Active clinical trials for "Out-of-Hospital Cardiac Arrest"

Death from cardiac disease is one of the most common causes of death in the western world. The majority of these deaths takes place outside hospital as sudden cardiac death. However, with immediate (within minutes) actions such as cardiopulmonary resuscitation (CPR) and defibrillation many lives would be saved. CPR is a key factor to increase survival from Out of Hospital Cardiac Arrest (OHCA). CPR buys time by supporting the brain with some circulation in waiting for a defibrillator that can restart the heart. In Sweden about 2,5 million people are trained in CPR. However, only about half of all OHCA victims will get CPR in waiting for ambulance arrival. The aims of the Response to Urgent Mobile message for Bystander Activation (RUMBA) trial is to try a new way of logistics to increase bystander CPR by recruiting lay volunteers to nearby OHCAs via their mobile phones. Hypothesis: By dispatching lay volunteers to nearby OHCAs with mobile phone technology bystander CPR may increase from 50% to 62,5 %

The hypothesis of this study is Dispatcher-Activated Neighborhood Access Defibrillation and Cardiopulmonary Resuscitation (NAD-CPR) would improve survival of out-of-hospital cardiac arrest (OHCA).

Clear, concise, yes, and no answers can be challenging to achieve in the assessment of consciousness and breathing in out-of-hospital cardiac arrest (OHCA) calls. Often callers will provide an unclear response, and this can lead to hesitation on the part of the Emergency Medical Dispatcher (EMD). Further, the relatively small proportion OHCA calls represent might demand the need for simulation training in the dispatcher-assisted cardiopulmonary resuscitation (DA-CPR) guiding itself. Therefore, the investigators investigate whether low-dose, high-frequency (LDHF) simulation-based training of EMDs can increase the quality of DA-CPR in a simulation setting. Additionally, the investigators measure whether the effect of the training will be transferred to real OHCA calls. The study is a randomised controlled trial comparing LDHF simulation-based training to standard quality improvement of the EMD in a single centre. The study protocol is structured according to the SPIRIT 2013 statement, and the study will be reported in compliance with the CONSORT 2010 Statement. The investigators chose EMDs receiving standard quality improvement as the comparator group, to reflect a representative cohort of the EMDs not exposed to the LDHF simulation-based training program. The aims of this study are: To measure the effect of LDHF simulation-based training on the quality of DA-CPR in a simulation setting. To measure the effect of LDHF simulation-based training on the quality of DA-CPR in real OHCA calls. The investigators hypothesise that LDHF simulation-based training will increase the quality of DA-CPR in the intervention group in a simulation setting and that this improvement is transferred to real OHCA calls - although the effect in real OHCA calls might be smaller due to the complexity of some calls. The investigators hypothesise that this improvement can be detected as a decrease in time to first bystander compression (TTFC), an increase in clarification of consciousness and breathing without asking additional questions, a decrease in time to recognition of cardiac arrest, and an increase in calls where the EMD provide DA-CPR instructions on patients in cardiac arrest.

Direct medical control using video conferencing capabilities of smartphones has never been conducted in out-of-hospital cardiac arrest patients. This study was conducted to investigate its feasibility and treatment effectiveness in out-of-hospital cardiac arrest (OHCA) patients using a real-time smartphone video call.

This is a large pragmatic, randomized controlled trial comparing pre-hospital initiation of therapeutic hypothermia by Emergency Medical Services (EMS) providers to conventional post-resuscitation care. The goal of this trial is to increase the proportion of cardiac arrest patients that are appropriately treated in-hospital with therapeutic hypothermia to reach the target body temperature within 6 hours of hospital arrival. The investigators believe that EMS-initiation of cooling will be a powerful reminder to in-hospital clinicians to continue therapeutic hypothermia, and will lead to care improvements across a health system.

