View clinical trials related to Heart Arrest.
Filter by:The majority of survivors suffering an out-of-hospital cardiac arrest (OHCA) are those who initially present with a shockable rhythm, which is usually ventricular fibrillation (VF). When untreated, VF progresses to asystole over a short period of time so the percentage of those with a survivable rhythm also decreases with time. There is relatively little data exploring the initial rate of VF and the time course of its subsequent progression to a non-shockable rhythm. An understanding of this data will give a better picture of how potentially survivable rhythms (VF) change with time and guide the response times that are required to ensure arrival before VF deteriorates to asystole. The Investigators will use the UK OHCA outcomes database to examine the percentage of patients presenting with VF as the initial rhythm according to time since collapse in order to establish the rate at which VF deteriorates to asystole.
Within a six-year period from 2016-2021, this retrospective cohort study aims to: 1) report the national incidence of drowning related OHCA's among cases attended by the Danish Emergency Medical Services (EMS), 2) assess survival defined as return of spontaneous circulation (ROSC) on scene, by hospital admission and 30-day survival. Furthermore, aspects associated with better outcome are evaluated including actions taken by EMS-personnel and laypersons, geographical localization, type of activity, witnessed event, EMS response times, bystander CPR, initial rhythm, use of defibrillator, airway devices, pre-hospital medication, and patient demographics. This can potentially result in recommendations towards certain educative, preventative, rescue, or treatment strategies to reduce OHCA from drowning.
Evaluating the prognosis of comatose patients after cardiac arrest (CA) in the intensive care unit (ICU) remains challenging. It requires a multimodal approach combining standardized clinical examination, serum biomarkers, imaging and classically electrophysiological examinations, (among them auditive evoked potentials or AEP) but none has a sufficient sensitivity/specificity. In a preliminary study, the investigators developed an algorithm from the signal collected with AEP, and generated a probability map to visually classify the participants after the algorithm processing. Participants could be classified either with a good neurological prognosis or with bad neurological prognosis or death. The investigators hypothesize that the "PRECOM" tool, applied blindly to a large prospective multicenter cohort of patients admitted to intensive care for coma in the aftermath of CA will predict neurological prognosis at 3 months with high sensitivity and specificity.
With ethical approvement, the investigators want to assess the incidence, circumstances and outcomes of patients with perioperative cardiac arrests over a period of 8 years. Currently, there is little data and information about a cardiovascular arrests during anesthesia. Little is also known about the health-related quality of life afterwards. In the investigators research project, the investigators want to find out if there are, for example, specific factors that cause cardiovascular arrests and factors that can improve the chances of survival after a cardiovascular arrest. The investigators are also looking for possible factors and measurements that can minimize or even prevent future events during anesthesia.
Previous studies reported that the introduction of the role of the CPR Coach in resuscitation teams led to an increase in the adherence of CPR to AHA guidelines by the team. To date, the interaction between the CPR Coach and the Team Leader during the performance of CPR remains poorly studied. In this study, the investigators aim to evaluate whether the interaction between the CPR Coach and the Team Leader brings real benefits to the cognitive engagement of the latter and therefore whether or not his leadership and the overall performance of the team is affected.
Out-of-hospital cardiac arrest is a leading cause of death worldwide and patient outcome vary substantially throughout regions suggesting further evaluation and potential for improvement.When focussing on subgroups of OHCA, data in certain areas remains scarce and the need of revised guidelines is evident. Furthermore, enhanced knowledge on these varieties of OHCA's apply to substantial number of patients, also among vulnerable populations. The Danish Emergency Medical System introduced a nationwide registry of electronic medical reports in 2016. This report system allows electronic searches and thereby the opportunity to identify subgroups of OHCA's. Thus, this novel reporting enables the evaluation of new characteristics of cardiac arrests of non-cardiac origin, in cases where an automated external defibrillator (AED) is retrieved but did not recommend defibrillation and finally in OHCA related to foreign body obstruction. With the advantages of artificial intelligence, this project will enhance and strengthen data from the Danish Cardiac Arrest Registry. It may substitute the manual validation of the around 9000 cases per year in Denmark. Further, it proposes improvement of quality and development of observational health research.
This study evaluates data from patients in The Danish Medical Service electronical registry over a 6-year period from 2016 to 2021 with traumatic cardiac arrest. The objective of this study is to use artificial intelligence to evaluate reversible causes and relevant circumstances regarding traumatic OHCA in order to improve treatment and survival.
Veno-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.
The Carilion Clinic and Virginia Tech Carilion School of Medicine, in conjunction with Roanoke Fire-EMS, Botetourt County Department of Fire & EMS and Salem Fire-EMS, are studying the outcomes of patients experiencing Pulseless Electrical Activity (PEA). PEA refers to a type of cardiac arrest in which there is normal electrical activity in the heart however the heart still fails to contract to generate a pulse. Without heart contractions, which normally generates a pulse, the brain and other important organs fail to receive blood and oxygen. Unfortunately, the majority (97.3%) of patients that experience this rhythm do not survive and most don't even make it to the hospital. This study is trying to determine if the administration of a High Calcium, Low Sodium (HCLS) fluid in pre-hospital care will improve the chances of survival. Generally, a sodium (salt) solution is provided to patients experiencing cardiac arrest. Studies have shown that lower sodium and higher calcium content may activate certain parts of the heart cells required to generate a pulse under PEA conditions. This study is a double-blind, prospective, clinical trial. PEA patients will randomly receive either routine fluid therapy (salt solution) or a HCLS solution. While HCLS solution is not the standard fluid used by EMS providers responding to PEA, it is composed of FDA approved components and is occasionally used by EMS providers at their discretion in treating PEA. It is predicted that HCLS will either improve PEA survival or deliver similar outcomes as routine treatment. All patients will receive standard, high quality cardiac arrest and post-cardiac arrest care regardless of assigned treatment group.
Regurgitation is an adverse event common during cardiopulmonary resuscitation (CPR) and occurs in 20%-32% of patients experiencing out-of-hospital cardiac arrest (OHCA). It can impair ventilation, induce aspiration, and decrease survival to hospital discharge. Gastric fluid in the airway obscures the laryngeal view, thereby considerably decreasing the first-pass success of endotracheal intubation (ETI) by paramedics. A human cadaver study reported that ETI outperforms other airway management devices, such as the i-gel, laryngeal mask, and laryngeal tube, in preventing aspiration when regurgitation occurs during CPR. However, ETI is also associated with multiple and prolonged CPR pauses.Compared with the use of supraglottic airway (SGA) devices, ETI results in more hands-off time during CPR. Recent randomised clinical trials have revealed that airway management with an SGA device provides superior outcomes to those of ETI in patients with OHCA. However, ETI remains the preferred management strategy for an airway affected by regurgitation in patients with OHCA. Current guidelines focus on the quality of CPR because it is a key determinant of survival in patients with OHCA. However, evidence regarding the impact of regurgitation during ETI on CPR quality is limited. This manikin simulation study assessed CPR quality during ETI in airways with and without regurgitation.