VectOr ChAnge defibriLlatIon in Refractory Shockable rhyThms
Cardiac ArrestVentricular Fibrillation1 moreManagement of cardiac arrest according to published guidelines has remained largely unchanged for a decade. Thames Valley Air Ambulance provide Critical Care Paramedic and Physician teams who respond to cardiac arrests and offer treatments beyond the scope of ambulance service clinicians. Following a review of practice and appraisal of evidence the investigators developed an additional algorithm for cases of adult medical cardiac arrest with refractory shockable rhythms. This adds to but does not replace the Advanced Life Support algorithm and includes: Delivering shocks with the LUCAS mechanical CPR device running After 5 shocks have been delivered placing new pads in the Anterior Posterior (AP) position Delivering shocks using the TVAA Tempus Pro defibrillator rather than the Ambulance Service defibrillator. This bundle was based on recommendations from ILCOR and the Resus Council (UK) Advanced Life Support manual and was launched in October 2021.
RCT Study of Levosimendan Improving Prognosis of Cardiac Arrest
Heart ArrestThis study is intended to use a multicenter, double-blind, superior effect, placebo controlled randomized controlled clinical trial to explore the therapeutic effect of Levosimendan (within 6 hours after the recovery of spontaneous circulation) on mortality and multiple organ dysfunction such as heart and brain in patients with cardiac arrest who have recovered from active Cardiopulmonary resuscitation but have low cardiac output syndrome and coma, and the impact of 30-day mortality and neurological function after cardiac arrest.
CAvent-Ventilation During Advanced Cardiopulmonary Resuscitation in Out-of-hospital Cardiac Arrest-...
Out-of-Hospital Cardiac ArrestPulmonary VentilationThe aim with this descriptive multicenter study is to examine the quality of the ventilation given by Emergency Medical Service (EMS) personnel during cardiopulmonary resuscitation (CPR). Primary endpoint is the ventilation quality measured as ventilation frequency, tidal volume and minute ventilation. This will primarily be studied during CPR with a 30 compression/2 ventilation ratio performed by the EMS personnel where the airway is managed with a supraglottic device but also in CPR with continuous ventilation (8-10 breaths/minute) after the airway management have been replaced with an endotracheal within the emergency room. The inclusion of patients will be performed at two sites (Uppsala; Sweden and Utrecht; Holland), all out-of-hospital cardia arrest (OHCA) patients will receive care according to current CPR guidelines using mechanical chest compressions.
Predicting Long-term Outcomes After Cardiac Arrest by Using Serum NGAL
Out-of-Hospital Cardiac ArrestThis study was performed to determine the prognosis of patients after cardiac arrest using serum markers called NGAL. The initial NGAL values of patients with post-cardiac arrest syndrome are checked by blood tests, and the long-term neurological prognosis and survival rate are collected after 6 months.
Canadian Sudden Cardiac Arrest Network
Sudden Cardiac DeathSudden Cardiac ArrestThe overall aim of the project is to develop a national registry to accurately measure the burden of Sudden Cardiac Arrest (SCA) among the general Canadian population. This project will create a common platform to link existing sources of information (EMS, Coroner and Administrative Databases) in order to fully understand the causes and outcomes of SCA. This comprehensive, unique registry will inform the progress and effectiveness of all CANet SCA programs aimed at reducing SCA. Understanding the antecedents, causes and outcomes of SCA will allow for new initiatives/investigations to reduce SCA, by using targeted interventions both effectively and efficiently.
Mean Arterial Pressure After Out-of-hospital Cardiac Arrest
Cardiac ArrestOut-of-hospital cardiac arrest is a public health problem for which overall survival is below 10%. Post-cardiac arrest syndrome is the principal cause of death in intensive care units (ICU), due to refractory shock or brain injuries secondary to anoxia. Brain anoxia is responsible for severe neurological sequelae that may be aggravated by cerebral hypoperfusion during the first few hours after the return of spontaneous circulation. Current recommendations are to ensure that arterial blood pressure is sufficient for the perfusion of organs, but no minimum threshold mean arterial pressure (MAP) has been defined. In practice, most teams target a MAP of at least 65 mmHg. Several observational studies have shown a correlation between MAP and neurological prognosis, patients with a higher initial MAP having a better outcome. Recent pilot studies have demonstrated the feasibility of increasing the target MAP after cardiac arrest, but conflicting results have been obtained concerning patient prognosis. These findings may be explained by changes to the autoregulation of the brain after cardiac arrest, with a shift of the curve towards the right, or its abolition. Cerebral blood flow is dependent on MAP, and a target MAP of 65 mmHg for these patients may result in insufficient brain perfusion. Conversely, a too high MAP might cause brain lesions due to vasogenic edema, hemorrhagic complications or excess perfusion in conditions of diminished brain metabolism. An interventional study is required to evaluate the effect of increasing MAP on neurofunctional outcome after cardiac arrest. Given the data available for brain autoregulation, the correlation between MAP and prognosis, and the risks theoretically associated with a higher MAP, investigator plans to compare a standard threshold of MAP (≥ 65 mmHg) with a high threshold of MAP (≥ 90 mmHg). Investigator hypothesizes that a high MAP within the first 24 hours after cardiac arrest will improve neurofunctional outcome.
The Validation and Development of Termination-of-Resuscitation (TOR) Rules in OHCA Patients in Asia...
Out-Of-Hospital Cardiac ArrestObjectives/Hypotheses Prehospital termination-of-resuscitation (TOR) rules were developed in North American and European sites. Whether they remained valid in different geographic, ethnic, and cultural background areas is still under debate. Differences in characteristics of out-of-hospital cardiac arrests (OHCAs) and configurations of emergency medical service (EMS) between the Western and Asian countries, including relatively lower rate of presenting shockable rhythm (i.e. ventricular fibrillation / ventricular tachycardia; VF/VT), lower rates of bystander CPR, less advanced life support (ALS) implementation, and less public access defibrillators, might create potential threats to the prediction accuracy of TOR rules. We aim to conduct a study to validate the performance of ever published TOR rules in Asian OHCA population, including non-traumatic, traumatic, and pediatric OHCA patients. Furthermore, assess the possible variables that may impact the performance of TOR rules. We also aim to develop new TOR rules based on PAROS registry for Asia population, focusing on non-traumatic, traumatic, and pediatric OHCA patients, respectively.
Early Neurological Assessment With Pupillometry in Cardiac Arrest During Resuscitation
Cardiac ArrestOut-Of-Hospital Cardiac ArrestEasy Care study wants to demonstrate a correlation between intra-CPR infrared quantitative pupillometry and return of spontaneous circulation (ROSC). Neurological pupil index (NPi) will be used alone and in association with end-tidal CO2.
Is the Perfusion Index an Accurate Predictor of Return of Spontaneus Circulation in Out-of-hospital...
DeathSudden3 moreThe purpose of this pilot feasibility study is to evaluate the ability of the Perfusion Index to predict the return to spontaneous circulation of the out-of-hospital cardiac arrest patient during cardiopulmonary resuscitation. The performance of the perfusion index will also be compared to the current gold standard, end-tidal CO2 (EtCO2).
Dynamics of the Capillary Lactate Levels in OHCA
Out-Of-Hospital Cardiac ArrestSerial capillary lactate measurements during cardiopulmonary resuscitation (CPR) in patients with out-of-hospital cardiac arrest (OHCA).