View clinical trials related to Resuscitation.
Filter by:Background: This study, in contrast to the previous studies, generated a scenario of fatigue in an earthquake scenario and aimed to measure the effect of fatigue on the quality of cardiopulmonary resuscitation (CPR) performed by paramedics in a debris course. Methods: The study was designed as a randomized controlled trial. The sample, consisting of 84 paramedic students, was randomly assigned as 42 control and 42 experimental groups. Fatigue was created in the participants by rehearsing the process of removing and transporting earthquake victims from the rubble through the prepared track. A personal information form and a CPR measurement form were used to obtain the data. The simulator was used to evaluate the accuracy of CPR. The collected data were analysed with the statistical program.
Positive pressure ventilation (PPV) is the most important intervention in neonatal resuscitation. During PPV, it is important to hold the face-mask with care, as applying excessive pressure could cause injury to the infant, while insufficient pressure could be a contributor of mask leak and reduced effective ventilation. Application of positive pressure to face structures may trigger a vagally mediated reflex via the trigeminal nerve that innervates the skin of the face leading to apnoea and a decrease in heart rate (TCR, trigeminal-cardiac reflex). The force exerted by providers during neonatal ventilation to improve mask seal might result in pressure lesions and the elicitation of the trigeminal-cardiac reflex. The height of the resuscitation could influence the forces applied to the face and the quality of the procedure. Information about the applied forces in relation to the height of the resuscitation table is unknown.
In this retrospective study, the investigators seek to investigate the incidence of pneumothorax following possible risk factors, and elucidate its association with outcomes.
This study evaluates the effectiveness of CPR during via ferrata rescues, focusing on response quality and outcomes in challenging outdoor settings.
Airway management in out-of-hospital cardiac arrest is still debated. Several options exist: bag-valve-mask ventilation, supraglottic devices and endotracheal intubation. Intermediate and advanced airway management strategies could be useful devices to increase chest compression fraction. A previous study shows that early insertion of an i-gel device significantly increases chest compression fraction and enhances respiratory parameters. However, the compressions were found to be shallower in the experimental group using the i-gel device. Although, the shallower compressions found in the supraglottic airway device group did not appear to be linked to their provision in an over-the-head position, it is reasonable to assume that the addition of a feedback device to the use of an i-gel® device could fix this issue. The feedback devices seem to be able to provide a benefit, and allow deeper compressions / more often in the depth target. There is a mismatch between perceived and actual cardiopulmonary resuscitation performance supporting the need for such a feedback device's study.
Pediatric cardiac arrest occurs most in the prehospital setting. Most of them are due to respiratory failure (e.g., trauma, drowning, respiratory distress), where hypoxia leads to cardiac arrest. Generally, emergency medical services (EMS) first use basic airway management techniques i.e., the use of a bag-valve-mask (BVM) device, to restore oxygenation in pediatric OHCA victims. However, these devices present many drawbacks and limitations. Intermediate airway management, i.e., the use of SGA devices, especially the i-gel® has several advantages. It has been shown to enhance both circulatory and ventilatory parameters. There is increasing evidence that IAM devices can safely be used in children. In two pediatric studies of OHCA, American paramedics had significantly higher success rates with SGA devices than with TI. A neonatal animal model showed that the use of SGA was feasible and non-inferior to TI in this population. However, data regarding the effect of IAM with an i-gel® versus the use of a BVM on ventilation parameters during pediatric OHCA is missing. The hypothesis underlying this study is that, in case of pediatric OHCA, early insertion of an i-gel® device without prior BVM ventilation should improve ventilation parameters in comparison with the standard approach consisting in BVM ventilations.
The International Liaison Committee on Resuscitation regularly publishes a Consensus on Science with Treatment Recommendations but guidelines can nevertheless differ when knowledge gaps persist. In case of pediatric cardiac arrest, the American Heart Association recommends following the adult resuscitation sequence i.e., starting with chest compressions. Conversely, the European Resuscitation Council advocates the delivery of 5 initial rescue breaths before starting chest compressions. Carrying out a randomized trial in children in cardiac arrest to assess the impact of these strategies would prove particularly challenging and ethical concerns may prevent such a trial from being performed. This will be a superiority, cross-over randomized trial whose goal is to determine the impact of these 2 resuscitation sequences on alveolar ventilation in a pediatric model of cardiac arrest. While not definitive, its results could help fill part of the current knowledge gap.
Aim The purpose of this study is to determine if the addition of the VAST Course to technical resuscitation skills training enhances healthcare providers' resuscitation performance in a resource-limited setting. Objectives The aims of this research will be achieved by meeting the following objectives: 1. Quantitative evaluation of study participants' resuscitation performance during a simulation scenario before ACLS course, immediately following ACLS course, immediately following VAST course, and at 4 months post training. 2. Qualitative exploration of the barriers and supports identified by course participants to implementing resuscitation in the workplace after resuscitation skills training through focus groups. New knowledge Lessons learned from this study will help inform the design and the implementation of resuscitation training programs in resource-limited settings. This has potential to improve resuscitation capacity in resource-limited settings leading to higher quality of care for patients.
Paramedics and EMT will be recruited among four Emergency Medical Services (EMS) in Switzerland to manage a 10-minutes simulation-based adult out-of-hospital cardiac arrest scenario in teams of two. Depending on randomization, each team will manage the scenario according either to their current approach (30 compressions with 2 bag-mask ventilations), or to the experimental approach (continuous compressions since the start of CPR except for rhythm analysis and shock delivering, with early insertion of an i-gel® device to deliver asynchronous ventilations). The main hypothesis is that early insertion of i-gel could improve CCF during out-of-hospital cardiac arrest, with a reasonable time to first effective ventilation.
International guidelines recommend giving positive pressure ventilation (PPV) by face mask to newborns who do not breathe or have a slow heart rate at birth. Preterm infants are at high risk of developing respiratory distress syndrome (RDS) and many are treated with continuous positive airway pressure (CPAP) in the neonatal intensive care unit (NICU). Though the majority of preterm infants breathe spontaneously at birth, many clinicians routinely apply a face mask to preterm infants shortly after birth in the delivery room (DR) to give them CPAP. However, applying a face mask may inhibit spontaneous breathing in newborns. In this study, premature babies will be randomly assigned to have a face mask routinely applied for CPAP shortly after birth; or to have a face mask selectively applied only for PPV if they are not breathing or have a slow heart beat in the first 5 minutes of life, or for CPAP if they have signs of respiratory distress after 5 minutes. The investigators will determine whether fewer participants who have the mask selectively applied receive PPV in the DR.