Augmented Reality System to Teach Hemostatic Agent Use in Hemorrhage Control

增强现实系统教授止血剂在控制出血中的使用

• 批准号: 8647498
• 负责人: Paul Novotny
• 金额: $ 108.79万
• 依托单位: SIMQUEST INTERNATIONAL, LLC
• 依托单位国家: 美国
• 财政年份: 2012
• 资助国家: 美国
• 起止时间: 2012-07-01 至 2016-01-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8647498
• 关键词: Achievement; Address; Area; Caring; Complex; Data; Development; Educational process of instructing; Effectiveness; Emergency Situation; Equipment; Feedback; Hand; Hemorrhage; Hemostatic Agents; Hemostatic function; Hospitals; Human Resources; Injury; Institution; Learning; Life; Limb structure; Liquid substance; Logistics; Manikins; Measures; Medical; Methods; Operative Surgical Procedures; Outcome; Patient Care; Patients; Penetration; Performance; Phase; Physics; Protocols documentation; Provider; Relative (related person); Resources; Simulate; System; Systems Development; Techniques; Time; Tourniquets; Training; Trauma; Treatment Protocols; Work; base; cost; cost effective; design; experience; flexibility; improved; innovation; instructor; prototype; public health relevance; response; simulation; skills training

Project Summary/Abstract Improvements in pre-hospital trauma life support in the past 20 years have led to impressive enhancement in patient survival. These achievements have come as the result of improved equipment, transport logistics, assessment/treatment protocols, and training of personnel in all levels of the care chain from the point of injury to the hospital. One of the areas that has benefited from these changes is control of hemorrhage. However, although extremity-based hemorrhage is now well addressed, the numerous hemostasis-related products and protocols that have been developed to limit/stop non-tourniquetable bleeding have not had the same widespread dissemination. A major part of this limited penetration is the diversity of products available and their high cost. This has constrained training because actual products are typically used during what can often be a difficult-to-create complex training scenario. By using recent advances in real-time, interactive, computational fluid dynamics to simulate hemodynamically controlled bleeding, SimQuest proposes to create a cost-effective training system that can allow existing training manikins to be used to provide detailed learning scenarios for a diverse range of hemostasis products. Further, since all user actions and simulation outcomes will be measured or computed, objective, quantitative performance measures can be generated to allow uniform assessment of proficiency across instructors and institutions. By expanding on the accepted paradigm of simulation-based medical training, we will provide sorely needed training that will allow these significant patient care advances to be mastered by a broad range of emergency medical response personnel.

项目总结/文摘