View clinical trials related to Heart Arrest.
Filter by:The chest compression depth decreases over time after starting continuous chest compression due to the rescuers' fatigue. The investigators hypothesized that the frequency parameters from surface electromyogram from each muscle during chest compression may reflect the muscle fatigue of the rescuers. Then investigators can identify which of the body are mainly used and get tired by continuous chest compression using surface electromyogram.
In patients with out-of-hospital cardiac arrest in Singapore, investigators aim to assess the benefit of introducing a resuscitation protocol including the use of intravenous (IV) access and/or intraosseous (IO) vascular access in the pre-hospital setting. The assumption is that low vascular access rates could be due to difficulty of setting IV cannulas in the field due to certain factors like poor lighting or space constraints. Thus, by introducing a protocol including IO access for difficult IV cases, success rates for vascular access will be higher and this might lead to higher survival rates. This will be a study comparing 'IV+IO' and 'IV alone' protocols in patients with cardiac arrest managed by Singapore Civil Defence Force (SCDF) emergency ambulance service. The trial will recruit 400 patients over 1 year. Each of the 30 SCDF ambulances will provide both 'IV+IO' and 'IV alone' treatments in 2 consecutive phases of 6-months in order to allow for all ambulance crew a chance to be trained on usage of IO. Currently, IO insertion is the accepted standard of care in Singapore General Hospital, Department of Emergency Medicine.
Guidelines on neonatal resuscitation recommend 90 chest compressions (CC) and 30 manual inflations (3:1) per minute in newborns. The study aimed to determine if CC s during sustained inflations (SI) improves recovery of asphyxiated newborns compared to coordinated 3:1 resuscitation.
Our project aims to improve the delivery and assessment of cardiopulmonary resuscitation (CPR) during pediatric cardiac arrest by introducing 2 novel approaches: 1. We will evaluate the effectiveness of a novel, credit card sized, and highly affordable "nano-card" CPR visual feedback device to improve compliance with HSFC CPR guidelines when used during simulated pediatric cardiac arrest; 2. We will also develop and study a novel, "Just-in-Time" (JIT) CPR training video, integrating proven educational methods (video-based lecture, expert modeling, practice-while-watching), and use the CPR visual feedback device to provide real-time coaching. We hypothesize that: H1: The use of a CPR visual feedback device will improve compliance with current HSFC CPR and resuscitation guidelines during a simulated pediatric in-hospital cardiac arrest scenario compared with standard CPR with no visual feedback. H2: A JIT CPR Training Video, viewed by healthcare providers 2-4 weeks prior to the resuscitation event, will improve compliance with current HSFC CPR and resuscitation guidelines during simulated pediatric cardiac arrest compared with those healthcare providers with no prior exposure to the JIT CPR Training Video. H3: That there is poor correlation between providers' perception of CPR quality and actual measured CPR quality H4: That task load varies depending on provider role and type of clinical scenario
The purpose of this study is to determine whether a bed height make an effect to endotracheal intubation with Macintosh laryngoscope, Glidescope and Airwayscope during chest compressions in- hospital simulation cardiac arrest.
European Resuscitation Council (ERC) Guidelines for Resuscitation 2010 emphasize high quality chest compressions .They propose minor changes for pregnant women: manual left deviation of the uterus or a left-lateral incline of 15-30to alleviate pressure on the inferior vena cava. We will examine the performance of the Glidescope (GVL), the Pentax-AWS Airwayscope(AWS) and Macintosh laryngoscope (McL) for airway management during chest compressions on 15 and 30 degree left-lateral tilt (15 &30 LLT) custom-made hard wedges.
Chest compression (CC) feedback devices are used to perform CC measurements effectively and accurately on patients in hospital beds. However, these devices do not take account of the compression of the mattress, which results in overestimation of CC depth. This study is the validation study to demonstrate that a new method using one accelerometer(U-cpr) is useful to overcome this limitation and thus measure compression depth more accurately when performing cardiopulmonary resuscitation (CPR) on patients.
The objective of the COOLCATH study is to compare the effect of the RhinoChill transnasal cooling system to current standard Blanketrol III cooling blanket in its ability to achieve therapeutic hypothermia (TH) induction for patients undergoing TH after cardiac arrest. The COOLCATH study will be a prospective, open-label randomized controlled trial comparing induction of TH efficacy and outcomes of patients following cardiac arrest. Any patient with return of spontaneous circulation (ROSC) following a cardiac arrest within the Essex Cardiothoracic Centre (CTC), or who is brought to the Essex CTC and is a candidate for TH will be considered for this study.
Cardiac arrest is the most common cause of death in the United States and as many as 590,000 Americans suffering a cardiac arrest each year. Despite advances in care, as many as 50 to 89% of patients who are resuscitated after a cardiac arrest die in the hospital. Brain injury is the most common cause of death and disability after cardiac arrest. The investigators use advanced brain monitoring in patients who are at high risk of death after cardiac arrest, with the goal of preventing ongoing brain injury. The most common problem the investigators have observed is low oxygen levels in the brain, which is often very difficult to treat. In this study, the investigators plan to use two additional brain monitors in the care of these high risk patients: a monitor for seizures and a monitor of the amount of blood flow in the brain. The investigators will use these to detect and treat potential causes of low brain oxygen levels. The main hypotheses are that electrical events in the brain such as seizures and "spreading depolarizations" will occur during times of low brain tissue oxygen level, and that treating these events and low blood flow will reduce the rate of low brain oxygen levels.
This PhD study is a sub study in a randomized clinical controlled multicenter trial named "TTH48" (ClinicalTrials.gov Identifier: NCT01689077). The TTH48 trial examines prolonged mild therapeutic hypothermia ("MTH") at 32-34°C in 24 versus 48 hours with the primary outcome Cerebral Performance Category after 6 month in comatose out-of-hospital cardiac arrest patients. THE OVERALL AIM OF THIS PhD STUDY IS TO INVESTIGATE THE CARDIAC FUNCTION AND THE HEMODYNAMICS BY BIOCHEMICAL CARDIAC MARKERS, ECHOCARDIOGRAPHY, BY ANALYZING THE USAGE OF INOTROPES/VASOPRESSORS AND BY ANALYZING ECG DATA FOR ARRHYTHMIAS IN THE 24 VERSUS 48 HOURS MTH GROUPS.