Articles: emergency-medicine.
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The "micro-course" and "flipped classroom" are emerging tools for medical education but little is known about their utility for emergency medicine teaching. The suitability of the micro-course combined with flipped classroom is investigated for delivery of an emergency medicine course in West Anhui Health Vocational College. Students from Class A and Class B of the Clinical Department of West Anhui Health Vocational College, Grade 2000, were assigned to experimental (micro-course plus flipped classroom, n = 102) and control (traditional, didactic teaching, n = 104) groups, respectively. ⋯ General satisfaction of students who had participated in the micro-course plus flipped classroom exceeded that of those who had received traditional teaching. Enthusiasm, efficiency, and learning facility was self-reported to be enhanced by students in the experimental group relative to controls. Use of the micro-course combined with flipped classroom successfully increased the outcome of emergency medicine teaching and may be considered as an approach to reform emergency medicine teaching in medical colleges and universities.
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Review
Point-of-Care Ultrasound-History, Current and Evolving Clinical Concepts in Emergency Medicine.
Point-of-care ultrasound (PoCUS) has become an indispensable standard in emergency medicine. Emergency medicine ultrasound (EMUS) is the application of bedside PoCUS by the attending emergency physician to assist in the diagnosis and management of many time-sensitive health emergencies. In many ways, using PoCUS is not only the mere application of technology, but also a fusion of already existing examiner skills and technology in the context of a patient encounter. ⋯ The knowledge of pathophysiological processes in acute illness and ultrasound findings should be merged in clinical practice. The translation of this knowledge into practical concepts will allow us to better manage many presentations, such as hypotension or the dyspnea of unclear etiology. 4. Technical innovations such as elastography; CEUS; highly sensitive color Doppler such as M-flow, vector flow, or other novel technology; artificial intelligence; cloud-based POCUS functions; and augmented reality devices such as smart glasses should become standard in emergencies over time.
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Scand J Trauma Resus · Dec 2023
ReviewSuspension syndrome: a scoping review and recommendations from the International Commission for Mountain Emergency Medicine (ICAR MEDCOM).
Suspension syndrome describes a multifactorial cardio-circulatory collapse during passive hanging on a rope or in a harness system in a vertical or near-vertical position. The pathophysiology is still debated controversially. ⋯ Suspension Syndrome is a rare entity. A neurocardiogenic reflex may lead to bradycardia, arterial hypotension, loss of consciousness and cardiac arrest. Concomitant causes, such as pain from being suspended, traumatic injuries and accidental hypothermia may contribute to the development of the Suspension Syndrome. Preventive factors include using a well-fitting sit harness, which does not cause discomfort while being suspended, and activating the muscle pump of the legs. Expediting help to extricate the suspended person is key. In a peri-arrest situation, the person should be positioned supine and standard advanced life support should be initiated immediately. Reversible causes of cardiac arrest caused or aggravated by suspension syndrome, e.g., hyperkalaemia, pulmonary embolism, hypoxia, and hypothermia, should be considered. In the hospital, blood and further exams should assess organ injuries caused by suspension syndrome.