Active clinical trials for "Out-of-Hospital Cardiac Arrest"

Management of the reversible causes in cardiac arrest is fundamental for successful treatment of out-of-hospital cardiac arrests. Point-of-care diagnostics as prehospital emergency ultrasound, blood gas analysis and toxicological screening support the diagnostic process of evaluating potential reversible causes. Digital tools provide support of a structured approach. This study aims to evaluate the frequency of reversible causes during OHCA as well as specific interventions due to these findings. Furthermore, CPR performance (hands-off, ROSC, 30-day mortality) and cognitive load of the prehospital emergency physician will be investigated. In total 100 patients with OHCA will be included in this study. Identification of reversible causes will be performed upon a structured protocol using an interactive checklist. Cognitive load of emergency physician as well as CPR parameter (frequency of reversible causes, hands-off, ROSC, 30-day mortality) will be analysed.

Demonstrate appropriate CPR sensor placement on pediatric and adult patients and demonstrate delivery of appropriate energy level of shocks to pediatric and adult patients.

This randomized controlled trial will evaluate whether use of the PulsePoint system increases bystander CPR or defibrillator use compared to standard dispatch procedures in patients who suffer non-traumatic, out-of-hospital cardiac arrest in a public location. Half of all suspected cardiac arrest 9-1-1 calls in a public location will receive PulsePoint alerts (treatment arm). The other half of this eligible patient cohort will receive standard dispatch procedures (control arm).

Comatose patients that are admitted to an intensive care unit after out-of-hospital cardiac arrest (OCHA) have a high mortality, particularly due to hypoxic-ischemic neurologic injury. These patients often require vasopressors to maintain mean arterial pressure (MAP), but it is unclear what level of MAP should be aimed for. The objective of the study is to evaluate whether cerebral blood flow (CBF) and cerebral metabolism can be increased by maintaining MAP at a higher level than that used in clinical practice. The study will include twenty comatose patients within two days following resuscitation after OCHA. In the study, MAP is adjusted by infusion of noradrenaline, to a low, moderate, and high level for a short time. The low level of MAP used in the study, corresponds to the level aimed for in clinical practice. The CBF will be evaluated on the neck using ultrasound.

The goal of this prospective trial is to compare CPR skill and attitudes in adolescent students. The main question[s] it aims to answer are: Does a gamified CPR experience improve CPR skill retention compared to standard classroom CPR training? Does a gamified CPR experience improve attitudes/knowledge relating to barriers for women and minorities receiving CPR? Participants will Answer pre-training questionnaires Participate in CPR training Participate in CPR skills testing on the day of training, and at 4-6 months Answer post-training questionnaires Researchers will compare standard CPR classroom training to the novel gamified CPR training experience, which includes an interactive film, a CPR Trainer spring, and a mobile device app.

This is a before-and-after study examining the impact of real-time ventilation monitoring during out-of-hospital cardiac arrest. Study investigators will compare ventilation quality (rate, volume) performed during the resuscitation without the real-time feedback (before phase), to ventilation quality with the use of real-time feedback using the Zoll Accuvent device (after phase).

The aim of ARREST is to determine the best post-resuscitation care pathway for out of hospital cardiac arrest patients without ST-segment elevation. The investigators propose that changes to emergency management comprising expedited delivery to a specialist heart attack centre with organised post-cardiac arrest care including immediate access to reperfusion therapy will reduce mortality in patients without STE compared to the current standard of care, which comprises protracted pre-hospital management of the patient without definitive care plan and delivery to geographically closest hospital.

The TAME Cardiac Arrest trial will study the ability of higher arterial carbon dioxide (PaCO2) levels to reduce brain damage, comparing giving patients 'normal' to 'slightly higher than normal' blood PaCO2 levels and assessing their ability to return to normal life-tasks. It will be the largest trial ever conducted in heart attack patients in the intensive care unit. This therapy is cost free and, if shown to be effective, will improve thousands of lives, transform clinical practice, and yield major savings.

DanICD is a randomized, controlled study to with the aim to assess whether there is a benefit of ICD-implantation in patients with coronary artery disease (including acute myocardial infarction), who survive cardiac arrest due to ventricular fibrillation/sustained ventricular tachycardia and undergo revascularization and with an LVEF above 35%.

Recent evidence suggests ketamine may attenuate harmful cellular cascades taking place after brain injury that result in permanent damage. The investigators are interested in researching the application of this in the setting of cardiac arrest. Following cardiac arrest, the brain is deprived oxygen for a period of time, leading to the imitation of these harmful cellular processes. The investigators hypothesize that patients who receive ketamine as part of their standard sedation procedures during cardiac arrest treatment have better neurological functioning compared to those who do not.