Jorgen Melau, Pal Bergan-Skar, Nigel Callender, Martin Rognhaug, Erling Bekkestad
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Post-hoc testing revealed a signif- icant difference between the C-A-T and the Ukrainian tourni- quet (p=.004). A similar significance was not found between the SOF™TT-W Wide and the Ukrainian model (p=.08). Dis- cussion: The Ukrainian model can hold pressure as well as the commercially available tourniquets. There is much value if this can be produced close to the battlefield. Factors including lo- gistics, cost, and self-sufficiency are important during wartime.</p><p><strong>Conclusion: </strong>We found that our sample of 3D-printed tourni- quets, currently used in the war in Ukraine, could maintain pressure as well as the commercially available tourniquets. 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引用次数: 0
摘要
背景:乌克兰战争要求迅速向前线运送和补给止血带。就补给和成本而言,在前线附近生产止血带是一个可行的选择:方法:我们将 "科技反坦克 "慈善机构在当地生产的 3D 打印止血带(乌克兰型号)与市面上销售的止血带和战术战斗伤员救护委员会(CoTCCC)推荐的止血带(C-A-T™ 和 SOF™TT-W)进行了对比测试。我们测试了止血带在长达 2 小时的时间内保持压力的能力:结果:Kruskal-Wallis 检验显示,各组之间存在显著差异(p 结论:我们发现,3D-止血带样本的耐压性能与 SOF™TT-W 差异不大:我们发现,目前在乌克兰战争中使用的 3D 打印止血带样本与市售止血带一样能够保持压力。实际上,我们的测试表明,它能保持明显更高的压力。
3D-Printed Tourniquets Used at the Battlefront in Ukraine: A Pilot Study.
Background: The war in Ukraine urged a need for prompt deliv- erance and resupply of tourniquets to the front. Producing tour- niquets near the battlefront was a feasible option with respect to resupply and cost.
Methods: A locally produced 3D-printed tourniquet (Ukrainian model) from the "Tech Against Tanks" charity was tested against commercially available and Committee of Tactical Combat Casualty Care (CoTCCC)- recommended tourniquets (C-A-T™ and SOF™TT-W). We tested how well the tourniquets could hold pressure for up to 2 hours.
Results: A Kruskal-Wallis test revealed significant differences between the groups (p<.05). Post-hoc testing revealed a signif- icant difference between the C-A-T and the Ukrainian tourni- quet (p=.004). A similar significance was not found between the SOF™TT-W Wide and the Ukrainian model (p=.08). Dis- cussion: The Ukrainian model can hold pressure as well as the commercially available tourniquets. There is much value if this can be produced close to the battlefield. Factors including lo- gistics, cost, and self-sufficiency are important during wartime.
Conclusion: We found that our sample of 3D-printed tourni- quets, currently used in the war in Ukraine, could maintain pressure as well as the commercially available tourniquets. In- deed, our tests demonstrated that it could maintain a signifi- cantly higher pressure.
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