Active clinical trials for "Heart Arrest"

Within a six-year period from 2016-2021, this retrospective cohort study aims to: 1) report the national incidence of drowning related OHCA's among cases attended by the Danish Emergency Medical Services (EMS), 2) assess survival defined as return of spontaneous circulation (ROSC) on scene, by hospital admission and 30-day survival. Furthermore, aspects associated with better outcome are evaluated including actions taken by EMS-personnel and laypersons, geographical localization, type of activity, witnessed event, EMS response times, bystander CPR, initial rhythm, use of defibrillator, airway devices, pre-hospital medication, and patient demographics. This can potentially result in recommendations towards certain educative, preventative, rescue, or treatment strategies to reduce OHCA from drowning.

Ischemia-reperfusion leads to mitochondrial injury, ion-pump injury, cell membrane damage, cytotoxic edema, and excessive oxygen free radical formation, and eventually destroys cells. Cardiac arrest is an example of global ischemia; after spontaneous circulation is restored, ischemia-reperfusion injury develops in cardiac arrest survivors. Remote ischemic postconditioning (RIPoC) involves the application of brief, reversible episodes of ischemia and reperfusion to a vascular bed or tissue, rendering remote tissues and organs resistant to ischemia-reperfusion injury. Accordingly, RIPoC has been suggested as adjunctive therapy to mitigate ischemia-reperfusion injury. RIPoC applied by repeated brief inflation-deflation of a blood pressure cuff protects against myocardial injury, and has been proven effective in acute myocardial infarction. This study aims to perform a randomized controlled trial to determine whether RIPoC has a neuroprotective effect and aids in myocardial recovery in out-of-hospital cardiac arrest patients after restoration of spontaneous circulation. Neuron-specific enolase (NSE) at 48 hours after restoration of spontaneous circulation will be measured as a primary outcome.

This is a randomized, double-blind, placebo controlled study to investigate the effect of intravenous thiamine (vitamin B1) on lactate, cellular oxygen consumption, global oxygen consumption and biomarkers of neurologic injury after out-of-hospital cardiac arrest (OHCA). .

Using an investigational monitor/defibrillator that passively records CPR quality parameters, including chest compression rate and depth and ventilation rate and volume, we are prospectively recording CPR quality during sequential in-hospital cardiac arrests at the University of Chicago Hospitals. Using an audio feedback system linked to this device, we are studying whether such audio feedback improves CPR quality when provided to rescuers trained in the use of the device.

The AutoPulse Assisted Prehospital International Resuscitation (ASPIRE) Trial compares the efficacy of circulatory assist by manual chest compression versus an automated chest compression device (AutoPulse™) during the resuscitative attempt following out-of-hospital cardiac arrest.

Cardiac arrest is the number one cause of death in Canada. It is often the first symptom of cardiac disease for the victims. Eighty-five percent of victims collapse in their own home. Fifty percent collapse in the presence of a family member. Bystander cardiopulmonary resuscitation (CPR) can improve the chance to survive a cardiac arrest by three to four times, but needs to be started quickly. In most communities, less than 30% of victims receive CPR before the ambulance arrives. Currently, only 8% of cardiac arrest victims can leave the hospital alive. Many things have been tried to improve the number of times people do CPR. So far, the only thing that really increased the number of times that someone did CPR is when 9-1-1 attendants started to give CPR instructions to callers over the phone. The only problem is that about 25% of cardiac arrest victims gasp for air in the first few minutes. This can fool the 9-1-1 callers and attendants into thinking that the victim is still alive. The investigators have looked at all the studies on how to help 9-1-1 attendants to recognize abnormal breathing over the phone. The investigators have also learned what should be taught after finishing a large survey with 9-1-1 attendants from across Canada. This survey was done with the help of psychologists and other education experts. It measured the impact of attitudes, social pressures, and 9-1-1 attendants' perceived control over their ability to recognize abnormal breathing and cardiac arrest. Then the investigators developed a teaching tool which helped Ottawa 9-1-1 attendants recognize abnormal breathing. When they could do that, they could also recognize more cardiac arrest. The main goal of this project is to use the tool developed in Ottawa in more centres to help 9-1-1 attendants save the lives of even more cardiac arrest victims across Canada.

The European Resuscitation Council (ERC) and the European Society of Intensive Care Medicine (ESICM) joint guidelines for post-resuscitation care recommend a multimodal approach to prognostication of neurological outcome. However, head computed tomography (CT) which is commonly used for predicting long-term neurological outcome after cardiac arrest has not yet been examined prospectively in a clinical trial. The primary purpose of the TTM-2 CT-substudy is to prospectively investigate and compare various methods of diagnosing generalized oedema on CT after cardiac arrest and it´s ability to predict long-term neurological outcome.

Phase II double blind (participants and investigator) placebo controlled randomized (1:1) clinical trial of inhaled nitric oxide (iNO) 20 ppm administered over 12h beginning as soon as possible but within 4 h of return of spontaneous circulation (ROSC) from out-of-hospital cardiac arrest (OHCA). Planned enrollment is 180 subjects over 48 months at University of Pittsburgh Medical Center (UPMC) Hospitals with randomization stratified in blocks of 8. Recruitment will be performed under exception from informed consent (EFIC) to facilitate early enrollment and treatment. The study will have a pre-specified safety analysis at the mid-point (after 1 year or 60 patients whichever occurs first). Subjects will be screened by members of the University of Pittsburgh post-cardiac arrest service (PCAS), all of whom will serve as the study co-investigators, and the Research Coordinators. Notification of inclusion under EFIC will be performed as soon as possible by a member of the study team generally to a surrogate as the subjects will be comatose after OHCA.

The purpose of this research study is to evaluate the effectiveness of metoprolol, a "beta blocker," in treating patients in the hospital with a cardiac arrest. It will be given intravenously (given into a vein). The subjects who will take part in this study are 18 years of age or older, are experiencing a cardiac arrest in the hospital, and are in a life threatening situation. Patients who develop a cardiac arrest require prompt electrical defibrillation (electrical shocks) to restore the normal beating rhythm of the heart. In patients who do not respond to electrical defibrillation, current standard of care recommends the use of medications which have been shown to be of unknown benefit. Some people recover from a cardiac arrest, but many people do not. We want to learn whether giving metoprolol will improve survival of patients with a cardiac arrest. A total of 100 patients will be enrolled in the study. Patients will receive either the standard of care with the drug epinephrine or the standard of care plus metoprolol.

ILCOR Recommendations "On the basis of the published evidence to date, the Advanced Life Support (ALS) Task Force of the International Liaison Committee on Resuscitation (ILCOR) made the following recommendations in October 2002: Unconscious adult patients with spontaneous circulation after out-of-hospital cardiac arrest should be cooled to 32°C to 34°C for 12 to 24 hours when the initial rhythm was ventricular fibrillation (VF).Such cooling may also be beneficial for other rhythms or in-hospital cardiac arrest" (Circulation. 2003;108:118-121). This study ist to investigate the efficacy of mild therapeutic hypothermia on mortality and neurological outcome in patients after in-hospital cardiac arrest.