Who Says You can't go FAST at Night? Use of a Novel Ultrasound-Capable Night Vision Device for Prehospital Medical Personnel to Identify Noncompressible Truncal Hemorrhage.

IF 1.2 4区 医学 Q3 SURGERY
Surgical Innovation Pub Date : 2024-12-01 Epub Date: 2024-08-16 DOI:10.1177/15533506241275288
James Williams, Daniel T Lammers, Andrew D Francis, Beau J Prey, Luke I Pumiglia, Matthew J Eckert, Yang Liu, Jason R Bingham, John M McClellan
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引用次数: 0

Abstract

Background: Early detection of abdominal hemorrhage via ultrasound has life-saving implications for military and civilian trauma. However, strict adherence to light discipline may prohibit the use of ultrasound devices in the deployed setting. Additionally, current night vision devices remain noncompatible with ultrasound technology. This study sought to assess an innovative night vision device with ultrasound capable picture-in-picture display via a intraabdominal hemorrhage model to identify noncompressible truncal hemorrhage in blackout conditions.

Methods: 8 post mortem fetal porcine specimens were used and divided into 2 groups: intrabdominal hemorrhage (n = 4) vs no hemorrhage (n = 4). Intrabdominal hemorrhage was modeled via direct injection of 200 mL of normal saline into the peritoneal cavity. Under blackout conditions, 5 participants performed a focused assessment with sonography for trauma (FAST) exam on each model using the prototype ultrasound-capable night vision device.

Results: Of the 40 FAST exams performed, 95% (N = 38) resulted in the correct identification of intraabdominal hemorrhage. Of the incorrectly identified exams, both were false positives resulting in a 100% sensitivity, 90% specificity, 91% positive predictive value, and a 100% negative predictive value. All participants noted the novel device was easy to use and provided superior visualization for performing FAST exams under blackout conditions.

Conclusion: The ultrasound-enabled night vision prototype demonstrated promising results in identifying noncompressible truncal hemorrhage while maintaining strict light discipline in blackout conditions. Further research efforts should be directed at assessing the ability of providers to perform procedures in blackout conditions using the ultrasound-enabled prototype night vision device.

谁说夜间不能快速行动?院前医务人员使用新型超声夜视仪识别不可压缩的截肢出血。
背景:通过超声波及早发现腹部出血对军事和民事创伤具有救生意义。然而,严格遵守照明纪律可能会禁止在部署环境中使用超声波设备。此外,目前的夜视设备与超声波技术仍不兼容。本研究试图通过腹腔内出血模型评估具有超声画中画显示功能的创新型夜视仪,以识别停电条件下不可压缩的躯干出血。方法:使用 8 个尸检后胎儿猪标本,分为两组:腹腔内出血组(n = 4)和无出血组(n = 4)。腹腔出血是通过向腹腔直接注射 200 毫升生理盐水来模拟的。在停电条件下,5 名参与者使用具有超声功能的原型夜视装置对每个模型进行了创伤超声聚焦评估(FAST)检查:结果:在进行的 40 次 FAST 检查中,95%(N = 38)正确识别出腹腔内出血。在错误识别的检查中,两个都是假阳性,结果灵敏度为 100%,特异性为 90%,阳性预测值为 91%,阴性预测值为 100%。所有参与者都指出这种新型设备易于使用,并能为在停电条件下进行 FAST 检查提供出色的可视化效果:结论:支持超声波的夜视原型在识别不可压缩的躯干出血方面取得了可喜的成果,同时还能在停电条件下保持严格的照明纪律。进一步的研究工作应着眼于评估医疗服务提供者在停电条件下使用超声夜视原型设备进行手术的能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Surgical Innovation
Surgical Innovation 医学-外科
CiteScore
2.90
自引率
0.00%
发文量
72
审稿时长
6-12 weeks
期刊介绍: Surgical Innovation (SRI) is a peer-reviewed bi-monthly journal focusing on minimally invasive surgical techniques, new instruments such as laparoscopes and endoscopes, and new technologies. SRI prepares surgeons to think and work in "the operating room of the future" through learning new techniques, understanding and adapting to new technologies, maintaining surgical competencies, and applying surgical outcomes data to their practices. This journal is a member of the Committee on Publication Ethics (COPE).
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