Optimized CT-imaging Protocol in VA-ECMO Patients After CPR
Cardiopulmonary ArrestVA-ECMOVeno-arterial (VA) extracorporal membrane oxygenation (ECMO) is an increasingly applied method in patients under cardiopulmonary resuscitation (CPR), who are regularly examined with a contrast-enhanced computed tomography to search for the underlying pathology as well as complications from the implantation of the ECMO system or CPR. The extraordinary hemodynamic situation due to VA-cannulation with antegrade and retrograde perfusion is a challenge to the diagnostically required simultaneous opacification of pulmonary and systemic arterial vessels. Evidence regarding the effect of ECMO flow rate, cannula position, cardiac function and contrast agent injection site is scarce and to the best of the authors' knowledge, no standardized scan protocol for this patient collective exists. In this study, all adult emergency department patients at our institution with femoro-femoral VA-ECMO and ongoing or recent cardiopulmonary resuscitation, who are referred to a clinically indicated CT scan in this context, will be included, aiming for a total of n=50 patients. The first 25 consecutive patients will be assigned to the intervention cohort. For these patients the ECMO flow rate is reduced by a maximum of 50% of initial flow, but to no less than 1,5 liter/min, for the duration of the CT scan (max. 1-2 minutes), given the hemodynamic and respiratory situation allows it. The following 25 consecutive patients will be assigned to the control cohort for whom ECMO flow rate is not reduced. Clinical data (e.g. ECMO flow rate, ventilation parameters, cardiac function, venous line for contrast injection) at the time of imaging will be documented via a standardized data sheet. The applied CT protocol routinely comprises a non-contrast-enhanced cranial CT (CCT), CT angiography (CTA) of the aorta as well as a portal-venous phase of the chest and abdomen. Complementary scans will be performed as clinically indicated. The aim of this single-center prospective cohort study is to evaluate the performance of an optimized CT protocol for this patient cohort and whether a reduction of ECMO flow rate improves contrast enhancement of critically relevant vessels in these CT examinations in comparison to a non-reduction cohort.
RapidShock Post-Approval Study
Cardiac ArrestCompare the performance of the Reconfirmation Analysis Mode algorithm to the performance goals recommended by the American Heart Association.
Obstetric Life Support, a Curriculum to Effectively Resuscitate Pregnant Patients Experiencing Cardiac...
Cardiac ArrestPregnancy RelatedThe objective of the study is to determine if Obstetric Life Support Program (OBLS) has an effect on the confidence and skills knowledge in participants.
The PulsePoint Study
Out-Of-Hospital Cardiac ArrestHeart Arrest2 moreThis randomized controlled trial will evaluate whether use of the PulsePoint system increases bystander CPR or defibrillator use compared to standard dispatch procedures in patients who suffer non-traumatic, out-of-hospital cardiac arrest in a public location. Half of all suspected cardiac arrest 9-1-1 calls in a public location will receive PulsePoint alerts (treatment arm). The other half of this eligible patient cohort will receive standard dispatch procedures (control arm).
Just in Time Cardio Pulmonary Resuscitation Trial
Cardiopulmonary Arrest With Successful ResuscitationEducational ProblemsThe objective is to evaluate the effectiveness of a Just in Time (JiT) video as compared to the AHA Heartsaver® Course and no training (control) in ability to correctly perform CPR. The secondary objective is to assess skill retention 3-9 months after the AHA Heartsaver course with and without JiT Video use. The goal of this work is to study the effectiveness of this new JiT video to improve objective knowledge- and performance-based measures of effective OHCA response, as well as subjective ratings of preparedness and likeliness to respond, compared to the standard AHA Heartsaver® CPR AED Training course.
Blood Pressure and Cerebral Blood Flow After Cardiac Arrest
Out-Of-Hospital Cardiac ArrestPost-Cardiac Arrest SyndromeComatose patients that are admitted to an intensive care unit after out-of-hospital cardiac arrest (OCHA) have a high mortality, particularly due to hypoxic-ischemic neurologic injury. These patients often require vasopressors to maintain mean arterial pressure (MAP), but it is unclear what level of MAP should be aimed for. The objective of the study is to evaluate whether cerebral blood flow (CBF) and cerebral metabolism can be increased by maintaining MAP at a higher level than that used in clinical practice. The study will include twenty comatose patients within two days following resuscitation after OCHA. In the study, MAP is adjusted by infusion of noradrenaline, to a low, moderate, and high level for a short time. The low level of MAP used in the study, corresponds to the level aimed for in clinical practice. The CBF will be evaluated on the neck using ultrasound.
