Loading clinical trials...
Loading clinical trials...
Showing 1-8 of 8 trials
NCT07427641
This multicenter randomized controlled study aims to evaluate the impact of temporary visual deprivation of the medical team leader on non-technical skills and team performance during high-fidelity simulated medical emergencies. The intervention is based on principles of crisis resource management and cognitive load theory. Team performance will be assessed using validated scoring tools immediately after the intervention and at three months follow-up.
NCT06916949
The goal of this interventional study is to collect clinical and neurophysiological information to determine whether high-fidelity simulation can serve as a stress-inducing stimulus in a population of healthy residents (Emergency medicine, Anesthesia and Intensive care medicine, Paediatrics), both male and female, aged between 25 and 40 years. The main questions it aims to answer are: 1. Define in which phase of the simulation the highest level of stress is observed. 2. Determine the level of stress reached after performing a second high-fidelity simulation after a period of time. 3. Identify whether specific brain areas are activated during high-fidelity simulation. Participants will form teams, consisting of three medical trainees from the same specialty training program, that will undergo two high-fidelity simulations based on a clinical scenario relevant to their residency. * During the simulation, automatic pupillometry will be performed on all team members at the four time points. * Additionally, a two-lead ECG will be recorded for all team members at baseline and end of the debriefing * One team member will undergo EEG monitoring throughout the entire simulation. The EEG recordings will be sampled at baseline, during the simulation and end of the debriefing.
NCT06748131
This study aims to evaluate the effectiveness of operating room (OR) simulation-based training in improving anesthesia skills and decision-making for medical students at King Saud University. Specifically, the study focuses on the integration of SimMan 3G technology and high-fidelity simulation scenarios within the MEDI045 Basic Anesthesia and Resuscitation course. By engaging in realistic, high-stress scenarios, the students will practice essential tasks such as airway management, anesthesia administration, and patient surveillance. The goal is to enhance students' technical skills, critical decision-making, and ability to adapt to dynamic clinical conditions. In addition to evaluating improvements in anesthesia competencies, the study also seeks to assess student satisfaction and confidence levels after completing the simulation-based training. The research will contribute to a better understanding of how simulation can bridge the gap between theoretical knowledge and practical application in anesthesia education. Data collected will include quantitative measures of technical proficiency and decision-making effectiveness, along with qualitative feedback regarding students' experiences, perceptions of competency, and overall satisfaction with the revised curriculum. The findings will help refine medical education practices, with a focus on patient safety, effective communication, and teamwork within the OR. The study is being conducted at King Saud University and involves fourth-year medical students enrolled in the MEDI045 course.
NCT06458283
It was planned to determine the effect of hybrid simulation-based breastfeeding training on the practical skills, satisfaction, self-confidence and self-efficacy of the students of the Department of Midwifery, Hamidiye Faculty of Health Sciences, University of Health Sciences
NCT05493774
The purpose of this study was to compare the learning performance of trainees before and after learning burns and scald nursing care by applying the burns and scald virtual reality (VR) training module multi-person interactive training in different places and the traditional training model with a high-fidelity patient.
NCT05672446
Background: Performing simulation applications using standardized patients provides realistic educational results that support critical thinking and learning, conducted using complex, effective communication scenarios. Objective: This study was planned to evaluate the effect of the use of standardized pediatric patient practice in pediatric nursing education on the ability of nursing students to prepare the child for the procedure. Method: The research was conducted using a convergent parallel design, which is a mixed method design. Ethics committee approval was obtained with the decision numbered 19/376 regarding the ethical suitability of the research. The sample of the study consists of 106 students. The students included in the study were given an introductory information form and the state trait anxiety scale and self-efficacy efficacy scale as pre-tests, and then the theoretical course "Preparing the child for the process according to age periods and communicating with the child patient" was explained. The students were divided into intervention and control groups by randomization. The students in the intervention group participated in the simulation application using standardized pediatric patients. Qualitative data were collected during the debriefing phase of the simulation and student satisfaction and self-confidence in learning scale was applied to the students in the intervention group. Before clinical practice, state trait anxiety scale, self-efficacy scale and perceived learning scale were applied as posttests. During the clinical practice, all students were evaluated in terms of their ability to prepare a real school-age child patient for the procedure.
NCT04381572
High fidelity simulation (HFS) is an established method of training in various fields of medicine, especially emergency medicine, anesthesiology and intensive therapy. One of the benefits of HFS as an educational tool is the protective environment, where the risk of error do not bring harm to the patients. It is proven that HFS is successful in acquisition of new knowledge and skills and may facilitate positive behavioral change in medical students. However, this education method may cause elevated stress levels as well as other physiological reactions. Other than sympathetic nervous system reactions such as heart rate and blood pressure, there are a few laboratory stress level markers such as cortisol, alpha-amylase, testosterone and secretory immunoglobulin A. Our aim was to evaluate the change of stress level induced by high-fidelity simulation in medical students.
NCT03307421
Comparison between a team debriefing with an instructor and a team debriefing without an instructor, on improving non-technical skills (TEAM score) after simulating a vital emergency in a multidisciplinary team as part of the initial training