The Jewel IDE Study
Sudden Cardiac ArrestThe Jewel IDE Study: A Clinical Evaluation of the Jewel P-WCD in Subjects at High Risk for Sudden Cardiac Arrest. ("JEWEL")
A Randomised Trial of Expedited Transfer to a Cardiac Arrest Centre for Non-ST Elevation Out-of-hospital...
Out-Of-Hospital Cardiac ArrestThe aim of ARREST is to determine the best post-resuscitation care pathway for out of hospital cardiac arrest patients without ST-segment elevation. The investigators propose that changes to emergency management comprising expedited delivery to a specialist heart attack centre with organised post-cardiac arrest care including immediate access to reperfusion therapy will reduce mortality in patients without STE compared to the current standard of care, which comprises protracted pre-hospital management of the patient without definitive care plan and delivery to geographically closest hospital.
Impact of NIRS-guided Cardiopulmonary Resuscitation After Cardiac Arrest on Resuscitation Rate
Cardiac ArrestCardiopulmonary Arrest With Successful Resuscitation1 moreSudden cardiac death is one of the main causes of morbidity and mortality worldwide. Cardiac arrest requires prompt intervention by cardiopulmonary resuscitation (CPR). The resuscitation guidelines are the current recommendations for CPR and are revised by expert panels such as the "European Resuscitation Council (ERC)". Up to now, a parameter for assessing the quality of CPR is missing and further monitoring methods are urgently needed. Near-infrared spectroscopy (NIRS) is a portable method for measuring regional oxygen levels in the brain. Recent clinical trials suggest that cerebral oxygenation measured by NIRS may correlate with survival and outcome after cardiac arrest. The investigators propose that NIRS technology may not only be suitable to determine or predict the outcome of the patients, but could also be a useful tool to guide the CPR providers to optimize the CPR techniques and guide the individual treatments/interventions. The present study was therefore designed to determine if NIRS guided CPR with the aim to optimize NIRS values is superior compared to the current standard practice according to published CPR guidelines (return of spontaneous circulation [ROSC] rate, short and long-term cerebral performance).
Targeted Therapeutic Mild Hypercapnia After Resuscitated Cardiac Arrest
Out-Of-Hospital Cardiac ArrestThe TAME Cardiac Arrest trial will study the ability of higher arterial carbon dioxide (PaCO2) levels to reduce brain damage, comparing giving patients 'normal' to 'slightly higher than normal' blood PaCO2 levels and assessing their ability to return to normal life-tasks. It will be the largest trial ever conducted in heart attack patients in the intensive care unit. This therapy is cost free and, if shown to be effective, will improve thousands of lives, transform clinical practice, and yield major savings.
Prospective Deployment of a Cardiac Arrest Response System (EDICARS) in the Emergency Department...
Cardiac ArrestBased on data from the American Heart Association's (AHA) Get With the Guidelines-Resuscitation (GTWG-R) registry, the incidence of adult treated in-hospital cardiac arrest (IHCA) was about 10 per 1,000 bed-days (290,000 patients per year), and 15 to 20% of adult IHCA patients survived to hospital discharge (i.e., ~80% mortality). Despite the significant morbidity and mortality caused by IHCA, ED-based IHCA is surprisingly less studied. The investigators have utilized electronic medical record (EMR)'s big data (>700,000 visits) from our hospital to investigate, for the first time, the epidemiology and outcome of IHCA in the ED in Taiwan. The investigators also have developed and validated a simple prediction tool for ED-based IHCA, the Emergency Department In-hospital Cardiac Arrest Score (EDICAS). This tool has also been externally validated using Far Eastern Memorial Hospital's ED data. In addition, the investigators also have developed and validated a vital-sign trajectory-based longitudinal model (group-based trajectory modeling [GBTM]) to predict ED-based IHCA. Based on these studies, the investigators now propose to (1) Embed the EDICAS into our hospital information system (HIS) in real-time at ED triage to identify high-risk patients (EDICAS 6+); and (2) Distribute wearable smart wristbands to high-risk patients to augment vital signs monitoring and send alerts based on GBTM results. The detection and intervention components together form the rapid response system, the Emergency Department In-hospital Cardiac Arrest Response System (EDICARS). In this study, the investigators will enroll and randomize 10 attending physicians into the EDICARS or the usual care arm for 3 months, with each of them treating 100 patients (patients clustered within physicians). The trial will stop for 2 months as a wash-out period, and an interim analysis will be performed. The physicians will then cross over, and each of them will treat 100 patients for another 3 months. A total of 2,000 adult patients will be enrolled. The primary outcome is a composite rate of ED-based IHCA and intensive care unit (ICU) admission. The secondary outcomes include time from ED triage to ED-based cardiac arrest, ICU and hospital length of stay, early ward-based IHCA, and early ICU transfer.
