Rao Raj D, Berry Chirag A, Yoganandan Narayan, Agarwal Arnav
Department of Orthopaedic Surgery, Medical College of Wisconsin, 9200 W. Wisconsin Ave., Milwaukee, WI 53226, USA.
Department of Orthopaedic Surgery, Medical College of Wisconsin, 9200 W. Wisconsin Ave., Milwaukee, WI 53226, USA.
Spine J. 2014 Oct 1;14(10):2355-65. doi: 10.1016/j.spinee.2014.01.038. Epub 2014 Jan 31.
Motor vehicle collisions (MVC) are a leading cause of thoracic and lumbar (T and L) spine injuries. Mechanisms of injury in vehicular crashes that result in thoracic and lumbar fractures and the spectrum of injury in these occupants have not been extensively studied in the literature.
The objective was to investigate the patterns of T and L spine injuries after MVC; correlate these patterns with restraint use, crash characteristics, and demographic variables; and study the associations of these injuries with general injury morbidity and fatality.
STUDY DESIGN/SETTING: The study design is a retrospective study of a prospectively gathered database.
Six hundred thirty-one occupants with T and L (T1-L5) spine injuries from 4,572 occupants included in the Crash Injury Research and Engineering Network (CIREN) database between 1996 and 2011 were included in this study.
No clinical outcome measures were evaluated in this study.
The CIREN database includes moderate to severely injured occupants from MVC involving vehicles manufactured recently. Demographic, injury, and crash data from each patient were analyzed for correlations between patterns of T and L spine injuries, associated extraspinal injuries and overall injury severity score (ISS), type and use of seat belts, and other crash characteristics. T and L spine injuries patterns were categorized using a modified Denis' classification to include extension injuries as a separate entity.
T and L spine injuries were identified in 631 of 4,572 vehicle occupants, of whom 299 sustained major injuries (including 21 extension injuries) and 332 sustained minor injuries. Flexion-distraction injuries were more prevalent in children and young adults and extension injuries in older adults (mean age, 65.7 years). Occupants with extension injuries had a mean body mass index of 36.0 and a fatality rate of 23.8%, much higher than the fatality rate for the entire cohort (10.9%). The most frequent extraspinal injuries (Abbreviated Injury Scale Grade 2 or more) associated with T and L spine injuries involved the chest (seen in 65.6% of 631 occupants). In contrast to occupants with major T and L spine injuries, those with minor T and L spine injuries showed a strikingly greater association with pelvic and abdominal injuries. Occupants with minor T and L spine injuries had a higher mean ISS (27.1) than those with major T and L spine injuries (25.6). Among occupants wearing a three-point seat belt, 35.3% sustained T and L spine injuries, whereas only 11.6% of the unbelted occupants sustained T and L spine injuries. Three-point belted individuals were more likely to sustain burst fractures, whereas two-point belted occupants sustained flexion-distraction injuries most often and unbelted occupants had a predilection for fracture-dislocations of the T and L spines. Three-point seat belts were protective against neurologic injury, higher ISS, and fatality.
T and L spine fracture patterns are influenced by the age of occupant and type and use of seat belts. Despite a reduction in overall injury severity and mortality, seat belt use is associated with an increased incidence of T and L spine fractures. Minor T and L spine fractures were associated with an increased likelihood of pelvic and abdominal injuries and higher ISSs, demonstrating their importance in predicting overall injury severity. Extension injuries occurred in older obese individuals and were associated with a high fatality rate. Future advancements in automobile safety engineering should address the need to reduce T and L spine injuries in belted occupants.
机动车碰撞(MVC)是胸腰椎(T和L)脊柱损伤的主要原因。导致胸腰椎骨折的车辆碰撞损伤机制以及这些驾乘人员的损伤谱在文献中尚未得到广泛研究。
本研究目的是调查机动车碰撞后胸腰椎损伤的模式;将这些模式与安全带使用情况、碰撞特征和人口统计学变量相关联;并研究这些损伤与总体损伤发病率和死亡率之间的关联。
研究设计/地点:本研究设计为对前瞻性收集的数据库进行回顾性研究。
本研究纳入了1996年至2011年间来自碰撞损伤研究与工程网络(CIREN)数据库的4572名驾乘人员中的631名胸腰椎(T1-L5)损伤的驾乘人员。
本研究未评估临床结局指标。
CIREN数据库包括近期生产车辆发生的机动车碰撞中中度至重度受伤的驾乘人员。分析了每位患者的人口统计学、损伤和碰撞数据,以研究胸腰椎损伤模式、相关脊柱外损伤与总体损伤严重程度评分(ISS)、安全带类型和使用情况以及其他碰撞特征之间的相关性。胸腰椎损伤模式采用改良的Denis分类法进行分类,将伸展损伤作为一个单独的类别。
在4572名车辆驾乘人员中有631人发生胸腰椎损伤,其中299人受重伤(包括21例伸展损伤),332人受轻伤。屈曲-牵张损伤在儿童和年轻人中更为常见,而伸展损伤在老年人中更为常见(平均年龄65.7岁)。发生伸展损伤的驾乘人员平均体重指数为36.0,死亡率为23.8%,远高于整个队列的死亡率(10.9%)。与胸腰椎损伤相关的最常见的脊柱外损伤(简明损伤定级为2级或更高)累及胸部(在631名驾乘人员中有65.6%出现)。与胸腰椎重伤的驾乘人员相比,胸腰椎轻伤的驾乘人员与骨盆和腹部损伤的关联更为显著。胸腰椎轻伤的驾乘人员平均ISS(27.1)高于胸腰椎重伤的驾乘人员(25.6)。在佩戴三点式安全带的驾乘人员中,35.3%发生胸腰椎损伤,而未系安全带的驾乘人员中只有11.6%发生胸腰椎损伤。系三点式安全带的人更易发生爆裂骨折,而系两点式安全带的驾乘人员最常发生屈曲-牵张损伤,未系安全带的驾乘人员则易发生胸腰椎骨折脱位。三点式安全带可预防神经损伤、降低ISS并降低死亡率。
胸腰椎骨折模式受驾乘人员年龄以及安全带类型和使用情况的影响。尽管总体损伤严重程度和死亡率有所降低,但安全带的使用与胸腰椎骨折发生率的增加有关。胸腰椎轻伤与骨盆和腹部损伤的可能性增加以及较高的ISS相关,表明它们在预测总体损伤严重程度方面的重要性。伸展损伤发生在老年肥胖个体中,且与高死亡率相关。汽车安全工程的未来进展应满足减少系安全带驾乘人员胸腰椎损伤的需求。
