View clinical trials related to Heart Arrest.
Filter by:The prevalence of cardiac arrests is still high worldwide. Despite the return of spontaneous circulation (ROSC), mortality and morbidity in post cardiac arrest patients is reported high. Comprehensive management is essential in treating patients with post cardiac arrest syndrome. Adequate circulatory stability is achieved with fluid therapy, vasoactive drug therapy, and consideration of mechanical support. Intra-Aortic Ballon Pump (IABP) is one of the most feasible and available mechanical support in developing countries including Indonesia. There are several benefits of IABP reported in acute myocardial infarction complicated with cardiogenic shock. Nevertheless, the IABP-SHOCK II study revealed contradictive result which is IABP support was not improving mortality in acute myocardial infarction complicated with cardiogenic shock after revascularization. Other study, Korean Acute Myocardial Infarction Registry (KAMIR), also reported no benefits of IABP support in cardiogenic shock patients. But, the study the investigators mentioned earlier is a registry study, attributed to selection bias and several confounding factors resulting mismatch in population. There are no consideration to IABP time of initiation and duration of use in both studies. The Investigator is aiming to prove the early insertion of IABP to a better outcome compared with the absence of early IABP. The objective of the study is to assess mortality in post cardiac arrest syndrome patients with early insertion of IABP support. A total of 102 subjects will be enrolled in this study, divided into IABP and non-IABP group. The primary outcome is in-hopital-mortality, and various indicators in the pathomechanisme of post cardiac arrest syndrome will be measured in 30 minutes and 6 hours after ROSC. Effective lactate clearance, IL-6, Beclin-1, Caspase-3, a-vO2 diff, and ScvO2, cardiac output, VTI, TAPSE and ejection fraction will be measured and analized between the two groups.
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 evaluates the use of an additional hemoadsorption device in adult patients undergoing veno-arterial extracorporal membrane oxygenation (ECMO) following cardiac arrest and cardiopulmonary resuscitation in respect to its effects on post resuscitation inflammatory syndrome. At implantation of the ECMO the participants are going to be randomized into a treatment and a control group. The first will be outfitted with a polymer-based adsorption device implemented in the extracorporal circulation established by ECMO for 48h, the control group is going to be treated by ECMO and standard intensive care alone. To detect any significant differences in terms of inflammatory response and patient outcome the investigators will regularly determine the blood levels of certain cytokines in fixed intervalls. In addition, the investigators are going to compare secondary clinical outcome parameters like organ disfunction and 30d mortality.
our aim was to quantitatively compare the quality of chest-compression of the new two thumb chest compression (nTTT) versus the current standard techniques: two finger technique (TFT), two thumb technique (TTHT) as defined by systolic-, diastolic-, mean arterial- and pulse-pressures. Our hypothesis is that nTTT generates higher arterial blood pressures compared to the established TFT and TTHT in an infant manikin model.
This 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.
Hypoxic ischemic brain injury is a devastating illness that occurs after cardiac arrest (the heart stopping) and can yield irreversible brain damage, often leading to death. The mainstay in therapy is to optimize the delivery of oxygen to the brain to help it recover. In patients with traumatic brain injury (similar to HIBI), the investigators are able to optimize oxygen delivery to the brain with the use of wires placed into the brain that sense the pressure and oxygen in the skull to find the ideal blood pressure for each individual patient. This strategy is associated with improved outcomes. The investigators are conducting a prospective study investigating whether the perfusion within proximity to the optimal MAP is associated with improved brain oxygenation and blood flow .
The effectiveness of endotracheal intubation in pre-hospital conditions is insufficient - especially in the context of pediatric patients. Anatomical differences in pediatric patients compared to adults: a relative larger tongue, a larger and more flabby epiglottis - located more cephalously - that make intubation is more difficult than for adults. Also, higher oxygen metabolism requires the immediate response of medical personnel to children in case of need to protect the airways and support breath.
Cardiopulmonary resuscitation (CPR) occurs approximately 200,000 times/yr in hospitals in the UnitedStates, with 18% of patients surviving to discharge. Just over half of these survivors are neurologically intact or with mild defiits at the time of discharge. Do-not-resuscitate (DNR) orders are used to withhold CPR from patients who are unlikely to benefi or for whom it is inconsistent with their treatment goals or personal preferences. It would be helpful to identify patients with a very low likelihood of survival to discharge neurologically intact or with mild defiits were they to experience cardiopulmonary arrest (CPA), so their physician can present the option of a DNR order. This information would also be useful anytime a patient raises the question of the likelihood of survival should they undergo CPA.The objective of this study was to determine key indicators for good outcome in patients with sudden cardiac arrest undergoing CPR and develop a prediction model to predict survival to hospital discharge in these patients.
Out-of-hospital and in-hospital cardiac arrest (CA) requiring intensive care unit management. Data collection using a standardized form : demographic data and data related to the CA according to the Utstein guidelines.. Circumstances of onset, dates and times of onset and control of abnormal movements (myoclonus and.or seizures). On-scene clinical findings, pre-hospital and hospital care providers, timing of various treatments and supportive care, results of etiological investigations, cause of CA. Dates and times of EEG monitoring, EEG results. Outcomes including vital status and Cerebral Performance Category scale score at ICU and hospital discharge, day-90 and 1-year after CA and determined based on data in the ICU and/or hospital/neurologist charts and/or general practitionner phone interview.
Rationale: Veno-arterial extracorporeal membrane oxygenation (vaECMO) during cardiopulmonary resuscitation (ECPR) might improve outcome after cardiac arrest. However, it is well established that reperfusion injury of the brain can cause microvascular and endothelial dysfunction, leading to cellular necrosis and apoptosis. While performing ECPR, following the European resuscitation guidelines, it is yet unknown how to set the ECMO settings in order to minimize ischemia-reperfusion injury of the brain. Objective: In this study, we want to elaborate on the optimal ECMO settings in the first three hours after initiation of ECPR. Study design: Prospective, multi-centre, observational study Study population: All patients receiving ECPR in the age between 18 and 70 years, with low flow duration<60min and receiving cerebral oximetry monitoring Intervention: application of an adhesive regional oximetry sensor on the patient's forehead and withdrawal of 12 ml extra blood in all patients. Main study parameters/endpoints: Cerebral Performance Category at 6 months. Neuron-specific enolase (NSE) will be determined from routine blood drawings.