Kuan James K, Kaufman Robert, Wright Jonathan L, Mock Charles, Nathens Avery B, Wessells Hunter, Bulger Eileen
Department of Urology, University of Washington, School of Medicine, Seattle, Washington 98102, USA.
J Urol. 2007 Sep;178(3 Pt 1):935-40; discussion 940. doi: 10.1016/j.juro.2007.05.046. Epub 2007 Jul 16.
Injury prevention requires efficient diagnosis and management, and knowledge of collision kinematics may allow first responders to triage victims earlier based on crash scene assessment. We identified possible collision patterns and vehicle interior components that may have a role in kidney injury following motor vehicle collision.
A total of 115 cases (131 renal injuries) were identified in the multicenter Crash Injury Research and Engineering Network database. For each case a crash investigation was performed, identifying vehicle kinematic characteristics, vehicle damage profile and an assessment of the interior compartment to determine points of occupant contact and restraint system use. A multidisciplinary team reviewed each case to establish a probable mechanism for all injuries sustained. Review of the medical record was performed to identify subject demographics and injury characteristics. Cases were analyzed based on frontal vs side impact.
Of the subjects 52% were male. Mean age was 36.1 years and median injury severity score was 33. Overall injuries were low grade in 72.5% of patients, 30% were unrestrained and 47.6% of collisions were side impact. No difference was observed between frontal and lateral collisions with respect to renal injury severity. For frontal impact the seat belt was the source in 26 of 29 renal injuries (90%) and 12 of 15 unrestrained cases (80%) were due to direct impact with the steering column. Of 131 side impact injuries 62 were attributable to impact with lateral compartment elements. Side impact injuries were associated with lateral door panel impact (41 of 61) with the armrest accounting for 22. The mean lateral compartment intrusion was 29.6 cm. No grade V injuries occurred when vehicle intrusion was less than 30 cm. The mean change in velocity for frontal and lateral collisions was 24.0 and 31.5 mph, respectively (p <0.05). In frontal collisions the change in velocity for kidney injuries sourced to the steering wheel vs seat belt injuries was statistically greater (41.5 vs 28.4 mph, p = 0.05).
Renal injury in frontal and side impact collisions appears to occur after direct impact from objects in the vehicle compartment. For frontal crashes occupant acceleration into the seat belt or steering wheel seems to result in renal injuries. Side impact injuries occur when the vehicle side panel intrudes into the compartment, striking the occupant. Further collision evaluation in larger data sets is required to substantiate our findings.
预防损伤需要高效的诊断和管理,而碰撞运动学知识可能使急救人员能够根据事故现场评估更早地对受害者进行分诊。我们确定了机动车碰撞后可能导致肾损伤的碰撞模式和车辆内部部件。
在多中心碰撞损伤研究与工程网络数据库中识别出115例(131例肾损伤)。对每个病例进行了碰撞调查,确定车辆运动学特征、车辆损坏情况以及对车内空间的评估,以确定乘员接触点和约束系统的使用情况。一个多学科团队对每个病例进行审查,以确定所有损伤的可能机制。查阅病历以确定受试者的人口统计学特征和损伤特征。根据正面碰撞与侧面碰撞对病例进行分析。
受试者中52%为男性。平均年龄为36.1岁,损伤严重程度评分中位数为33分。72.5%的患者总体损伤程度较低,30%的患者未系安全带,47.6%的碰撞为侧面碰撞。在肾损伤严重程度方面,正面碰撞和侧面碰撞之间未观察到差异。对于正面碰撞,29例肾损伤中有26例(90%)的损伤源为安全带,15例未系安全带的病例中有12例(80%)是由于直接撞击方向盘所致。在131例侧面碰撞损伤中,62例归因于与侧方车厢部件的撞击。侧面碰撞损伤与侧门面板撞击有关(61例中有41例),其中扶手导致的损伤占22例。侧方车厢平均侵入量为29.6厘米。当车辆侵入量小于30厘米时,未发生V级损伤。正面碰撞和侧面碰撞的平均速度变化分别为24.0英里/小时和31.5英里/小时(p<0.05)。在正面碰撞中,源自方向盘的肾损伤与安全带导致的肾损伤的速度变化在统计学上有显著差异(41.5英里/小时对28.4英里/小时,p = 0.05)。
正面碰撞和侧面碰撞中的肾损伤似乎是在车厢内物体直接撞击后发生的。对于正面碰撞,乘员加速撞向安全带或方向盘似乎会导致肾损伤。当车辆侧面板侵入车厢并撞击乘员时,会发生侧面碰撞损伤。需要在更大的数据集中进行进一步的碰撞评估以证实我们的发现。
Zotero 插件