View clinical trials related to Heart Arrest.
Filter by:The objective of this study is to compare two forms of pre-training (an online narrative presentation and a serious game) to prepare 2nd year medical students for a hands-on training with physical simulators about out-of-hospital cardiac arrest management.
The aim of the trial is to compare immediate angiography in survivors of out of hospital cardiac arrest (OHCA) without ST-segment elevation versus delayed/selective catheterization with respect to 30 day mortality. The TOMAHAWK trial is supported by the Deutsches Zentrum für Herz-Kreislauf-Forschung (DZHK).
In case of a cardiac arrest it is very important to quickly provide high quality cardiopulmonary resuscitation (CPR). For reasons of patient safety the investigators want to assess the frequency, the quality and the outcome of cardiopulmonary resuscitations in the Inselspital Bern.
The objective of this study is to determine whether healthcare professionals trained in CPR can deliver more effective ventilations during CPR using the Handivent, a novel turbine-driven ventilator as compared to bag-valve-mask ventilations, using a manikin model. The investigators believe the Handivent will deliver a more accurate respiratory rate and tidal volume, with lower intrathoracic pressure during CPR.
Method: Single center, prospective, non-randomized, unblinded case series of all patients presenting with a cardiac arrest. The proposed study will collect data on all comatose patients presenting with cardiac arrest. The primary end point is death from any cause at 30 days from admission. Significance: Develop criteria to guide an invasive strategy for comatose patients presenting with cardiac arrest, and so avoid ineffective or even futile therapy which carry its own significant risks for patients in the future. The criteria, in turn, can serve as the basis for a prospective, randomized trial in the future.
To evaluate the significance of free-plasma deoxyribonucleic acid (DNA) and plasma histones in cardiac arrest patients.
Cardiac arrest is at present a major cause of mortality as well as a cause of disability for the surviving victims.In Europe, every year counts as 300,000 cardiac arrests responsible for 250,000 deaths. Thus, less than 20 % of patients discharged home with impaired quality of life associated with symptoms of tiredness, stress, anxiety. The prognosis is related to the initial cardiac rhythm present during the initiation of resuscitation. Recent progress in the improvement of mortality and neurological outcome has been achieved over the last decade thanks to the systematic implementation of a period of targeted temperature control between 32 and 34 ° C in patients who benefited from the realization of at least one electrical external shock. There are theoretical and clinical arguments to think that achieving the same way a period of targeted temperature control between 32 and 34 ° C in patients treated for cardiac arrest with a non- shockable rhythm on arrival can also benefit from this procedure. However other arguments are against this hypothesis including an increase in the risk of infection , worsening of the patient's hemodynamic status with no benefit to him. To answer this question, we conduce a randomized multicenter study testing the potential improvement of neurological outcome through this procedure targeted temperature control between 32.5 and 33.5 ° C in these patients. NSE-Ancillary Study of HYPERION Trial will determine impact on neurospecific enolase (brain biomarker) of two temperature target for targeted temperature management (33°C or 37°C) after cardiac arrest in non-shockable rhythm.
The aim of the study is to determine surrogate markers for prognostication of unfavorable outcome (death or persistent vegetative state) in cardiopulmonary arrest survivors. These patients are comatose. Conscious patients are unsuitable for prognostication.
Troponin is a major diagnostic criterion of acute myocardial infarction (AMI) which confirms myocardial damage and necrosis. In out-of-hospital cardiac arrest (OHCA) patients its dynamics and diagnostic value is often controversial and has not been well described. Most of prior studies were retrospective, using first generation troponin assays and assessing only admission troponin. The aim of this work is to correlate dynamics of sensitive troponin I with urgent coronary angiography. Patients resuscitated after OHCA will be prospectively divided in three groups based on the results of their urgent angiographies. Serial assessment of sensitive troponin I will be obtained over initial 48 hours. We expect admission troponin will not be predictive of AMI. Over next hours troponin levels will be highest in patients with acute coronary lesion, lower in stable obstructive coronary disease and insignificant in non-obstructive coronary disease. We also expect significant difference in highest values and dynamics of troponin in sub-group with spontaneous reperfusion (TIMI flow 2 and 3) comparing to patients with coronary occlusion (TIMI flow 0 and 1). In patients with non-obstructive disease we expect troponin levels to correlate with duration of cardiac arrest, number of external electric shocks and cumulative dose of adrenaline administered.
Cardiac arrest is at present a major cause of mortality as well as a cause of disability for the surviving victims.In Europe, every year counts as 300,000 cardiac arrests responsible for 250,000 deaths. Thus, less than 20 % of patients discharged home with impaired quality of life associated with symptoms of tiredness, stress, anxiety. The prognosis is related to the initial cardiac rhythm present during the initiation of resuscitation. Recent progress in the improvement of mortality and neurological outcome has been achieved over the last decade thanks to the systematic implementation of a period of targeted temperature control between 32 and 34 ° C in patients who benefited from the realization of at least one electrical external shock. There are theoretical and clinical arguments to think that achieving the same way a period of targeted temperature control between 32 and 34 ° C in patients treated for cardiac arrest with a non- shockable rhythm on arrival can also benefit from this procedure. However other arguments are against this hypothesis including an increase in the risk of infection , worsening of the patient's hemodynamic status with no benefit to him. To answer this question, we conduce a randomized multicenter study testing the potential improvement of neurological outcome through this procedure targeted temperature control between 32.5 and 33.5 ° C in these patients. IL Ancillary Study of HYPERION Trial will determine impact on inflammatory biomarkers of two temperature target for targeted temperature management (33°C or 37°C) after cardiac arrest in non-shockable rhythm.