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

Results 1-10 of 248

BCG Biosensor and Non- and Invasive Monitoring During Emergency Medicine Cases, a Prospective Feasibility...

Cardiac ArrestOut-Of-Hospital1 more

In a out of hospital emergency medicine study the investigators will measure hemodynamic effects of implemented treatments for patients with cardiac arrest, hypotension, and intensive care transports. The investigators will use both non-invasive and invasive measuring technology to measure this. Ballistocardiographic biosensors are introduced together with more advanced non-invasive and invasive measurements such as invasive arterial blood pressure with cardiac output calculation and saturation cerebral tissue oxygenation (SctO2). During treatment of cardiac arrest patients the investigators will use a new LUCAS 2 Active Decompression device (LUCAS 2 AD2) and measure different hemodynamic variables.

Recruiting11 enrollment criteria

ON-SCENE Initiation of Extracorporeal CardioPulmonary Resuscitation During Refractory Out-of-Hospital...

Extracorporeal Membrane OxygenationCardiac Arrest

Hypothesis: Implantation of on-scene ECPR by the HEMS teams in patients with sustained out-of-hospital cardiac arrest, results in the rapid return of circulation and, thus, improved survival and less neurological impairment, which is associated with lower health care costs.

Recruiting14 enrollment criteria

CardioPulmonary Resuscitation With Argon (CPAr) Trial

Cardiac ArrestOut-Of-Hospital1 more

Preclinical studies suggest that argon (Ar) might diminish the neurological and myocardial damage after any hypoxic-ischemic insult. Indeed, Ar has been tested in different models of ischemic insult, at concentrations ranging from 20% up to 80%. Overall, Ar emerged as a protective agent on cells, tissues and organs, showing less cell death, reduced infarct size and faster functional recovery. More specifically, encouraging data has been reported in animal studies on cardiac arrest (CA) in which a better and faster neurological recovery was achieved when Ar was used in the post-resuscitation ventilation. More importantly, these benefits have been replicated in different studies, enrolling both small and large animals. Finally, ventilation with Ar in O2 has been demonstrated to be safe both in animals and humans. Based on this evidence, a clinical translation is advocated. Thus, the CardioPulmonary resuscitation with Argon - CPAr trial has been conceived. The aim of the CPAr trial is to evaluate feasibility and safety of Ar/O2 ventilation in patients resuscitated from CA. Activity endpoints will be also evaluated to assess effects of Ar.

Recruiting2 enrollment criteria

Rehabilitation for Survivors of Out-of-hospital Cardiac Arrest

Cardiac ArrestHeart Arrest6 more

This study is a parallel group multicentre investigator-initiated clinical randomised controlled superiority trial that will include a total of 214 survivors of OHCA. Participants will to be randomized with a 1:1 allocation ratio to either a intervention consisting of a comprehensive initiated tailored rehabilitation intervention focusing on supporting RTW plus usual care compared to usual care alone.

Recruiting5 enrollment criteria

Direct or Subacute Coronary Angiography in Out-of-hospital Cardiac Arrest

Out-of-Hospital Cardiac Arrest

The overall aim of this prospective, randomized study is to investigate whether acute coronary angiography (within 120 minutes) with a predefined strategy for revascularization, will improve 30-day survival in patients with out of hospital cardiac arrest with no signs of ST-elevation on ECG after Restoration of Spontaneous Circulation (ROSC). The patients will be randomized to a strategy of immediate coronary angiography within 120 minutes or to a strategy of delayed angiography that may be performed three days after the cardiac arrest.

Recruiting9 enrollment criteria

EXecution of Trans-Esophagus Echo Cardiogram in CardioPulmonary Resuscitation for Patients With...

Out-Of-Hospital Cardiac Arrest

The purpose of this single center, randomized clinical control trial is to determine that changing chest compression site during cardiopulmonary resuscitation according to the examination of the TEE could increase the level of end-tidal CO2, which represents the quality of cardiopulmonary resuscitation, or not in adult patients with non-traumatic out-of-hospital cardiac arrest while comparing to those who don't receive examination of transesophageal echocardiography during cardiopulmonary resuscitation.

