Clinical Research Directory

Predicting Mortality in Patients With Return of Spontaneous Circulation After Cardiac Arrest

This retrospective observational cohort study aims to identify early predictors of short- and mid-term mortality in adult patients who achieved return of spontaneous circulation (ROSC) after cardiac arrest. Eligible patients admitted to the intensive care unit between January 1, 2024 and May 31, 2025 were identified retrospectively from electronic medical records following institutional ethics approval. Clinical, biochemical, and resuscitation-related parameters recorded within the first 24 hours of ICU admission were analyzed. The primary objective was to determine factors independently associated with short-term mortality. Six-month mortality was additionally assessed using hospital records and the national death registry. The findings are expected to improve risk stratification and clinical decision-making in post-cardiac arrest care.

The Role of Stress in Cardiac Arrest (Cortizol CPR)

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.

Multiomics Profiling of CSF in Cardiac Arrest Survivors

The goal of this observational study is to identify further pathophysiologic mechanism of secondary brain injury following cardiac arrest by using serial multiomics profiling of serum and cerebrospinal fluid (CSF) samples. The main question it aims to answer is: A. The main question it aims to answer is: What are the dynamic molecular changes in serum and CSF that reflect the pathophysiological mechanisms of secondary brain injury after cardiac arrest? B. What are the differences in serum and CSF multiomic signatures between varying severities of cardiac arrest, and how are these differences associated with the underlying pathophysiological mechanisms of secondary brain injury? Serum and CSF samples that have already been prospectively collected from participants and stored in the BioBank will be used for this analysis.