View clinical trials related to Heart Arrest.
Filter by:This is a prospective, observational, multi-center cohort study of pediatric cardiac arrests. The purpose of the study is to determine the association between chest compression mechanics (rate, depth, flow fraction, compression release) and patient outcomes. In addition, the investigators will determine the association of post cardiac arrest care with patient outcomes.
The COMACARE trial is a pilot multicenter randomized trial to assess the feasibility and effect on brain injury markers of targeting low or high normal arterial oxygen tension (PaO2), arterial carbon dioxide tension (PaCO2) and mean arterial pressure (MAP) in comatose, mechanically ventilated patients after out-of-hospital cardiac arrest. Using factorial design, participants are randomized at admission to intensive care unit to one of eight groups targeting either low or high normal values of PaO2, PaCO2 and MAP for 36 h. In this way, investigators will be assessing the feasibility and effect of all three variables at the same time. The primary outcome is serum concentration of neuron-specific enolase (NSE) at 48 h after cardiac arrest. Feasibility outcome is between-group separation in PaO2, PaCO2 and MAP levels. Secondary outcomes include continuous monitoring of cerebral oxygenation, EEG and ECG for 48 h, the levels of NSE, S100B and cardiac troponin at randomization and 24, 48 and 72 h after cardiac arrest and neurological assessment at 6 months after cardiac arrest.
The broad objective of this study is to test the association between hyperoxia exposure after resuscitation from cardiac arrest and outcome. After obtaining written informed consent subjects enrolled in REOX II will undergo a rapid faction of inspired oxygen (FiO2) optimization protocol to prevent exposure to hyperoxia. We will compare outcomes between subjects enrolled in REOX I (observational study only) and REOX II (intervention: rapid FiO2 optimization protocol). Our overarching hypothesis is that exposure to hyperoxia after return of spontaneous circulation (ROSC) is associated with increased oxidative stress and worsened neurological and cognitive outcomes.
Objective: Safety and efficacy of low-dose prostacyclin administration and blood pressure target in addition to standard therapy, as compared to standard therapy alone, in post-cardiac-arrest-syndrome (PCAS) patients.
Cardiac arrest remains a leading cause of death, currently affecting >250,000 Europeans outside the hospital each year. Manual cardiopulmonary resuscitation (CPR) provides between 15 to 30 % of normal blood flow to the heart and brain. For out-of-hospital cardiac arrest, the return of spontaneous circulation (ROSC) is possible only for 20-40% of patients with trained resuscitation teams. However, only 5-10% of patients will survive with good neurological status. A good quality CPR, a short time before initiation of the resuscitation and a short delay before the first defibrillation have been associated with improved neurological outcome. Unfortunately it is currently impossible to obtain reliable information on the quality of the perfusion and oxygenation of organs during CPR. The current monitoring during CPR is limited to heart rhythm analysis, pulse rate evaluation and end tidal CO2 (EtCO2). The last one is the only parameter which have been linked with probability of ROSC and its value gives no indication of the long-term prognosis nor the neurological status. Cerebral spectroscopy (near-infrared spectroscopy - NIRS) allows to measure with a noninvasive method the local oxygen saturation of the prefrontal cortex (rSO2), reflecting the balance between need and supply of brain oxygenation. This technique has been recently used in cardiac arrest showing a possible association between rSO2 measured during CPR and the occurrence of ROSC or survival. The quantitative measurement of the pupillary light reaction has been described to predict neurological outcome in the hospital for patient successfully reanimated after out-of-hospital cardiac arrest (OHCA). Recently, a feasibility study has shown that its use was also possible during CPR in the pre-hospital setting. The investigators aim to study a composite prognostic factor combining quantitative rSO2 and automated pupillometry measured during CPR. The investigators hypothesized that the rate of survival with good neurologic outcome at 30 days will be lower in patients with rSO2 <30% for more than 5 min and an absent pupillary reflex more than 5 min or decreasing during CPR .
We aimed to investigate the efficiency of chemical oocyte activation using readymade Ca2+ ionophore on cases with previously cancelled cases due to fertilization arrest at pronuclear stage i.e: cleavage failure to find out if there is any improvement in embryonic developmental stages.
