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Showing 1-6 of 6 trials
NCT05729802
The current pandemic has revealed in-person simulation training and evaluation is vulnerable to disruption, and alternatives are needed which allow remote evaluation. The recently developed Microsoft Hololens headset device allows interactable holograms to be inserted into a user's workspace (mixed reality) - permitting the augmentation of existing clinical and training spaces with holographic (i.e. virtual) patients via the prototype HoloSIM software. This study is the first known research initiative aiming to demonstrate the feasibility and effectiveness of mixed reality for acute medicine training and assessment at a distance. Space, time, personnel, pandemic, and cost constraints limit opportunities for high-fidelity simulation exercises for post-graduate trainees at Sunnybrook. By developing and demonstrating the effectiveness of this new training modality, increased simulation exercises will lead to a higher quality education experience, better functioning teams, and better patient outcomes.
NCT06502925
The aim of Emergency Medical Dispatch (EMD) is to ensure prompt access to medical care for all at all times, initiate appropriate responses quickly, arrange suitable hospital facilities, and coordinate patient transport and hospitalization. In France, care begins with an incoming call managed by the EM Dispatchers, who collect the patient's details and assess the seriousness of the situation. This severity assessment is essential for triggering the appropriate resources: direct dispatch of first-aiders in extreme emergencies, or transfer of the call to an emergency or general practitioner. Under- or over-assessment will necessitate redirection, resulting in a loss of time and opportunity for the patient, or emergency channel congestion. Errors at this stage can impact the entire care pathway. To assist EM dispatchers, aids have been developed. Firstly, In France, a diploma course was created in 2019. Various training methods exist. Their contribution to the quality of incoming calls handling remains unevaluated. Secondly, EM centers use regulation protocols designed to guide dispatchers in call handling and identifying the seriousness of the situation. The regulation protocol used at Besançon University Hospital is ProQA (Priority Dispatch Corporation, Salt Lake City, UT, US). It uses standardized questions and records EM Dispatchers' decisions and the responses they obtain from callers. These responses are considered by ProQA, which then assigns a "severity" code to the call. The assistance provided by regulation protocols, however useful, remains insufficient. Contextual factors can complicate compliance with regulation protocols, making matching resources to needs challenging. AQUA is a software package dedicated to quality control, enabling EM Dispatcher's supervisors to rate the quality of all stages of the call-taking process. This ensures that all key questions have been asked and that they have been asked correctly. In addition, the 'severity' code obtained by the EM Dispatcher can be compared with the 'severity' code obtained by the supervisor, using a qualifying analysis method and data entry software. The calls are replayed under optimal conditions, in a calm environment and allowing supervisors to listen multiple times to ensure no information is missed. the supervisors' code is therefore the reference code. CRRAQPA study's aim is to assess the quality of incoming call handling and to identify the factors that influence this quality.
NCT06302764
The aim of this study is to identify trauma determinants and leverage this understanding to develop solutions applicable to the prevention and treatment of PTSD among emergency medical personnel. By categorizing stimuli associated with traumatic professional experiences, the study aims to enhance existing therapeutic protocols through exposure therapy. The specific objectives are as follows: 1. Analysis and characterization of occupational workloads among doctors and emergency medical personnel, focusing on the scale of burdens associated with PTSD symptoms. 2. Development of categories for aggravating and potentially traumatizing stimuli within the medical staff of rescue teams. 3. Examination of the feasibility of incorporating the obtained results into cognitive-behavioral therapy protocols. 4. Assessment of the potential for implementing the results in solutions utilizing virtual reality technology. 5. Formation of an interdisciplinary international research team.
NCT06199310
The investigators want to study how wearable devices can help track health changes in people when they are not feeling well. Normally, clinicians compare someone's vital signs, like heart rate, to average ranges from healthy folks. But what if clinicians compare these signs to the person's own normal when they were well? The investigators aim to check if wearable sensors can make this possible for many people. The investigators will look at heart rate differences when someone is admitted to the hospital compared to their stable days before. The investigators will see how their daily steps change a week before getting sick. This global study involves adults in emergency or acute care. Participation poses no risks, burdens, or immediate benefits to patients.
NCT04621682
The purpose of this study is to reduce medical error by omitting management steps in medical crises. The Interventions will be: training in non-technical skills and checklists versus Control: standard training with checklists
NCT04618835
Exertional desaturation is a feature of COVID-19. The study will measure vital signs of patients discharge by practitioners in primary care, secondary care or by paramedic practitioners. Patients will then undertake a 40-steps on the spot walk followed by measurements of heart rate and oxygen saturations for up to two minutes. Association of desaturation with 30 days hospital admission and mortality will be reported.