View clinical trials related to Cardiac Arrest.
Filter by:Cardiac surgery including hypothermic cardiac arrest (HCA) commonly involves perioperative transfusion of allogeneic blood products which is associated with increased morbidity and mortality. In this retrospective analysis, the investigator aimed to evaluate the effect of a thromboelastometry-guided treatment algorithm promoting fibrinogen concentrate as first line hemostatic agent on the perioperative use of allogeneic blood products.
Understudied drugs will be administered to children per standard of care as prescribed by their treating caregiver and only biological sample collection during the time of drug administration will be involved. A total of approximately 7000 children aged <21 years who are receiving these drugs for standard of care will be enrolled and will be followed for up a maximum of 90 days. The goal of this study is to characterize the pharmacokinetics of understudied drugs for which specific dosing recommendations and safety data are lacking. The prescribing of drugs to children will not be part of this protocol. Taking advantage of procedures done as part of routine medical care (i.e. blood draws) this study will serve as a tool to better understand drug exposure in children receiving these drugs per standard of care. The data collected through this initiative will also provide valuable pharmacokinetic and dosing information of drugs in different pediatric age groups as well as special pediatric populations (i.e. obese).
STUDY OBJECTIVES The overall goal of this study is to compare bystander fatigue and CPR quality after 5 minutes of continuous chest compressions versus the 2005 30:2 chest compression to ventilation Resuscitation Guidelines, in a population aged 55 or greater. More specifically, the investigators will compare each CPR ratio with regard to: 1. The achieved frequency and depth of chest compressions, and 2. Participant rating of their perceived level of exertion. STUDY HYPOTHESIS In a population aged 55 or greater, the new CPR recommendations will lead to: 1. less frequent and shallower chest compressions over the 5-minute study period; and 2. higher rating of perceived level of exertion when compared to the 2005 30:2 CPR ratio.
The debate over the administration of sodium bicarbonate in cardiac arrest has been going on for several decades, swinging like a pendulum from "first-line drug" to "not indicated" to the recent guidelines advocating "a small bolus under special conditions (metabolic acidosis, intoxication, long-term resuscitation)". A targeted, blood-gas controlled application under optimised ventilation conditions has not yet been evaluated prehospitally. Our preliminary studies have shown that an arterial puncture/line as well as measurement of blood gases is feasible in preclinical conditions. This multicentre trial including 5 centres and 10 physician-staffed emergency systems is designed to compare, in a prospective randomised controlled study, the effect of a calculated dosage of sodium bicarbonate based on the patient´s base deficit and weight, on ROSC (= return of spontaneous circulation) and on the secondary survival of cardiac arrest patients. The null hypothesis is that there is no or negative impact on survival.
The purpose of this study is based on method Utstein, registering all recommended items of that model, in addition to adding more information, characterizing this way using a template Utstein modified for the epidemiology of PCR-hospital in Brazil. Objectives: establish a registry of patients suffering from respiratory (PCR)-hospital to assess demographic and clinical variables such as morbidity, mortality and standard practice in cardiopulmonary resuscitation (CPR). In addition, assess independent predictors associated with survival in several times and survival curves.
More than 300,000 Americans experience out-of-hospital cardiac arrest annually, with overall survival rates averaging less than 5%. Low survival rates persist, in part, because manual chest compressions and ventilation, termed standard cardiopulmonary resuscitation (S-CPR), is an inherently inefficient process, providing less than 25% of normal blood flow to the heart and the brain. Hemodynamics are often compromised further by poor S-CPR techniques, especially inadequate chest compression and incomplete chest recoil. Active Compression Decompression CPR (ACD-CPR) is performed with a hand-held device that is attached to the patient's chest, and also includes a handle containing a metronome and force gauge to guide proper compression rate, depth and complete chest wall recoil. The impedance threshold device (ITD) is designed for rapid connection to an airway adjunct (e.g. facemask or endotracheal tube) and allows for positive pressure ventilation, while also impeding passive inspiratory gas exchange during chest wall decompression. Prior studies have shown that the combination of ACD-CPR + ITD enhances refilling of the heart after each compression by augmenting negative intrathoracic pressure during the decompression phase of CPR, resulting in improved cardiac and cerebral perfusion. The intrathoracic pressure regulator (ITPR) is a next generation inspiratory impedance therapy. The ITPR uses a regulated external vacuum source to lower the negative intrathoracic pressure and is therefore less dependent on the quality of CPR (e.g., completeness of chest wall recoil). The ITPR generates a pre-set continuous and controlled expiratory phase negative intrathoracic pressure that is interrupted only when positive pressure ventilation is needed to maintain oxygenation and provide gas exchange. The purpose of the study is to compare the early safety and hemodynamic effects of S-CPR, ACD- CPR + ITD, and S-CPR + ITPR in patients with out-of-hospital cardiac arrest.
Specific Aim #1: To determine if levels of CoQ10 are low post-cardiac arrest (CA). We will perform a prospective trial with the primary endpoint of describing the prevalence of low serum CoQ10 levels. Specific Aim #2: To determine if CoQ10 levels in post-CA patients can be increased with the administration of exogenous CoQ10.. We will perform a randomized control trial (RCT) of post-CA patients with the secondary endpoint of comparing CoQ10 levels among those randomized to CoQ10 supplementation vs placebo.
International recommendations stress on the importance of no flow time reduction in cardiac arrest management. In fact, no flow time is an independent factor of morbidity and mortality. In France, cardiac arrests are treated by first responders (including emergency nurses) before the arrival of a mobile intensive care unit. Those first responders use bag-valve-mask for ventilation and therefore practice conventional CPR (30 chest compression / 2 ventilation rhythm). Laryngeal tube is a safe and efficient device in cardiac arrest ventilation. The purpose of our study is to compare the no flow time between two strategies of out of hospital cardiac arrest management by first responders: conventional CPR with bag-valve-mask ventilation vs. compression only CPR with Laryngeal Tube ventilation.
Observational study of all out-of-hospital cardiac arrest during 6 months in regional areas of Helsinki University Hospital and Kuopio University Hospital from activation of EMS system until follow up to 6 months of survival.Simultaneous observation of out-of-hospital cardiac arrest primary survivors admitted to all Finnish ICUs.
The purpose of this study is to determine that the measurements of rectal and bladder temperature are correctly consistent with core temperature by using the pulmonary artery catheter during therapeutic hypothermia; rapid cooling, maintenance, and slow rewarming phase.