of stroke in 10 years is over 30% for men and 14% for women, and this value confirms the high-risk profile for the development of stroke in this sample.

Interviews occurred, on average, 5.4 days after the ischemic event, in accordance with the purpose of evaluating patients during the acute period after stroke. Most of the observed individuals presented with lacunar stroke, with a predominance of lesions in the middle cerebral arterial topography of the right hemisphere. The NIHSS, mRS and FIM scales were used to measure the initial severity of the ischemic event and its resulting disability. The mean results were below 5 for the NIHSS and below 3 for the mRS, indicating a mild impact of stroke in the sample. This fact is reflected in the measurement of patient dysfunction obtained by the FIM, a scale that ranges from 18 (worst outcome) to 126 (best outcome) points. The average value, 113.67, found in the sample was compatible with a mild functional deficit. Most likely, the timing of the evaluation and the inclusion/exclusion criteria of the study biased the sample to include mostly minor strokes. This may influence the generalizability of the results.

Despite the mild functional impact, the assessment through a structured psychiatric interview revealed the presence of mental disorders, especially depressive and anxiety disorders, in approximately 55% of cases. In accordance with other studies, depression was the most frequent psychiatric disorder 15,16. Chemerinski and Robinson have observed that the frequency of depression among inpatients during the acute phase of stroke is approximately 22% for major depression and 17% for minor depression 4. In outpatient samples (ranging from 3 months to 10 years post stroke), the frequency is approximately 23% for major depression and 35% for minor depression, while community samples exhibit mean prevalence rates of 13% and 10%, respectively. A meta-analysis showed that the prevalence of depression at any time after stroke was 29%. We found a similar number, namely, a frequency of 26.7% of depression in our sample. In this sense, a systematic review of Brazilian studies that evaluated the prevalence of depression after stroke in different contexts found prevalence rates that varied from 20 to 59% 17.

Anxiety disorders are also common after stroke. Between 25% and 50% of patients develop GAD during the first months after stroke, with a small reduction in incidence within the following three years 18. Burton et al. reported that anxiety disorders affected 20% to 25% of patients at any time after stroke 19. However, most of the studies of patients affected by stroke have not effectively explored the presence of anxiety disorders. Thus, there are scarce data on specific categories, such as panic attacks, agoraphobia or phobias. According to Burton et al., phobic disorders and GAD are the most common types of anxiety disorders after a stroke 19. In line with this observation, we found that the frequency of anxiety disorders, especially phobias and GAD, was 23.3%.

Considering that mental disorders negatively influence the recovery of patients after stroke and that factors associated with social vulnerability are risk factors that complicate treatment, the high frequency of depression and anxiety disorders calls attention to the possible consequences that may result if patients are not properly identified and treated, even when the functional impact of stroke in patients is mild 20,21. The relationship between depression after stroke and functional impairment is intricate. Depressed patients have a significantly greater disability in the activities of daily living (ADLs) than euthymic individuals with equivalent neurological deficits 4. Depression negatively influences patient involvement in rehabilitation programs and is associated with increased institutional care and use of health services. These findings suggest a phenomenon of mutuality in which depression influences the recovery of ADLs, while ADLs impairment affects the severity and duration of depression. Increased mortality may be the most important aspect of depression in the prognosis of stroke. In this sense, depression may be a risk factor for increased death as early as 1 year and as late as 7 years after stroke 22.

As with depression, anxiety disorders may be linked to psychological factors after stroke. In addition to fears of the occurrence of new stroke events, concerns about the possibility of failing to control motor, cognitive and emotional reactions in different environments are common in stroke patients. This may be reflected in a decreased perception of QOL. Indeed, patients with severe stroke and high levels of anxiety present with worse QOL 23.

The decreased QOL and negative functional impact caused by mental disorders can further complicate the management of clinical comorbidities and adherence to treatment, contributing to an increase in the overall risk of complications. Thus, psychiatric comorbidity should be evaluated as part of the rehabilitation of stroke patients and should be carefully examined by physicians.

Finally, the study design, its inclusion and exclusion criteria, the evaluation time (approximately 5 days on average) and the relatively small sample size impose limitations on the generalizability of the data. The manifestations of mental disorders after a stroke can occur in dynamic ways that vary over time, and the telephone evaluation after two weeks was made in order to minimize the problems associated with early evaluation. However, the data obtained allow us to generate an overview of the importance of psychiatric evaluations in this population and provide valuable information for future studies on the subject.

All six authors contributed sufficiently to this work to take public responsibility for appropriate portions of the content. Pedroso VS, Brunoni AR and Vieira EL contributed to writing the text and to the analysis of the data. Jorge RE and Lauterbach EC contributed to the revision of the text, revision of the English language and analysis of the data. Teixeira AL contributed to the overall review of the work.