University of Texas, San Antonio, TX.
Department of Orthopedic Surgery, Columbia University Medical Center, The Och Spine Hospital at New York, Presbyterian, New York, NY.
Spine (Phila Pa 1976). 2022 Oct 1;47(19):1399-1406. doi: 10.1097/BRS.0000000000004414. Epub 2022 Jul 15.
This is a cross-sectional cohort.
The aim was to describe sagittal plane alignment and balance in a multinational cohort of nondegenerated, asymptomatic adults.
Current sagittal alignment targets were developed using correlations between radiographic and quality-of-life measures in spinal deformity patients, rather than disease-free samples leading to relatively poor accounting for variance within a population.
Sagittal balance was defined using vertebral body tilt and spinopelvic alignment was defined as the vertebral pelvic angles from C2 to L5 (vertebral pelvic angle=vertebral tilt+pelvic tilt). Associations with pelvic incidence (PI) were assessed using linear regression. Multivariable linear regression was used to estimate a normal L1-S1 lordosis, adjusting for PI and the L1 pelvic angle (L1PA). Correlation between the L1 and T4 pelvic angles was assessed to define a normal thoracic alignment conditioned on lumbar alignment.
Among 320 volunteers from 4 continents, median age was 37% and 60% were female. C2 tilt was independent of PI with minimal variation. PI was inadequate for estimating a normal lumbar lordosis (L1-S1, r2 =0.3), but was strongly associated with the lumbar pelvic angles (L1PA, r2 =0.58). Defining lumbar lordosis as a function of PI and L1PA resulted in high explained variance ( R2 =0.74) and the T4 pelvic angle had near perfect correlation with the L1PA ( r =0.9).
We defined normal sagittal balance and spinopelvic alignment in a disease-free international volunteer cohort. Four parameters are either fixed or directly modifiable in surgery and can define a normal thoracic and lumbar alignment: the L1-S1 lordosis defined as a function of PI and the L1PA; and the T4 pelvic angle is nearly equivalent to the L1PA, aligning the T4-L1-hip axis.
这是一项横断面队列研究。
旨在描述非退行性、无症状成年人的多国家队列的矢状面排列和平衡。
目前的矢状面排列目标是使用脊柱畸形患者的影像学和生活质量测量之间的相关性来制定的,而不是使用无疾病样本,这导致人群内的方差解释较差。
使用椎体倾斜来定义矢状面平衡,使用 C2 至 L5 的椎体骨盆角来定义骨盆脊柱的排列(椎体骨盆角=椎体倾斜+骨盆倾斜)。使用线性回归评估与骨盆入射角(PI)的相关性。使用多元线性回归估计正常的 L1-S1 前凸,调整 PI 和 L1 骨盆角(L1PA)。评估 L1 和 T4 骨盆角之间的相关性,以确定腰椎排列正常的情况下胸椎的排列。
在来自四大洲的 320 名志愿者中,中位年龄为 37%,60%为女性。C2 倾斜与 PI 无关,变化最小。PI 不足以估计正常的腰椎前凸(L1-S1,r2=0.3),但与腰椎骨盆角(L1PA,r2=0.58)密切相关。将腰椎前凸定义为 PI 和 L1PA 的函数,可获得较高的解释方差(R2=0.74),并且 T4 骨盆角与 L1PA 几乎完全相关(r=0.9)。
我们在无疾病的国际志愿者队列中定义了正常的矢状面平衡和骨盆脊柱排列。手术中四个参数是固定的或可直接修改的,可定义正常的胸椎和腰椎排列:L1-S1 前凸定义为 PI 和 L1PA 的函数;T4 骨盆角几乎等同于 L1PA,可使 T4-L1-髋轴对齐。
