Tim Nutbeam, Rob Fenwick, Barbara May, Willem Stassen, Jason Smith, James Shippen
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Maximal movement and travel are reported. These data and a re-analysis of previously published work is used to demonstrate the utility of travel and maximal movement in the context of self-extrication.</p><p><strong>Results: </strong>Data from a total of 60 in-vehicle collar applications across three female and three male volunteers was successfully collected for analysis. The mean age across participants was 50.3 years (range 28-68) and the BMI was 27.7 (range 21.5-34.6). The mean maximal anterior-posterior movement associated with collar application was 2.3 mm with a total AP travel of 4.9 mm. Travel (total movement) for in-car application of collar and self-extrication was 9.5 mm compared to 9.4 mm travel for self-extrication without a collar.</p><p><strong>Conclusion: </strong>We have demonstrated the application of 'travel' in the context of self-extrication. Total travel is similar across self-extricating healthy volunteers with and without a collar. We suggest that where possible 'travel' is collected and reported in future biomechanical studies in this and related areas of research. It remains appropriate to apply a cervical collar to self-extricating casualties when the clinical target is that of movement minimisation.</p>","PeriodicalId":501057,"journal":{"name":"Scandinavian Journal of Trauma, Resuscitation and Emergency Medicine","volume":" ","pages":"4"},"PeriodicalIF":0.0000,"publicationDate":"2022-01-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8760812/pdf/","citationCount":"4","resultStr":"{\"title\":\"Maximum movement and cumulative movement (travel) to inform our understanding of secondary spinal cord injury and its application to collar use in self-extrication.\",\"authors\":\"Tim Nutbeam, Rob Fenwick, Barbara May, Willem Stassen, Jason Smith, James Shippen\",\"doi\":\"10.1186/s13049-022-00992-9\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>Motor vehicle collisions remain a common cause of spinal cord injury. 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引用次数: 4
摘要
背景:机动车碰撞仍然是脊髓损伤的常见原因。脊柱运动的生物力学研究往往缺乏“真实世界”的背景和适用性。额外的数据可能会增强我们对继发性脊髓损伤可能性的理解。我们提出了“旅行”(总运动)的度量,并建议如果旅行被常规报道,我们对运动相关伤害风险的理解可以得到改善。我们报告最大的运动和旅行项圈应用在车辆和随后的自我解脱。方法:采用惯性测量仪采集6名健康志愿者在车内应用颈套的生物力学数据。最大运动和旅行报告。这些数据和先前发表的工作的重新分析被用来证明在自我解脱的背景下旅行和最大运动的效用。结果:成功收集了三名女性和三名男性志愿者共60个车内项圈应用的数据进行分析。参与者的平均年龄为50.3岁(范围28-68),BMI为27.7(范围21.5-34.6)。与领圈应用相关的最大平均前后移动为2.3 mm, AP总移动为4.9 mm。与不带项圈的自解脱相比,车内应用项圈和自解脱的行程(总移动量)为9.5 mm。结论:我们论证了“旅行”在自我解脱情境中的应用。在有和没有项圈的自我解脱的健康志愿者中,总旅行量是相似的。我们建议,在可能的情况下,收集和报告“旅行”在未来的生物力学研究和相关领域的研究。当临床目标是最大限度地减少活动时,应用颈套仍然是合适的。
Maximum movement and cumulative movement (travel) to inform our understanding of secondary spinal cord injury and its application to collar use in self-extrication.
Background: Motor vehicle collisions remain a common cause of spinal cord injury. Biomechanical studies of spinal movement often lack "real world" context and applicability. Additional data may enhance our understanding of the potential for secondary spinal cord injury. We propose the metric 'travel' (total movement) and suggest that our understanding of movement related risk of injury could be improved if travel was routinely reported. We report maximal movement and travel for collar application in vehicle and subsequent self-extrication.
Methods: Biomechanical data on application of cervical collar with the volunteer sat in a vehicle were collected using Inertial Measurement Units on 6 healthy volunteers. Maximal movement and travel are reported. These data and a re-analysis of previously published work is used to demonstrate the utility of travel and maximal movement in the context of self-extrication.
Results: Data from a total of 60 in-vehicle collar applications across three female and three male volunteers was successfully collected for analysis. The mean age across participants was 50.3 years (range 28-68) and the BMI was 27.7 (range 21.5-34.6). The mean maximal anterior-posterior movement associated with collar application was 2.3 mm with a total AP travel of 4.9 mm. Travel (total movement) for in-car application of collar and self-extrication was 9.5 mm compared to 9.4 mm travel for self-extrication without a collar.
Conclusion: We have demonstrated the application of 'travel' in the context of self-extrication. Total travel is similar across self-extricating healthy volunteers with and without a collar. We suggest that where possible 'travel' is collected and reported in future biomechanical studies in this and related areas of research. It remains appropriate to apply a cervical collar to self-extricating casualties when the clinical target is that of movement minimisation.
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