止血带特征对应用过程的影响。

Q3 Medicine
Piper Lynn Wall, Charisse M Buising, JaNiese Jensen, Alex White, Justin Davis, Catherine Hackett Renner
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引用次数: 0

摘要

背景:我们研究了紧急使用肢体止血带的设计特点对使用过程(本文)和完成这些过程所需的时间(配套论文)的影响:64名应用者观看了培训视频,然后每人应用了所有8种止血带:方法: 64 名应用者观看了培训视频,然后各自应用了所有八种止血带:第 7 代战斗应用止血带 (CAT7)、第 3 代 SOF™ 战术宽幅止血带 (SOFTTW3)、第 5 代 SOF™ 战术宽幅止血带 (SOFTTW5)、战术机械止血带 (TMT)、OMNA 海洋止血带 (OMT)、X8T 止血带 (X8T)、战术棘轮医疗止血带 (Tac RMT) 和 RapidStop™ 止血带 (RST)。应用过程根据视频进行评分:结果:33 名应用者之前没有使用过止血带。所有 512 次使用都是在受术者模拟大腿远端受伤的近端进行的。31 名操作员(13 名没有经验)在使用止血带时出现了 66 次问题(18 名没有经验的操作员出现了问题)。与棘轮系统(3 次跳齿和 16 次前进失败)相比,辘轳杆系统的紧固系统机械故障更常见(26 次失去对杆的控制、27 次重做杆的转动和 58 次努力固定杆)。35 名应用者(21 名没有经验)在 68 次应用中(45 名没有经验的应用者)在说 "完成 "时出现了多普勒脉冲声;原因包括过早停机(53 次)、表带拉力不足(1 次 SOFTTW3、1 次 RST)、表带/重定向理解问题(1 次 SOFTTW5、1 次 X8T、4 次 Tac RMT、1 次 RST)、紧固系统理解问题(2 次 CAT7、1 次 SOFTTW3、1 次 TMT、1 次 RST)以及物理上无法固定(1 次 SOFTTW3)。53 名申请者(32 名没有经验)有 109 次申请(64 次由没有经验的申请者提出)没有正确固定。其中 6 例涉及对背带/重定向的理解问题:4 个是 Tac RMT,1 个是 X8T,1 个是 SOFTTW5;103 个涉及非自动固定设计特征的不正确固定:47 个 CAT7(8 个带子,45 个杆子),31 个 TMT(17 个带子,19 个杆子),22 个 OMT(带子)和 3 个 SOFTTW3(杆子):结论:自动固定系统具有工艺优势。由于大多数紧急止血带使用者都需要转运,因此我们认为止血带的安全性是设计的一个重要方面。如果同时考虑到闭塞性和止血带安全性,选择止血带的决定可能会大不相同。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of Tourniquet Features on Application Processes.

Background: We investigated emergency-use limb tourniquet design features effects on application processes (this paper) and times to complete those processes (companion paper).

Methods: Sixty-four appliers watched training videos and then each applied all eight tourniquets: Combat Application Tourniquet Generation 7 (CAT7), SOF™ Tactical Tourniquet-Wide Generation 3 (SOFTTW3), SOF™ Tactical Tourniquet-Wide Generation 5 (SOFTTW5), Tactical Mechanical Tourniquet (TMT), OMNA Marine Tourniquet (OMT), X8T tourniquet (X8T), Tactical Ratcheting Medical Tourniquet (Tac RMT), and RapidStop™ Tourniquet (RST). Application processes were scored from videos.

Results: Thirty-three appliers had no prior tourniquet experience. All 512 applications were placed proximal to the recipient's simulated distal thigh injury. Thirty-one appliers (13 with no experience) had 66 problem-free applications (18 by no experience appliers). Tightening-system mechanical problems were more frequent with windlass rod systems (26 losing hold of the rod, 27 redoing rod turns, and 58 struggling to secure the rod) versus ratchet systems (3 tooth skips and 16 advance failures). Thirty-five appliers (21 with no experience) had 68 applications (45 by no experience appliers) with an audible Doppler pulse when stating "Done"; causes involved premature stopping (53), inadequate strap pull (1 SOFTTW3, 1 RST), strap/redirect understanding problem (1 SOFTTW5, 1 X8T, 4 Tac RMT, 1 RST), tightening-system understanding problem (2 CAT7, 1 SOFTTW3, 1 TMT, 1 RST), and physical inability to secure (1 SOFTTW3). Fifty-three appliers (32 no experience) had 109 applications (64 by no experience appliers) not correctly secured. Six involved strap/redirect understanding problems: 4 Tac RMT, 1 X8T, 1 SOFTTW5; 103 involved improper securing of non-self-securing design features: 47 CAT7 (8 strap, 45 rod), 31 TMT (17 strap, 19 rod), 22 OMT (strap), and 3 SOFTTW3 (rod).

Conclusion: Self-securing systems have process advantages. Because most emergent tourniquet recipients require transport, we believe tourniquet security is a critical design aspect. Decisions regarding tourniquet choices may become very different when both occlusion and tourniquet security are considered.

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来源期刊
CiteScore
1.30
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