View clinical trials related to Heart Arrest.
Filter by:Malnutrition is a frequent problem in critically ill patients that is associated with detrimental clinical outcomes. To provide adequate nutritional support, current studies focused mostly on the choice of delivery timing, formula selection and the route of administration, little attention was paid to malnutrition related to exocrine pancreatic insufficiency (EPI). In fact, malnutrition is also a major consequence of pancreatic exocrine insufficiency and pancreatic damage is commonly observed in critically ill patients without prior pancreatic diseases. Hence, EPI associated malnutrition should be concerned due to the high prevalence of pancreatic damage in critically ill patients. The aims of this study is to evaluate the incidence of EPI in critically ill adult patients and explore its potential risk factors. Moreover, the efficacy of pancreatic enzyme supplementation therapy on malnutrition in ICU patients with specific clinical characteristics will be investigated.
The purpose of this study is to assess the effect of stearidonic acid when used as a food ingredient on eicosapentaenoic enrichment of red blood cell membranes and Omega-3 Index in men and women.
"Sudden cardiac arrest" occurs when someone's heart stops beating unexpectedly. Each year, more than 45,000 Canadians have a cardiac arrest. A bystander can do three things to improve survival: Call 911,start chest compressions and apply a defibrillator. Together, these actions can increase survival by up to 800%. The problem is that bystanders to cardiac arrest only provide CPR in about 3 of every 10 cardiac arrest cases and AED use in about 3 of every 100 cardiac arrest cases. There are many people in the community who are trained and willing to provide help for cardiac arrest victims such as off-duty paramedics, fire fighters, nurses, etc. When a cardiac arrest occurs in the city, it is likely that one of these people is nearby, but unaware of the emergency. The PulsePoint smartphone application enables these people to be notified by the local emergency 911 service when there is a cardiac arrest near to them. It can be freely downloaded to several common types of smartphones. When there is a cardiac arrest emergency, all nearby PulsePoint users are sent an alert from the 911 service. When the phones receive the alert, they ring, vibrate and display a text message saying "CPR NEEDED". The user's current location and the exact location of the cardiac arrest are then displayed on a map. Nearby public access AEDs are also indicated on the map. The smartphone users can then go to provide chest compressions and use an AED while paramedics are on their way. A video at www.pulsepoint.org shows how this works. The objective of the investigators is to measure whether the PulsePoint smartphone application increases bystander CPR or AED use for victims of cardiac arrest outside the hospital. This project will happen in the City of Toronto. The investigators have a plan to get as many people as possible to download the application, focusing on health care professionals who know CPR. The investigators will set up a webpage that helps people download the software to their phone. The investigators will randomize 911 calls to have a PulsePoint alert sent or not. The investigators will use statistical analysis to measure whether sending an alert to a smartphone increases the chances of bystander resuscitation.
Cardiopulmonary resuscitation (CPR) is used to maintain adequate perfusion of vital organs in cardiac arrest patients and is fundamental for the neurological outcome and survival of these individuals. Unfortunately, the quality of CPR may be inadequate due largely to ineffective chest compressions resulting from rescuer fatigue and interruptions in compressions. The LUCAS device (Lund University Cardiopulmonary Assist System, Jolife, Lund, Sweden), introduced in 2002, is the most extensively tested and applied automated alternative to manual CPR for in-hospital care of cardiac arrest patients and during ambulance transfer; the feasibility of application of this device in helicopter emergency medical service (HEMS) operations, however, has never been addressed. The objective of this project is to equip the three active rescue helicopters in South Tyrol with the LUCAS 2 mechanical chest compression device to answer the question: What is the feasibility and efficiency of using this device for prolonged CPR in cardiac arrest patients requiring CPR during HEMS rescue operations and transport?
The purpose of the S-ICD Post Approval Study is to document long term safety and effectiveness outcomes associated with the implantation of the SQ-RX pulse generator and Q-TRAK electrode in a commercial clinical setting.
Mild hypothermia improves neurological outcome after cardiac arrest. Neuromuscular blockers are in use, together with analgesia and sedation, during the cooling process in many centers to prevent shivering. Since neuromuscular blockers are accused to be associated with various side effects causing serious harm and/or leading to prolong ICU stay. So economical use seems to be reasonable. Furthermore, the use of neuromuscular blockers may mask epileptic activity. Therefore, post hypoxic seizures might remain undetected. Aim of this study is to investigate if a continuous application of neuromuscular blockers is necessary to prevent shivering and thereby avoid the counter regulation to achieve the target temperature as soon as possible in mild hypothermic therapy after cardiac arrest. A single center (university hospital) study. Randomized, double blinded, double dummy study design. Eligible are all adult patients after successful resuscitation due to cardiac arrest of presumed cardiac origin. All patients receiving mild therapeutic hypothermia after cardiac arrest of presumed cardiopulmonary origin will be included. Patients <18 years, cardiac arrest >6 hours before admittance at the hospital, patients with known or clinically apparent pregnancy, patients who reach our hospital with a body temperature below 35°C, patients with known allergic reactions against rocuronium, patients with a history of myasthenia gravis, patients with obvious intoxication, wards of the state/prisoners and patients with known epileptic disease will be excluded. Primary outcome: Shivering episodes will be scored with the Shivering Assessment Scale. Secondary outcome: Total doses of rocuronium, time to target core temperature of 33°C, dissipated energy and total energy needed during the cooling period will be compared between the two groups. Changes in basal metabolism and depth of relaxation will be ascertained. Furthermore, serum levels of midazolam, fentanyl, rocuronium and stress hormones will be measured. Train-of-four will be performed to assess the depth of relaxation. Sedation will be monitored via bispectral index; measurement of metabolic activity will be evaluated using indirect calorimetry. Additionally, EEG will be performed to detect epileptiform activities. Blood will be drawn to measure levels of midazolam, fentanyl and rocuronium.
During CPR bag-valve mask ventilation is difficult for basically skilled rescuers. Ventilation may be inefficient or with too high pressures result in stomach inflation and aspiration. Studies suggest that with a supraglottic airway device, such as the laryngeal tube, a basically skilled rescuer may ventilate more efficient and also safer. No prehospital study has been conducted comparing laryngeal tube and bag-valve mask ventilation during CPR. Thus, this study intends to compare ventilation with laryngeal tube and bag-valve mask performed by paramedics during CPR.
A hospitals manual method of patient monitoring will be implemented in an automated system and supported by an early patient deterioration detection for timely escalation. The purpose of this study is to assess if clinical outcomes of patients in Acute Care are significantly improved by such a system.
The purpose of this study is to determine if 48 hours of mild therapeutic hypothermia following out of hospital cardiac arrest gives a better cerebral outcome compared to 24 hours therapeutic hypothermia.
The purpose of this study is to evaluate the impact of muscle relaxing drugs on the energy rate during hypothermia after cardiac arrest.