Compression Is Life In Cardiac Arrest - Human Study (CILICA-HS).
Cardiac ArrestCardiopulmonary ResuscitationThe management of out-of-hospital cardiac arrest is complex and multifactorial. With an incidence between 5 and 15 per 10,000 (46,000 patients per year in France) and a survival rate of only 5% to 15%, the room for improvement remains significant even today and is based on fast and optimal care. Thus French and international recommendations insist on the central element of external chest compression (ECC) and especially its quality (Monsieurs KG and Al. Resuscitation 2015; 95: 1-80). Improving the chest compression fraction (CCF) by limiting time without cardiac massage (No-Flow) is a second major point of the recommendations (Vaillancourt C and Al. Resuscitation 2011; 82: 1501-7). The survival of cardiac arrest victims is closely related on this No-Flow time. The principle of the chain of survival (early warning - ECC - defibrillation - resuscitation) implies that the deterioration of a single link threaten the whole of the care. To meet these qualitative needs, ECC guidance devices have been developed. They make possible to improve the quality of the ECC achieved (Hostler D and Al. BMJ 2011; 342d512). Their use is one of the areas of improvement mentioned in the recommendations. Our team studied in simulation the prolonged effects of guidance on the quality of the ECC during a prolonged resuscitation, with encouraging results (Buléon C and Al. Am J Emerg Med 2016; 34: 1754-60). The investigators propose a study evaluating the efficiency of the guidance of the ECC and the impact of the time of relay on the CCF. The investigators formulate two hypotheses that they wish to test simultaneously using a 2x2 factorial design, in a multicenter randomized trial. The first assumption is that a 4-minute relay rate improves the CCF (by reducing the No-Flow time) compared to the currently recommended 2-minute relay rate. The second hypothesis is that a guiding device improves the quality of the ECC. This study should, over a period of 2 years, include 500 patients with cardiac arrest for whom specialized resuscitation is undertaken. The investigators hope by this study to improve the knowledge on the optimal rhythm of the ECC and to validate "in vivo" the interest for the guidance found on manikin. This study should make it possible to clarify the recommendations with a high level of evidence in this field and thus contribute to improving the prognosis of the victims of an out-of-hospital cardiac arrest.
Research on Key Technologies and System Optimization of Early Warning and Resuscitation of Cardiac...
EmergenciesStudies have shown that early prevention and warning of cardiac arrest, rapid implementation of high-quality cardiopulmonary resuscitation, and strengthening of organ function protection after resuscitation are the keys to reducing the occurrence of cardiac arrest and improving the prognosis of patients. However, there are still many problems in the field of cardiopulmonary resuscitation in my country: 1) lack of effective prevention and early self-rescue system for cardiac arrest; 2) traditional resuscitation techniques implemented in pre-hospital and emergency rooms and poor results; 3) organs after resuscitation Insufficient protection means and effects. In our early stage, focusing on the above key issues, the study found that 5G technology can help high-risk emergency events including early warning, early detection and first aid of cardiac arrest. Aortic balloon occlusion can significantly improve the effectiveness of cardiopulmonary resuscitation. Transesophageal and CRRT cooling Can significantly optimize the organ protection intensity of therapeutic hypothermia. On the basis of the preliminary work, this project will carry out the research and development and clinical application of a series of new technologies for cardiac arrest warning and resuscitation, and work hard to help with cardiac arrest. Early warning and treatment of cases provide a set of optimized diagnosis and treatment technical solutions, which has important scientific, clinical and social significance.
A Comprehensive Evaluation of Hyperbaric Oxygen Therapy in Resuscitation Medicine - A Pilot Study...
Heart ArrestBrain InjuriesIn this prospective pilot study, the effects of hyperbaric oxygen therapy (HBOT) in post-cardiac arrest syndrome will be evaluated. However, the primary outcome of this pilot study will be the feasibility of this approach. If feasibility is determined, a larger study with adequate powering is to follow.
Ventilation Monitoring in OHCA
Out-Of-Hospital Cardiac ArrestThis is a before-and-after study examining the impact of real-time ventilation monitoring during out-of-hospital cardiac arrest. Study investigators will compare ventilation quality (rate, volume) performed during the resuscitation without the real-time feedback (before phase), to ventilation quality with the use of real-time feedback using the Zoll Accuvent device (after phase).