Araújo Fábio A, Martins Ana, Alegrete Nuno, Howe Laura D, Lucas Raquel
ISPUP-EPIUnit, Universidade do Porto, Rua das Taipas 135, Porto 4050-600, Portugal; Departamento de Ciências da Saúde Pública e Forenses e Educação Médica, Faculdade de Medicina, Universidade do Porto, Alameda Prof. Hernâni Monteiro, Porto 4200-319, Portugal.
ISPUP-EPIUnit, Universidade do Porto, Rua das Taipas 135, Porto 4050-600, Portugal; Departamento de Ciências da Saúde Pública e Forenses e Educação Médica, Faculdade de Medicina, Universidade do Porto, Alameda Prof. Hernâni Monteiro, Porto 4200-319, Portugal.
Spine J. 2017 Oct;17(10):1426-1434. doi: 10.1016/j.spinee.2017.04.024. Epub 2017 May 4.
In each specific habitual standing posture, gravitational forces determine the mechanical setting provided to skeletal structures. Bone quality and resistance to physical stress is highly determined by habitual mechanical stimulation. However, the relationship between bone properties and sagittal posture has never been studied in children.
This study aimed to investigate the association between bone physical properties and sagittal standing postural patterns in 7-year-old children. We also analyzed the relationship between fat or fat-free mass and postural patterns.
Cross-sectional evaluation.
This study was performed in a sample of 1,138 girls and 1,260 boys at 7 years of age participating in the Generation XXI study, a population-based cohort of children followed since birth (2005-2006) and recruited in Porto, Portugal.
Sagittal standing posture was measured through photographs of the sagittal right view of children in the standing position. Three angles were considered to quantify the magnitude of major curves of the spine and an overall balance measure (trunk, lumbar, and sway angles). Postural patterns were identified using latent profile analysis in Mplus.
Weight and height were measured. Total body less head fat or fat-free mass and bone properties were estimated from whole-body dual-energy X-ray absorptiometry scans. The associations of fat or fat-free mass and bone physical properties with postural patterns were jointly estimated in latent profile analysis using multinomial logistic regressions.
The identified patterns were labeled as Sway, Flat, and "Neutral to Hyperlordotic" (in girls), and "Sway to Neutral," Flat, and Hyperlordotic (in boys). In both genders, children in the Flat pattern showed the lowest body mass index, and children with a rounded posture presented the highest: mean differences varying from -0.86 kg/m to 0.60 kg/m in girls and from -0.70 kg/m to 0.62 kg/m in boys (vs. Sway or "Sway to Neutral"). Fat and fat-free mass were inversely associated with a Flat pattern and positively associated with a rounded posture: odds ratio (OR) of 0.23 per standard deviation (SD) fat and 0.70 per SD fat-free mass for the Flat pattern, and 1.85 (fat) and 1.43 (fat-free) for the Hyperlordotic pattern in boys, with similar findings in girls. The same direction of relationships was observed between bone physical properties and postural patterns. A positive association between bone (especially bone mineral density) and a rounded posture was robust to adjustment for age, height, and body composition (girls: OR=1.79, p=.006 fat-adjusted, OR=2.00, p=.014 fat-free mass adjusted; boys: OR=2.02, p=.002 fat-adjusted, OR=2.42, p<.001 fat-free mass adjusted).
In this population-based pediatric setting, there was an inverse association between bone physical properties and a Flat posture. Bone and posture were more strongly positively linked in a rounded posture. Our results support that both bone properties and posture mature in a shared and interrelated mechanical environment, probably modulated by pattern-specific anthropometrics and body composition.
在每种特定的习惯性站立姿势中,重力决定了施加于骨骼结构的力学环境。骨质量和对物理应力的抵抗力在很大程度上取决于习惯性的力学刺激。然而,儿童骨骼特性与矢状位姿势之间的关系从未被研究过。
本研究旨在调查7岁儿童骨骼物理特性与矢状位站立姿势模式之间的关联。我们还分析了脂肪或去脂体重与姿势模式之间的关系。
横断面评估。
本研究以1138名7岁女孩和1260名7岁男孩为样本,他们参与了“二十一世纪一代”研究,这是一个自出生(2005 - 2006年)起就进行跟踪的基于人群的儿童队列,在葡萄牙波尔图招募。
通过拍摄儿童站立位时矢状面右侧的照片来测量矢状位站立姿势。考虑三个角度来量化脊柱主要曲线的大小以及一个整体平衡指标(躯干、腰椎和摆动角度)。使用Mplus中的潜在类别分析来识别姿势模式。
测量体重和身高。通过全身双能X线吸收法扫描估计全身(不含头部)脂肪或去脂体重以及骨骼特性。在潜在类别分析中,使用多项逻辑回归联合估计脂肪或去脂体重以及骨骼物理特性与姿势模式之间的关联。
识别出的模式在女孩中被标记为“摆动型(Sway)”、“扁平型(Flat)”和“中立至腰椎前凸过度型(Neutral to Hyperlordotic)”,在男孩中被标记为“摆动至中立型(Sway to Neutral)”、“扁平型(Flat)”和“腰椎前凸型(Hyperlordotic)”。在两种性别中,扁平型姿势的儿童体重指数最低,姿势呈圆形的儿童体重指数最高:女孩的平均差异从 - 0.86 kg/m²至0.60 kg/m²,男孩从 - 0.70 kg/m²至0.62 kg/m²(与摆动型或“摆动至中立型”相比)。脂肪和去脂体重与扁平型姿势呈负相关,与圆形姿势呈正相关:扁平型姿势中,脂肪每标准差(SD)的优势比(OR)为0.23,去脂体重每SD为0.70;男孩中腰椎前凸型姿势脂肪的OR为1.85,去脂体重为1.43,女孩也有类似结果。骨骼物理特性与姿势模式之间观察到相同的关系方向。骨骼(尤其是骨密度)与圆形姿势之间的正相关在调整年龄、身高和身体成分后仍然显著(女孩:脂肪调整后OR = 1.79,p = 0.006;去脂体重调整后OR = 2.00,p = 0.014;男孩:脂肪调整后OR = 2.02,p = 0.002;去脂体重调整后OR = 2.42,p < 0.001)。
在这个基于人群的儿科研究中,骨骼物理特性与扁平型姿势之间存在负相关。骨骼与姿势在圆形姿势中更强烈地呈正相关。我们的结果支持骨骼特性和姿势在一个共同且相互关联的力学环境中成熟,可能受特定模式的人体测量学和身体成分调节。