The Application of Ketamine for Sedation in Patients With Cardiac Arrest - - KetCat (KETamine in...
Cardiac ArrestOut-Of-Hospital2 moreRecent evidence suggests ketamine may attenuate harmful cellular cascades taking place after brain injury that result in permanent damage. The investigators are interested in researching the application of this in the setting of cardiac arrest. Following cardiac arrest, the brain is deprived oxygen for a period of time, leading to the imitation of these harmful cellular processes. The investigators hypothesize that patients who receive ketamine as part of their standard sedation procedures during cardiac arrest treatment have better neurological functioning compared to those who do not.
Ceftriaxone to PRevent pneumOnia and inflammatTion aftEr Cardiac arresT (PROTECT)
Out-Of-Hospital Cardiac ArrestPneumoniaRandomized-controlled trial and microbiome assessment to understand the risk-to-benefit ratio of prophylactic antibiotics (Ceftriaxone) vs placebo in patients with pneumonia and inflammation after cardiac arrest outside the hospital.
Comparison of Scores for Early Brain Damage Assessment at Intensive Care Unit Admission After Cardiac...
Cardiac ArrestEven in patients with successful return of spontaneous circulation (ROSC), outcome after cardiac arrest remains poor. The overall in-hospital survival rate widely varies both worldwide and across communities, from 1 to 4 folds according to circumstances of arrest and post-resuscitation interventions. Several studies have already shown that early interventions performed after ROSC, such as treatment of the cause, targeted temperature management, optimal hemodynamic management and extra-corporeal life support in selected patients, could improve the outcome in post-cardiac arrest patients. However, the decision process regarding the allocation of these resources, in parallel with the management of patients' proxies, remains a complex challenge for physicians facing these situations. Consequently, several prediction models and scores have been developed in order to stratify the risk of unfavorable outcome and to discriminate the best candidates for post-resuscitation interventions. Overall, several scores exist, but external validation are lacking and direct comparisons are needed to assess relative interest of scoring systems. Indeed, establishing the optimal scoring system is crucial, for optimal treatment allocation and appropriate information to relatives.
Cardiac Arrest Bundle of cARE Trial
Cardiopulmonary ResuscitationCardiac Arrest1 moreAn out-of-hospital cardiac arrest is a sudden event where the heart stops beating and a person becomes unresponsive. During this event, vital organs in the body receive no blood flow, causing them to shut down. Without intervention to restart the heart, a person effectively dies. In the UK, around 60,000 people experience cardiac arrests each year, with most occurring at home. Despite prompt emergency service response, survival rates are typically low. There is technology available that has the potential to improve survival rates for out-of-hospital cardiac arrests. The intervention involves three devices used together: head-up position CPR (Elegard), active compression-decompression mechanical CPR (Lucas AD), and the Impedance Threshold device (Resqpod-16). When combined, these devices can enhance blood flow during resuscitation, potentially leading to improved initial resuscitation rates and higher rates of survival with normal brain function after a cardiac arrest. A pilot study is planned to test the feasibility of using these devices. The results will inform the design of a larger study to determine if this technology can indeed improve survival rates in out-of-hospital cardiac arrests.
Efficacy of Early Intravenous High-dose Vitamin C in Post-cardiac Arrest Shock.
Cardiac ArrestAmong patients admitted after an out-of-hospital cardiac arrest (OHCA) in intensive care unit (ICU), almost two thirds of patients will develop in the first hours a post-cardiac arrest (CA) shock. This post-CA shock, combines cardiac and hemodynamic failure, generally resulting in multi-organ failure and early death in up to 35% of patients. Experimental data suggest that intravenous ascorbic acid (vitamin C) may attenuate inflammation and vascular injury related to sepsis or surgery. Preclinical and clinical studies also provide safety data of high dose intravenous vitamin C (> 200mg/kg/day) with no significant adverse event reported and favorable impact on outcome. Experimental data also suggest beneficial effect of vitamin C in post-CA management with improvement of shock and multi-organ failure with potential benefit on neuroprotection and outcome. The study is a phase II multicenter prospective controlled open-label trial randomized in two parallel groups : Expérimental group: Standard of care care for post-CA shock + Vitamin C (Vit-C) 200mg/kg/d IV (started as early as possible, no later than 1 h after randomization + thiamin (Vit B1) 200mg every 12 h during 3 days. Control group: Standard of care care for post CA shock according international guidelines. Patient number to be enrolled : 234, Study duration :24 months and 28 days, Inclusion duration : 24 months, Patient participation : duration : 28 days