Ivancic Paul C, Sha Daohang, Panjabi Manohar M
Biomechanics Research Laboratory, Department of Orthopaedics and Rehabilitation, Yale University, School of Medicine, New Haven, CT 06520-8071, USA.
Clin Biomech (Bristol). 2009 Nov;24(9):699-707. doi: 10.1016/j.clinbiomech.2009.06.011. Epub 2009 Aug 8.
Previous epidemiological studies have observed that an initial head restraint backset greater than 10 cm is associated with a higher risk of neck injury and persistent symptoms. The objective of this study was to investigate the relation between the active head restraint position and peak neck motion using a new human model of the neck.
The model consisted of an osteoligamentous neck specimen mounted to the torso of a rear impact dummy and carrying an anthropometric head stabilized with muscle force replication. Rear impacts (7.1 and 11.1g) were simulated with and without the active head restraint. Physiologic rotation was determined from intact flexibility tests. Significant reductions (P<0.05) in the spinal motion peaks with the active head restraint, as compared to without, were identified. Linear regression analyses identified correlation between head restraint backset and peak spinal rotations (R(2)>0.3 and P<0.001).
The active head restraint significantly reduced the average peak spinal rotations, however, these peaks exceeded the physiologic range in flexion at head/C1 and in extension at C4/5 through C7/T1. Correlation was observed between the head restraint backset and the extension peaks at C4/5 and C5/6.
Correlation between head restraint backset and spinal rotation peaks indicated that a head restraint backset in excess of 8.0 cm may cause hyperextension injuries at the middle and lower cervical spine. The active head restraint may not be fully activated at the time of peak spinal motions, thus reducing its potential protective effects.
以往的流行病学研究观察到,初始头枕后倾距离大于10厘米与颈部损伤及持续症状的较高风险相关。本研究的目的是使用一种新的人体颈部模型来研究主动式头枕位置与颈部运动峰值之间的关系。
该模型由一个安装在后部碰撞假人躯干上的骨韧带颈部标本组成,并承载一个通过肌肉力复制稳定的人体测量头部。在有和没有主动式头枕的情况下模拟后部碰撞(7.1和11.1g)。通过完整的柔韧性测试确定生理旋转。与没有主动式头枕相比,确定了主动式头枕使脊柱运动峰值显著降低(P<0.05)。线性回归分析确定了头枕后倾距离与脊柱旋转峰值之间的相关性(R²>0.3且P<0.001)。
主动式头枕显著降低了脊柱旋转的平均峰值,然而,这些峰值在头/颈1的屈曲以及颈4/5至颈7/胸1的伸展中超过了生理范围。观察到头枕后倾距离与颈4/5和颈5/6的伸展峰值之间存在相关性。
头枕后倾距离与脊柱旋转峰值之间的相关性表明,头枕后倾距离超过8.0厘米可能会导致颈椎中下段的过伸损伤。在脊柱运动峰值时,主动式头枕可能未完全激活,从而降低了其潜在的保护作用。
