Biomechanics Research Laboratory, Department of Orthopaedics and Rehabilitation, Yale University School of Medicine, New Haven, Connecticut 06520-8071, USA.
Clin J Sport Med. 2012 Sep;22(5):390-6. doi: 10.1097/JSM.0b013e3182686789.
To simulate horizontally aligned head-first impacts with initial head protrusion using a human cadaveric neck model and to determine biomechanical responses, injuries, and injury severity.
Head-first impacts with initial head protrusion were simulated at 2.4 m/s using a human cadaver neck model (n = 10) mounted horizontally to a torso-equivalent mass on a sled and carrying a surrogate head. Macroscopic neck injuries were determined, and ligamentous injuries were quantified using fluoroscopy and visual inspection after the impacts. Representative time-history responses for injured specimens were determined during impact using load cell data and analyses of high-speed video.
Biomechanics research laboratory.
Cervical spines of 10 human cadavers.
Injury severity at the middle and lower cervical spine was statistically compared using a 2-sample t test (P < 0.05).
Neck buckling consisted of hyperflexion at C6/7 and C7/T1 and hyperextension at superior spinal levels. Noncontiguous neck injuries included forward dislocation at C7/T1, spinous process fracture and compression-extension injuries at the middle cervical spine, and atlas and odontoid fractures. Ligamentous injury severity at C7/T1 was significantly greater than at the middle cervical spine.
Distinct injury mechanisms were observed throughout the neck, consisting of extension-compression and posterior shear at the upper and middle cervical spine and flexion-compression and anterior shear at C6/7 and C7/T1. Our experimental results highlight the importance of clinical awareness of potential noncontiguous cervical spine injuries due to head-first sports impacts.
使用人体尸体颈椎模型模拟初始头部前突的水平对齐的头先撞击,并确定生物力学反应、损伤和损伤严重程度。
使用人体尸体颈椎模型(n = 10),将其水平安装在雪橇上的躯干等效质量上,并携带替代头部,以 2.4 m/s 的速度模拟头先撞击,初始头部前突。确定宏观颈部损伤,并在撞击后使用透视和目视检查量化韧带损伤。使用测力传感器数据和高速视频分析确定撞击过程中受伤标本的代表性时程响应。
生物力学研究实验室。
10 具人体尸体的颈椎。
使用两样本 t 检验(P < 0.05)对中下颈椎的损伤严重程度进行统计学比较。
颈部弯曲包括 C6/7 和 C7/T1 的过伸和上脊柱水平的过屈。非连续颈部损伤包括 C7/T1 的前脱位、棘突骨折和中颈椎的压缩-伸展损伤,以及寰枢椎和齿突骨折。C7/T1 的韧带损伤严重程度明显大于中颈椎。
在整个颈部观察到不同的损伤机制,包括上颈椎和中颈椎的伸展-压缩和后向剪切,以及 C6/7 和 C7/T1 的屈曲-压缩和前向剪切。我们的实验结果强调了由于头先运动撞击,临床医生对潜在的非连续颈椎损伤的认识的重要性。
