View clinical trials related to Out-of-hospital Cardiac Arrest.
Filter by:Resuscitated cardiac arrest is associated with a systemic inflammatory response that is directly associated with poor prognosis. Inhibition of the IL-6 mediated immune response may potentially inhibit the systemic inflammatory response, potentially improving the prognosis of these severely ill patients.
The on-going randomized clinical trial TTM2 (Target Hypothermia Versus Targeted Normothermia After Out-of-hospital Cardiac Arrest, NCT02908308) investigates if there is a difference in mortality, neurological function or quality of life in comatose survivors after out-of-hospital cardiac arrest if treated (Group A) at target temperature of 33 oC or (Group B) by avoiding fever during the first 24 h. In this sub study, the effect of different target temperatures on cardiac and circulatory physiology is evaluated by echocardiography and pulmonary artery catheter. Tissue damage after cardiac arrest in part is caused by an activation of different parts of the inflammatory system (reperfusion injury). This study investigates the effect of temperature management on inflammation and the link to the circulatory effects.
Dispatcher-assisted cardiopulmonary resuscitation is a complex, nonvisual procedure that is challenging for the dispatcher. The aim was to explore the medical dispatchers' perception of bystanders' responses and dispatchers' reflections about the added value of visual information in out-of-hospital cardiac arrests (OHCA) situations.
The aim of this study is to construct multi-center post-cardiac arrest care registry that can be used for data warehousing and clinical research.
The study is a retrospective analysis of Taiwan national health insurance in cardiac arrest patients. The factors related to the outcomes of cardiac arrest patients were analyzed.
The investigator's research proposal is a randomized controlled study evaluating two different monitoring strategies to titrate FiO2 in order to rapidly and safely achieve optimal SatO2 targets during early ROSC of non-traumatic OHCA in adults. Primary hypothesis: Monitoring transport to hospital of sustained ROSC of OHCA patients using multiple wavelength detectors that allow ORI continuous measurement will reduce hyperoxia and hypoxia burden associated with transport. Secondary hypothesis: Multiple wavelength detectors allowing ORI continuous measurement will reduce hyperoxia at ER admission as measured via blood gas analysis. Tertiary study hypothesis: Multiple wavelength detectors allowing ORI continuous measurement will reduce reperfusion neuronal injury measured through NSE levels at 48h post ROSC
Cardiac arrest (CA) early recognition is essential in order to rapidly activate emergency services and for bystanders to begin cardiopulmonary resuscitation (CPR). As soon as a call is received, EMS dispatchers should try to identify CA. This may be difficult, in a context of stress and distress of the person calling. Yet, it is vital for bystanders to initiate CPR. Survival can be multiplied by 2 to 4 if the bystanders initiate a CPR before the arrival of the emergency medical services. This work aim to assess a multifaceted intervention combining 3 elements to improve the initial phone recognition of CA and raise the number of patients benefiting from CPR before EMS arrival on scene. The first element is a dispatcher training to the early phone recognition of CA. This training will be based on the concept of active teaching, favouring the interactive work of learners in particular by listening to real dispatch recordings. It will be completed by continuing education with a distance teaching platform including the systematic listening of recorded CA calls. The second element is based on the deployment of a software aiming to notify CA thanks to mobile phones. This system interfaced to a control software enables to request the participation of CPR-trained volunteers automatically. The volunteers have to be located in the patient's surroundings. The deployment of this mobile application will rely on first-aid volunteers, health personal and any trained volunteers willing to participate. A randomized control study in one city area proved the efficiency of a similar software to improve the proportion of CPR by bystanders. The third element consists in a motivational feedback. A weekly overview of the management and the outcomes of patients who suffered CA will be broadcast to all the responders and volunteers in the mobile application.
This study is a sub-study to the large pragmatic Target Temperature Management 2 Trial (TTM2-trial, ClinicalTrials.gov Identifier: NCT02908308), assessing effectiveness of controlled hypothermia after out-of-hospital cardiac arrest (OHCA). This study is designed to provide detailed information on cognition after OHCA and its relationship to associated factors as emotional function, fatigue, and sleep. A secondary aim is to utilize this information to validate a neurocognitive screening battery used 6 months after OHCA in the TTM2-trial. Approximately 7 and 24 months after OHCA, survivors at selected TTM2 study sites will perform a standardized neuropsychological assessment including performance-based tests of cognition and questionnaires of behavioral and emotional function, fatigue, and insomnia. At 1:1 ratio, a control group of myocardial infarction (MI) patients but no occurrence of cardiac arrest will be recruited and perform the same test battery. Group differences at 7 and 24 months will be analyzed per cognitive domain (verbal, visual/constructive, short-term working memory, episodic memory, processing speed, executive functions). Results of the OHCA survivors on the TTM2 neurocognitive screening battery will be compared with neuropsychological test results at 7 months time.
The Target Temperature Management trial 2 (TTM2) is an international multi-center study, that randomize patients with OHCA of a presumed cardiac or unknown cause to target temperature management at 33°C or normothermia but avoiding fever (37.8°C) for the first 24 hours after the OHCA. The TTM2 study (clinicaltrials.gov Identifier NCT02908308) includes a detailed follow-up of functional outcome, health-related quality of life and neurocognitive function at 6 and 24 months post-arrest. This protocol describes a sub-study within the TTM2 trial that specifically focus on physical activity among the OHCA survivors.
The primary aim of this study is to investigate the feasibility and complications of inserting a REBOA-catheter to patients suffering from non-traumatic out-of-hospital cardiac arrest, by anesthesiologist working in the pre-hospital setting. The study will include patients in the catchment population of St. Olavs University Hospital, Trondheim area, Norway. The REBOA technique (resuscitative balloon occlusion of the aorta) is a well-known treatment used on other indications, both in-hospital and pre-hospital. It has also been utilized in several animal studies on non-traumatic cardiac arrest and has shown to augment myocardial and cerebral perfusion during cardio-pulmonary resuscitation. There are no systematic studies on humans with REBOA in non-traumatic cardiac arrest. The study will also investigate the time needed to perform a REBOA procedure in cardiac arrest patients receiving advanced cardiac life support. This additional treatment might contribute to increase the survival rate of cardiac arrest patients.