Background： Cardiopulmonary resuscitation (CPR) with closed-chest cardiac massage has been shown that survival to discharge rate is poor. Attempt to increase success, some aggressive methods such as extracorporeal membrane oxygenation (ECMO) has been used (also known as extracorporeal cardiopulmonary resuscitation, ECPR). Otherwise, anoxic brain injury is another issue after CPR. In recent years, some randomized prospective controlled trials of induced hypothermia (IH) to 33℃ for 12 to 24 hours has been demonstrated to significantly improve outcome in cardiac arrest patients. Because ECMO also could provide hypothermia management, we plan this study to evaluate the cerebroprotective effect of ECPR with induced hypothermia. We will try to analyze risk factors influencing patient survival and weaning from ECPR and the optimal management for this ominous prognosis group. Method: The patients were recruited into the ECPR group only if they: in cardiac arrest that necessitated external or open-chest cardiac massage and a large amount of epinephrine (>5 mg) during CPR. Could not be returned to spontaneous circulation within 10 to 20 min. After ECPR, the body temperature was started to be cooled down. Within 3 hours, the patients have been well studied to search for potential reason of CPR. If the patients have no heart problem or only intervention needed, they can be grouped into 1. Group 2 is the group, which some further operation must be delivered. Group 3 is the group who cannot afford to receive hypothermia (The physician in charge don't agree the trial.) In ECMO-supported patients, two resulting comparisons were of concern: 1) ECMO weaning versus nonweaning and 2) survival-to-discharge versus in-hospital death. We attempted to identify the risk factors that affected weaning and survival, and we analyzed the effect of ECPR with hypothermia on survival. Expected result: We will prove ECPR with hypothermia is a perfect strategy. And within three groups of the patients, ECMO +induced hypothermia will be the most optimal choice.

Out-of-hospital cardiac arrest (OHCA) is one of the leading cause of death in the world. In Slovenia approximately 25% of resuscitated patients survives to discharge from hospitals, usually with poorer functional status. One of key pathophysiological process responsible for poorer functional status is global hypoxic-ischemic injury, which is two-stage. Primary stage occurs immediately after cardiac arrest due to cessation of blood flow. With return of spontaneous circulation a secondary injury occurs, of which the leading process is an imbalance between oxygen delivery and consumption. Reperfusion exposes ischemic tissue to oxygen, resulting in the formation of large amounts of highly reactive oxygen species (ROS) within minutes. ROS lead to oxidative stress, which causes extensive damage to cell structures and leads to cell death. Consequently, necrosis and apoptosis are responsible for organ dysfunction and functional outcome of these patients. Such injury of neural tissue causes brain damage, which is ultimately responsible for poor neurological and thus functional outcome of OHCA survivors. The extent of brain damage can be determined in several ways: clinically by assessing quantitative and qualitative consciousness and the presence of involuntary movements in an unconscious patient, by assessing activity on electroencephalographic record, by imaging of the brain with computed tomography and magnetic resonance imaging, as well as by assessing levels of biological markers of brain injury. Of the latter, the S-100b protein and neuron-specific enolase have been shown to be suitable for such assessment. Oxidative stress is counteracted by the body with endogenous antioxidants that balance excess free radicals and stabilize cellular function. Vitamin C (ascorbic acid) is the body's main antioxidant and is primarily consumed during oxidative stress. Large amounts of ROS rapidly depletes the body's vitamin C stores. Humans cannot synthesise vitamin C and enteral uptake of vitamin C is limited by transporter saturation. On the other hand, parenteral (venous) dosing of vitamin C can achieve concentrations of vitamin C above physiological and thus produce a stronger antioxidant effect. The beneficial effect of parenteral dosing of vitamin C has been establish in several preclinical and clinical studies in patients with ischemic stroke and cardiac arrest. The investigators hypothesize that there is a similarly beneficial effect of vitamin C in survivors of OHCA.

This is a pilot study that will lead to a large randomized control trial (RCT), to assess whether early versus late or no cardiac catheterization is associated with improved outcomes in out-of-hospital cardiac arrest (OHCA) patients.

XePOHCAS: Prospective, randomized, multicenter interventional trial in adult subjects with out-of-hospital cardiac arrest comparing treatment with standard-of-care post-cardiac arrest intensive care (which is targeted temperature management [TTM]) to xenon by inhalation plus standard-of-care post-cardiac arrest intensive care (including TTM).

To establish whether a pre-hospital advanced physician/ paramedic cardiac arrest team that is ECMO capable can establish ECMO flow within 30 minutes of collapse. The Sub30 study will investigate the technical and logistical feasibility of instituting pre-hospital Extracorporeal Cardiopulmonary Resuscitation (ECPR) within 30 minutes of collapse for selected patients (n=6) in a geographical sector of Greater London. It will achieve this through a unique collaboration between the primary emergency dispatch and response services (London Ambulance Service NHS Trust, LAS), pre-hospital practitioners (LAS and London Air Ambulance) and clinicians in ECMO (Barts Health NHS Trust).