View clinical trials related to Basic Cardiac Life Support.
Filter by:Out-of-hospital cardiac arrest (OHCA) is a major public health problem, with around 40,000 victims each year in France. Their survival rate remains dramatically low, at less than 10%. In the event of pre-hospital cardiac arrest, rescuers perform resuscitation techniques using equipment for which they have been trained. They perform cardiopulmonary resuscitation (CPR) by alternating 30 chest compressions with 2 insufflations (30/2) with a manual insufflator bag. In basic life supports, insufflations should result in chest rise, but guidelines do not specify a precise volume. Recently, medical devices have been developed that enable precise measurement of ventilatory volumes. In simulation, these devices show hyperventilation in volume and frequency in mannequins. But no clinical study has analyzed insufflator bag ventilation maneuvers in real-life situations on pre-hospital cardiac arrest patients. The aim of this study is to analyze ventilation parameters in current practice in relation to standards, and the factors influencing the quality of ventilation maneuvers.
type of study:A parallel-group trial design was used. The main question[s] it aims to answer are: 1. HI; The "Basic Life Support Knowledge Assessment Form" score average of the students in the intervention group participating in the VR will be higher than the control group. 2. H1; The Basic Life Support Application Evaluation Form score average of the students in the intervention group participating in the VR will be higher than the control group. A. For the classical BLS training group; Traditional BLS VR Training will be held in the classroom environment for 45 minutes in the form of a lecture, the training session will be terminated after watching the video and answering questions. Trainings will be conducted by Derya ASLAN HUYAR in terms of standardization of trainings. B.For VR BLS training group; After the introduction of VR in the VR hall, after the explanation of the basic concepts of BLS and the completion of the training through VR BLS scenarios, question-answer will be made and the session will be closed. Trainings will be conducted by Derya ASLAN HUYAR in terms of standardization of trainings.
The aim of this study is to explore the efficacy and safety of the extended reality (XR)-based basic life support (BLS) training.
The purpose of the study is to examine the effect of telephone assistance and standardized basic life support courses on the quality of cardiopulmonary resuscitation (CPR) and the use of automated external defibrillator (AED). The investigators hypothesize that bystanders can provide compressions in correct frequency and use an AED correctly as well as safely from telephone instructions but that correct and successful ventilations including correct open airway require training on a course.
To improve the quality of CPR education, we want to assess the validity and reliability of the feedback depth measured by smartphone applications according to the smartphone attachment sites as an educational tool. However, in the prior study, armband method showed overestimated chest compression depth. The reason of the overestimation was analyzed that the weight of the smartphone amplified the inertial force to produce additional linear movement. In this study, we will make new device to fix the smartphone on the arm and on the hand and compare the chest compression depth between CPR manikin and smartphone application.
According to the European Resuscitation Council (ERC) Guidelines for patient to a depth of approximately 5-6 cm on a firm and flat surface when possible. However, Cardiopulmonary resuscitation (CPR) performers may need to continue the chest Resuscitation 2010, CPR performers should compress the sternum of a compression in an oblique direction, such as in elevators. For a pregnant patient in cardiac arrest, the 2010 ERC Guidelines recommend that the performer place the patient in a left-lateral tilt of 15 - 30° using a firm wedge to support the pelvis and thorax because the pregnant uterus can compress the inferior vena cava. We hypothesized Smartphone based chest compression feedback app would improves quality of CPR in an angulated surface.