Cellular Biology, Physiology and Immunology, Universitat de Barcelona, Facultat de Biologia, Barcelona, Spain.
Centre Mèdic, CETIR, Barcelona, Spain.
Int J Sports Med. 2023 Jun;44(6):420-426. doi: 10.1055/a-1928-9824. Epub 2022 Aug 22.
Cortical and trabecular volumetric bone mineral density (vBMD), cortical thickness and surface BMD (sBMD, density-to-thickness ratio) were analyzed in the proximal femur of elite female football players and artistic swimmers using three-dimensional dual-energy X-ray absorptiometry (3D-DXA) software and compared to sedentary controls. Football players had significantly higher (p<0.05) vBMD (mg/cm) in the trabecular (263±44) and cortical femur (886±69) than artistic swimmers (224±43 and 844±89) and sedentary controls (215±51 and 841±85). Football players had also higher (p<0.05) cortical thickness (2.12±0.19 mm) and sBMD (188±22 mg/cm) compared to artistic swimmers (1.85±0.15 and 156±21) and sedentary controls (1.87±0.16 and 158±23). Artistic swimmers did not show significant differences in any parameter analyzed for 3D-DXA when compared to sedentary controls. The 3D-DXA modeling revealed statistical differences in cortical thickness and vBMD between female athletes engaged in weight-bearing (football) and non-weight bearing (swimming) sports and did not show differences between the non-weight bearing sport and the sedentary controls. 3D-DXA modeling could provide insight into bone remodeling in the sports field, allowing evaluation of femoral trabecular and cortical strength from standard DXA scans.
使用三维双能 X 射线吸收法(3D-DXA)软件分析了优秀女性足球运动员和艺术游泳运动员的股骨近端的皮质和小梁容积骨矿物质密度(vBMD)、皮质厚度和表面 BMD(sBMD,密度-厚度比),并与久坐不动的对照组进行了比较。足球运动员的小梁(263±44)和皮质股骨(886±69)的 vBMD(mg/cm)明显高于艺术游泳运动员(224±43 和 844±89)和久坐不动的对照组(215±51 和 841±85)(p<0.05)。与艺术游泳运动员(1.85±0.15 和 156±21)和久坐不动的对照组(1.87±0.16 和 158±23)相比,足球运动员的皮质厚度(2.12±0.19mm)和 sBMD(188±22mg/cm)也更高(p<0.05)。与久坐不动的对照组相比,艺术游泳运动员在 3D-DXA 分析的任何参数上均未显示出显著差异。3D-DXA 建模显示,从事负重(足球)和非负重(游泳)运动的女性运动员的皮质厚度和 vBMD 存在统计学差异,且非负重运动与久坐不动的对照组之间无差异。3D-DXA 建模可以深入了解运动领域的骨重塑,允许从标准 DXA 扫描评估股骨小梁和皮质的强度。
