Department of Orthopaedics, Osaka University Graduate School of Medicine, Osaka;
Department of Orthopaedic Surgery, Osaka Rosai Hospital, Osaka;
J Neurosurg Spine. 2015 Aug;23(2):209-16. doi: 10.3171/2014.12.SPINE14590. Epub 2015 May 15.
OBJECT Usually additional anchors into the ilium are necessary in long fusion to the sacrum for degenerative lumbar spine disorders (DLSDs), especially for adult spine deformity. Although the use of anchors is becoming quite common, surgeons must always keep in mind that the sacroiliac (SI) joint is mobile and they should be aware of the kinematic properties of the SI joint in patients with DLSDs, including adult spinal deformity. No previous study has clarified in vivo kinematic changes in the SI joint with respect to patient age, sex, or parturition status or the presence of DLSDs. The authors conducted a study to clarify the mobility and kinematic characteristics of the SI joint in patients with DLSDs in comparison with healthy volunteers by using in vivo 3D motion analysis with voxel-based registration, a highly accurate, noninvasive method. METHODS Thirteen healthy volunteers (the control group) and 20 patients with DLSDs (the DLSD group) underwent low-dose 3D CT of the lumbar spine and pelvis in 3 positions (neutral, maximal trunk flexion, and maximal trunk extension). SI joint motion was calculated by computer processing of the CT images (voxel-based registration). 3D motion of the SI joint was expressed as both 6 df by Euler angles and translations on the coordinate system and a helical axis of rotation. The correlation between joint motion and the cross-sectional area of the trunk muscles was also investigated. RESULTS SI joint motion during trunk flexion-extension was minute in healthy volunteers. The mean rotation angles during trunk flexion were 0.07° around the x axis, -0.02° around the y axis, and 0.16° around the z axis. The mean rotation angles during trunk extension were 0.38° around the x axis, -0.08° around the y axis, and 0.08° around the z axis. During trunk flexion-extension, the largest amount of motion occurred around the x axis. In patients with DLSDs, the mean rotation angles during trunk flexion were 0.57° around the x axis, 0.01° around the y axis, and 0.19° around the z axis. The mean rotation angles during trunk extension were 0.68° around the x axis, -0.11° around the y axis, and 0.05° around the z axis. Joint motion in patients with DLSDs was significantly greater, with greater individual difference, than in healthy volunteers. Among patients with DLSDs, women had significantly more motion than men did during trunk extension. SI joint motion was significantly negatively correlated with the cross-sectional area of the trunk muscles during both flexion and extension of the trunk. CONCLUSIONS The authors elucidated the mobility and kinematic characteristics of the SI joint in patients with DLSDs compared with healthy volunteers for the first time. This information is useful for spine surgeons because of the recent increase in spinopelvic fusion for the treatment of DLSDs.
在退行性腰椎疾病(DLSD)的脊柱融合中,尤其是在成人脊柱畸形的情况下,通常需要将额外的锚钉固定到骶骨上以延长融合范围。尽管使用锚钉的情况越来越普遍,但外科医生必须始终牢记骶髂(SI)关节是可活动的,并且应该了解 DLSD 患者,包括成人脊柱畸形患者的 SI 关节运动学特性。以前没有研究阐明过患者年龄、性别、分娩状态或 DLSD 存在与否与 SI 关节的体内运动学变化之间的关系。作者采用基于体素的配准的体内三维运动分析,对 DLSD 患者的 SI 关节进行了一项研究,旨在阐明与健康志愿者相比,DLSD 患者的 SI 关节的活动性和运动学特征,该方法具有高度准确性、非侵入性的特点。
13 名健康志愿者(对照组)和 20 名 DLSD 患者(DLSD 组)接受了腰椎和骨盆的低剂量 3D CT 检查,在 3 个位置(中立位、最大躯干前屈位和最大躯干伸展位)下进行。通过 CT 图像的计算机处理(基于体素的配准)计算 SI 关节运动。SI 关节的三维运动分别用欧拉角和坐标系上的平移以及旋转螺旋轴表示。还研究了关节运动与躯干肌肉横截面积之间的相关性。
健康志愿者在躯干屈伸时 SI 关节运动幅度很小。躯干前屈时的平均旋转角度分别为 X 轴 0.07°,Y 轴-0.02°,Z 轴 0.16°。躯干伸展时的平均旋转角度分别为 X 轴 0.38°,Y 轴-0.08°,Z 轴 0.08°。在躯干屈伸过程中,X 轴的运动幅度最大。在 DLSD 患者中,躯干前屈时的平均旋转角度分别为 X 轴 0.57°,Y 轴 0.01°,Z 轴 0.19°。躯干伸展时的平均旋转角度分别为 X 轴 0.68°,Y 轴-0.11°,Z 轴 0.05°。DLSD 患者的关节运动明显大于健康志愿者,个体差异也更大。在 DLSD 患者中,女性在躯干伸展时的运动幅度明显大于男性。SI 关节运动与躯干屈伸时的躯干肌肉横截面积呈显著负相关。
作者首次阐明了与健康志愿者相比,DLSD 患者的 SI 关节的活动性和运动学特征。由于目前用于治疗 DLSD 的脊柱骨盆融合术的增加,这些信息对脊柱外科医生很有用。
