View clinical trials related to Heart Arrest.
Filter by:In this study, the investigators compared mechanical and manual chest compressions in out-of-hospital cardiac arrest cases.
The main objective of the trial is to find out if there is correlation between cerebral and skeletal muscle oxygenation values during cardiopulmonary resuscitation and if these values can predict return of spontaneous circulation. The investigators would like to find out which values, first measures, average, maximal, are better predictor of return of spontaneous circulation. All the patients with nontraumatic cardiac arrest in prehospital environment will be enrolled in the study. The measurements will be taken with NIRS device and special electrodes, which will be placed on patient's forehead and thenar eminence od right hand. No ALS procedure will be modified.
The objective of the Lowlands Saves Lives trial is to compare the quality of cardiopulmonary resuscitation (CPR) between face-to-face versus Lifesaver Virtual Reality smartphone application trained participants using a randomized controlled trial.
The main objective of the trial is to find out if 4-hour continuous infusion of parenteral P2Y12 inhibitor cangrelor at the start of primary percutaneous coronary intervention (PCI) immediately and effectively suppresses platelet activity in comatose survivors of out-of-hospital cardiac arrest (OHCA). Half of the participants will receive the standard care of dual antiplatelet therapy - acetysalicylic acid and ticagrelor tablets via nasogastric or orogastric tube and the other half the standard care with additional cangrelor infusion at the start of the PCI.
Elevation of the head and thorax, also known as Head-up cardiopulmonary resuscitation (HUP CPR), has been studied extensively in pigs in ventricular fibrillation (VF). HUP combined with active compression decompression and impedance threshold device (ACD+ITD) CPR improves vital organ perfusion and results in a doubling of cerebral perfusion when compared with the same method of CPR in the flat or horizontal plane. HUP CPR enhances the drainage of venous blood from the brain, lowers central venous pressures, reduces intracranial pressures during the decompression phase of CPR, redistributes blood flow through the lungs during CPR, and may reduce brain edema. These mechanisms collectively contribute to improved blood flow and less injury to the brain during CPR. These benefits are due in large part to the effects of gravity on the physiology of HUP CPR. Importantly, HUP CPR is dependent upon a means of generating enough forward flow to adequately pump blood "uphill" to the brain. In this proposed pilot study, CPR will be performed manually before the patient is placed on a controlled mechanical elevation device (Elegard, Minnesota Resuscitation Solutions LLC, USA). An ITD-16 (ResQPOD-16, Zoll, USA) will be placed on the patient's airway before the head is elevated. Automated CPR will be initiated as soon as feasible using a new automated CPR mechanical compression device that provides full active compression-decompression CPR (LUCAS-AD, Stryker, USA). The proposed feasibility clinical study will be the first ever to test the fully integrated system of ACD+ITD HUP CPR.
The study performed to demonstrate a reasonable assurance of safety and effectiveness of the Heart Guardian HR-501 when used in an out-of-hospital environment.
The study investigators will recruit paramedics in many Emergency Medical Services (EMS) in Switzerland to prepare direct intravenous (IV) emergency drugs during a standardized simulation-based pediatric out-of-hospital cardiac arrest scenario. According to randomization, each paramedic will be asked to prepare sequentially 4 IV emergency drugs (epinephrine, midazolam, dextrose 10%, sodium bicarbonate 4.2%) following either their current conventional methods or by the aim of a mobile device app. This app is designed to support drug preparation at pediatric dosages. In a previous multicenter randomized trial with nurses, the investigators reported the ability of this app to significantly reduce in-hospital continuous infusion medication error rates and drug preparation time compared to conventional preparation methods during simulation-based resuscitations. In this trial, the aim was to assess this app during pediatric out-of-hospital cardiopulmonary resuscitation with paramedics.
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.
This study will test the feasibility and acceptability of deploying a decision aid for surrogate decision makers of comatose survivors of cardiac arrest early during hospitalization. This decision aid is to inform, educate and support decision makers charged with determining goals of care during post-cardiac arrest treatment.
The purpose of this study is to determine whether the blood transcriptome of patients resuscitated after out-of-hospital could be an early predictor of the neurological outcome.