Recruiting7 enrollment criteria

The Danish Out-of-Hospital Cardiac Arrest Study

Out-Of-Hospital Cardiac ArrestPost-Cardiac Arrest Syndrome

After resuscitation from Out-of-Hospital Cardiac Arrest (OHCA) patients experience Post Cardiac Arrest Syndrome due to ischemia and reperfusion injury. It consists of systemic inflammation, cerebral and myocardial dysfunction, and the condition that led to the arrest. Most OHCA patients will receive critical care intubated in an Intensive Care Unit (ICU). Despite this ~50% die; mainly due to brain injury. Several targets can be considered for improving outcomes. To dampen systemic inflammation and optimize cerebral perfusion seem important. Deep sedation has been required for targeted temperature management (TTM) but may also be brain protective. After end of sedation, many patients have some cerebral dysfunction that may facilitate delirium. The aim of this trial is therefore to improve treatment of comatose OHCA patients by evaluating 4 interventions in a factorial design addressing each of these targets in a randomized clinical trial: Systemic inflammation: Anti-inflammatory treatment with high dose steroids (dexamethasone) or placebo. Cerebral perfusion: Backrest elevation during sedation at 5 or 35 degrees. Duration of sedation: Early wakeup call and potential extubation at ≤6 hours after admission or later as current standard practice at 28-36 hours. Delirium: Prophylactic treatment with anti-psychotic medication (olanzapine) or placebo. The trial is designed as a phase III trial, randomizing 1000 patients at Danish cardiac arrest centers. The primary endpoint is 90 days all-cause mortality for the interventions targeting systemic inflammation and cerebral perfusion, while it is days alive outside of hospital within 30 days for the interventions concerning duration of sedation and delirium. The trial has potential to improve outcomes for comatose OHCA patients - a group with a grave prognosis with currently only limited evidence-based treatments.

Recruiting22 enrollment criteria

Pediatric Influence of Cooling Duration on Efficacy in Cardiac Arrest Patients (P-ICECAP)

Cardiac ArrestOut-Of-Hospital4 more

This is a multicenter trial to establish the efficacy of cooling and the optimal duration of induced hypothermia for neuroprotection in pediatric comatose survivors of cardiac arrest. The study team hypothesizes that longer durations of cooling may improve either the proportion of children that attain a good neurobehavioral recovery or may result in better recovery among the proportion already categorized as having a good outcome.

Recruiting26 enrollment criteria

Compression Only CPR Versus Standard CPR in Out-Of-Hospital Cardiac Arrest - A Randomized Survival...

Out-Of-Hospital Cardiac ArrestCardiac Arrest1 more

Out-of-hospital cardiac arrest (OHCA) is one of the leading causes of mortality in the industrialized world. Bystander CPR before arrival of the Emergency Medical Service (EMS) is associated with an increased chance of survival. During the last decade, the best form of bystander CPR has been debated. Chest Compression Only CPR (CO-CPR) has been advocated as a preferable method in situations where the bystander has no previous knowledge in CPR, both because its believed to be equally efficient but also a simplified form of CPR that could lead to a higher incidence of bystander-CPR. In an initiative to increase CPR rates the American Heart Association has launched public campaigns such as the "hands-only CPR" promoting CO-CPR as an option to S-CPR for adult non-asphyxic cardiac arrest. In the 2015 updates of the European resuscitation council guidelines it states that the confidence in the equivalence between the two methods is not sufficient to change current practice. Whether CO-CPR leads to a survival rate no worse than, equally effective, or even superior to standard CPR in situations where the bystander has previous CPR training however remains unclear. This clinical question remains unanswered while millions of people are trained in CPR worldwide each year. The overall purpose with this research project is to investigate whether instructions to perform a simplified form of CPR consisting of compressions only (CO-CPR) to bystanders with prior CPR-training is non-inferior, or better than, standard CPR (S- CPR) in witnessed Out-of-Hospital Cardiac Arrest (OHCA).

Recruiting13 enrollment criteria

Steroid, Thiamine and Ascorbic Acid for Comatose Out-of-hospital Cardiac Arrest Survivors

Out-Of-Hospital Cardiac ArrestPostcardiac Arrest Syndrome

The mortality and neurological outcomes among out-of-hospital cardiac arrest survivors have not improved despite the medical advances. The whole body ischemia/reperfusion injuries after cardiac arrest mainly damaged the brain. To improve the neurologic outcome among those patients, additional interventions would be warranted. The investigators hypothesize that the combined use of cortisol, ascorbic acid (vitamin C), and thiamine during the early post-resuscitation period would attenuate the whole-body ischemia/reperfusion injuries among the out-of-hospital cardiac arrest survivors treated with targeted temperature management.

Recruiting17 enrollment criteria
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