The Role of Stress in Cardiac Arrest (Cortizol CPR)

Overview

The aim of this study is to assess long-term stress in patients after an out-of-hospital cardiac arrest. To do this, we will measure levels of the stress hormone cortisol in hair samples. Cortisol is produced in larger amounts during periods of ongoing stress and builds up in the hair as it grows. Because hair grows about 1 cm per month, a 3 cm hair sample can show your average stress level over the past three months. The results will be compared with anonymized information from your medical records and the care you received before and during your hospital stay.

Despite significant advances in resuscitation medicine, out-of-hospital cardiac arrest (OHCA) continues to carry a poor prognosis, with survival accompanied by good neurological outcomes in only about 30% of cases. In Europe, OHCA affects approximately 67-170 individuals per 100,000 annually; in the Czech Republic, the incidence is around 90 per 100,000. Most cardiac arrests (60-70%) are of cardiovascular origin, where long-term stress is a known contributing risk factor. Chronic stress not only influences the development of cardiovascular disease but also affects its clinical manifestation by modulating the autonomic nervous system-an essential regulator of heart rhythm and arrhythmogenic risk. Therefore, it is plausible that prolonged stress also contributes to the onset and course of cardiac arrest. While the relationship between chronic stress and cardiovascular disease has been well documented, data specifically linking stress to out-of-hospital cardiac arrest are still lacking. The pathophysiological factors influencing the onset and refractoriness of OHCA also remain unclear. This study aims to evaluate chronic stress levels in patients after OHCA by measuring cortisol concentrations in hair samples. Since cortisol accumulates in hair during its growth, a 3 cm segment reflects stress exposure over the previous three months. These findings will be correlated with patients' demographic and clinical profiles, including post-resuscitation condition severity, neurological outcomes, and potential arrest refractoriness.