In-hospital pediatric cardiac arrest is an important public health problem affecting almost 6000 children a year in the United States. As many as 3% of patients admitted to a children's hospital require cardiopulmonary resuscitation (CPR). Only a minority of children survive, of which around 35% go on to have a poor neurological outcome. International consensus guidelines on science and treatment recommendations for the management of pediatric resuscitation have existed for decades and are revised periodically by the International Liaison Committee on Resuscitation (ILCOR) based on available evidence. This consensus is then used by national councils such as the American Heart Association (AHA) and the Heart and Stroke Foundation of Canada (HSFC) to make guidelines for care. These guidelines focus on a structured approach to resuscitation, which emphasizes the rapid implementation of key interventions such as starting chest compressions, administering epinephrine and defibrillation. The goal of this study is to improve outcomes after cardiac arrest in children by improving adherence to consensus guidelines. The investigators aim to achieve this by conducting a multi-center, prospective, factorial randomized study with participating sites from the International Network for Simulation-based Pediatric Innovation, Research and Education (INSPIRE). The specific aims of this study are to: 1. To evaluate the effectiveness of knowledge-based cognitive aids, namely the Pediatric Advanced Life Support (PALS) algorithm cards, in healthcare teams. 2. To evaluate the effectiveness of teamwork-based cognitive aids, namely the Cognitive Aids with Roles Defined (CARD) system, in healthcare teams. 3. To determine if there is a synergistic effect when adding the CARD system to the use of knowledge-based cognitive aids or indeed whether using both these tools together has unintended consequences and reduces the added value of each technique. 4. To identify whether additional simulation-based team training in the use of cognitive aids results in a significant improvement in performance over an e-learning module. The investigators hypothesize that (i) knowledge-based cognitive aids will significantly improve the performance of healthcare teams in providing PALS in a simulated setting, (ii) that teamwork-based cognitive aids (CARD) will significantly improve the performance of healthcare teams in providing PALS in a simulated setting, and that (iii) adding the CARD system to knowledge-based aids will have an added and synergistic effect, (iv) that the team performance in all study arms will improve after simulation based training, but that the groups with cognitive aids will continue to out-perform the groups without cognitive aids.
This is a prospective, observational study to investigate molecular mechanisms mediating the systemic inflammatory process, and changes to metabolism, and their impact on brain injury, survival, and functional outcomes after cardiac arrest. Investigators have shown that cardiac arrest induces changes in the numbers and properties of circulating immune cells, shifting the balance towards a pro-inflammatory phenotype and there is increased interest in the inflammatory pathways and the signaling mechanisms through which they are modulated. Participants will undergo blood sampling during 7 days following cardiac arrest, and analyses performed. Patient characteristics, clinical circumstances, and outcomes will be recorded and their associations with these inflammatory pathways characterized.
Extensive research exists for cardio-pulmonary resuscitation (CPR) and the chance of successful return of spontaneous circulation (ROSC) is improved. Unfortunately, the overall prognosis after ROSC has not improved much and the in-hospital mortality is still reported to be 50 to 70 %. The "post-resuscitation disease" is now called the "post-cardiac arrest syndrome" (PCAS) and comprises 1) brain injury, 2) myocardial dysfunction and 3) systemic ischemia and reperfusion. Treatment of patients after cardiac arrest has often followed guidelines that were primarily developed for treatment of septic shock. It is still uncertain whether this is the optimal way to deliver circulatory support after cardiac arrest. There is a lack of studies assessing the relationship between the inflammatory response measured by inflammatory biomarkers and circulatory failure in PCAS. In this study a detailed description will be given of the clinical trajectory of the circulation and the inflammatory response during the first 5 days after cardiac arrest, and it will be investigated whether patterns of circulatory and inflammatory response may be predictive of deterioration of clinical state.
Investigators designed the novel combining technique that rescuer start the chest compression with one hand during calling for help to the Emergency Medical System (EMS) via a cell phone with another hand when he witnessed the arrest victim. This method may be helpful to reduce the hand-off time and increase the faction time of chest compression until the arrival of EMS members. To verify this hypothesis, we conducted a random, controlled simulation study.