View clinical trials related to Heart Arrest.
Filter by:To control patient's body temperature remains of major importance especially after cardiac arrest (CA). Therapeutic hypothermia (TH) targeted to 32-34°C is now recommended for most unconscious CA patients. However, available modalities for inducing TH have a number of technical (side effects), logistical (difficulties of placement), and financial (cost) barriers. The Esophageal Cooling Device (ECD) is a multi-chambered silicone heat exchanger placed in the esophagus providing highly efficient heat transfer to a patient. The ECD is a device that potentially improves the effectiveness of TH in minimizing the risks of existing methods (such as invasive cooling). Initial mathematical and animal studies have shown strong support for the efficacy and safety of the ECD. Placement of a naso-gastric probe is a systematic standard of care for all unconscious patients suffering from CA. The present study will replace the usual naso-gastric probe by the ECD that can be used for gastric suctioning as usually done in such patients. The aim of this prospective, interventional study is to assess the feasibility and safety of the ECD in resuscitated CA-patients and treated with 32-34°C targeted TH. The primary outcome is the feasibility of inducing, maintaining, and rewarming patients from TH using the ECD (cooling rate, rewarming rate, and the percent of time within goal temperature during the goal-temperature maintenance period). Evaluation of adverse events (including cardiac arrhythmias, severe bradycardia, myocardial infarction/re-infarction, dysphagia, odynophagia, aspiration pneumonia, non-aspiration pneumonia, esophageal reflux and injury, and esophagitis) will be closely monitored during the whole period of the targeted temperature management (secondary endpoint).
The aim of this study is to improve the management of patients in cardiac arrest, and this by comparing two initial airway management methods: Tracheal intubation and bag-valve-mask ventilation. The survival rate at 28-day with favorable neurological function will be compared in the tracheal intubation group versus the bag-valve-mask group
Veno-arterial extracorporeal life support (VA-ELS) is used to support patients with acute cardiac failure. In that context, sufficient drainable venous volume is crucial for reliable and adequate support. To date, no reliable measurement method exists to monitor drainable volume adequately. Furthermore, it is still unresolved how to diagnose adequate cardiac recovery. Previous (pre)clinical studies showed that the calculation of the dynamic filling index may provide a valuable parameter to monitor the drainable volume in patients supported by VAELS. In addition, a case report showed that measurement of the dynamic filling index could successfully be used to estimate cardiac recovery in a single patient supported by VA-ELS in the ICU. This study will assess the dynamic filling index as a representation for drainable volume and cardiac recovery using standard recorded perfusion data in patients supported by VA-ELS
Context: Chest compressions represent an important physical effort leading to fatigue and cardiopulmonary resuscitation quality degradation. Despite a known harmful effect of chest compressions interruptions, current guidelines still recommend provider switch every 2 minutes. Feedback impact on chest compressions quality during an extended cardiopulmonary resuscitation remains to be assessed. Study design: simulated prospective monocentric randomized crossover trial. Participants and methods: Sixty professionals rescuers of the pre-hospital care unit of University Hospital of Caen (doctors, nurses and ambulance drivers) are enrolled to performed 10 minutes of continuous chest compression on manikin (ResusciAnne®, Laerdal), twice, with and without a feedback device (CPRmeter®). Correct compression score (the main criterion) is defined by reached target of rate, depth and leaning at the same time (recorded continuously). Hypothesis: Feedback device delay fatigue effect arises during cardiopulmonary resuscitation.
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.
The objective of this study is to compared effectiveness of intubation using ETView VivaSight SL and standard tracheal tube during resuscitation performed by a EMS-paramedics.
The purpose of this study was to compare the Jamshidi, the BIG, the Cook, the EZIO intraosseous devices to standard peripheral venous catheterization during pediatric resuscitation.
A pilot study to evaluate the effect of sodium bicarbonate administration on cardiopulmonary resuscitation results and outcomes in cardiac arrest patient with severe metabolic acidosis.
Prediction of clinical outcome after cardiac arrest is clinically important.Early prognostication after successful cardiopulmonary resuscitation is difficult, and there is a need for novel methods to estimate the extent of brain injury and predict outcome. In this study, the investigators will evaluate the plasma levels of microRNAs (miRNAs) and circRNAs after cardiac arrest and assessed their ability to prognosticate neurological outcome.
Endotracheal intubation (ETI) is perceived as the optimal method of providing and maintaining a clear and secure airway. The 2010 European Resuscitation Council (ERC) guidelines emphasized the importance of minimal interruption during cardiopulmonary resuscitation (CPR). These guidelines also suggest that skilled operators should be able to secure the airway without interrupting chest compression. The aim of the study was to compare time and success rates of the Vividtrac video-laryngoscope and the Miller laryngoscope for emergency intubation during simulated pediatric CPR.