Surgical Education Department, Iowa Methodist Medical Center, UnityPoint Health, Des Moines, IA.
Surgical Education Department, Iowa Methodist Medical Center, UnityPoint Health, Des Moines, IA.
J Am Coll Surg. 2018 Sep;227(3):332-345. doi: 10.1016/j.jamcollsurg.2018.06.005. Epub 2018 Jun 30.
Limb tourniquet pressures > 100 mmHg before tightening system use eases achieving arterial occlusion, minimizes tightening system problems, and probably minimizes discomfort. This study examined effects of buckle and strap features on converting pulling force to strap pressure.
Twenty-two buckle and strap combinations were evaluated using a thigh-diameter, ballistic gel cylinder and 3 thighs. Weights of 14.11, 27.60, and 41.11 kg provided pulling force. The contribution of buckle movement was evaluated: all buckles on gel and 12 on thighs allowed limited vertical movement, 12 on gel and 4 on thighs held static.
Force conversion patterns per combination were similar on gel and thighs, including greatest force conversion with some buckle movement allowed. Smooth, round redirect buckles without engagement of a strap-securing mechanism had the best conversions of pulling force to tourniquet pressure; 2 achieved arterially occlusive pressures, neither commercially available. Among hook-and-loop secured tourniquets and threaded for self-securing tourniquets, the Generation 7 Combat Application Tourniquet (C-A-T7) and the Tactical Ratcheting Medical Tourniquet (Tac RMT) had the best conversions of pull to pressure (thigh applications/each weight, mean ± SD: C-A-T7 91 ± 11, 164 ± 30, 228 ± 34 mmHg; Tac RMT 82 ± 13, 150 ± 16, 222 ± 17 mmHg). Other Ratcheting Medical Tourniquets with the same buckle but different strap fabrics performed less well. Even lower pressures occurred with the Tactical Mechanical Tourniquet, the Special Operations Forces Tactical Tourniquet, the Parabelt, and the SAM XT Extremity Tourniquet (165 ± 11, 178 ± 13, 131 ± 14, and 106 ± 14 mmHg, all at 41.11 kg, respectively).
Buckle design and strap fabric affect the conversion of pulling force to tourniquet strap pressure. Low-friction, smooth, round redirects allow the best conversion.
在收紧系统之前,肢体止血带压力>100mmHg 可轻松实现动脉闭塞,最小化系统问题,并可能最大限度地减少不适感。本研究检查了扣具和表带特征对将拉力转换为表带压力的影响。
使用大腿直径的弹道凝胶圆柱体和 3 个大腿评估了 22 个扣具和表带组合。14.11、27.60 和 41.11kg 的重量提供拉力。评估了扣具运动的贡献:凝胶上的所有扣具和大腿上的 12 个扣具允许有限的垂直运动,凝胶上的 12 个和大腿上的 4 个保持静态。
每个组合的力转换模式在凝胶和大腿上都相似,包括允许一些扣具运动时具有最大的力转换。没有扣紧机构的光滑、圆形的转向扣具具有最佳的拉力向止血带压力的转换;2 个达到动脉闭塞压力,均不可用。在钩环固定止血带和用于自固定止血带的螺纹中,第 7 代战斗应用止血带(C-A-T7)和战术棘轮医疗止血带(Tac RMT)具有最佳的拉力向压力的转换(大腿应用/每个重量,平均值±SD:C-A-T7 为 91±11、164±30、228±34mmHg;Tac RMT 为 82±13、150±16、222±17mmHg)。具有相同扣具但不同表带织物的其他棘轮医疗止血带表现不佳。使用战术机械止血带、特种作战部队战术止血带、Parabelt 和 SAM XT 四肢止血带时,压力甚至更低(分别为 165±11、178±13、131±14 和 106±14mmHg,均为 41.11kg)。
扣具设计和表带织物会影响拉力向止血带表带压力的转换。低摩擦、光滑、圆形的转向允许最佳转换。
