大学年龄女性痛经舞者、体操运动员和跑步者胫骨几何形状、密度和力量的比较:一项外围定量计算机断层扫描研究

IF 1.1 Q3 SPORT SCIENCES
A. Ribeiro, Brett D Bruininks, G. Street, Amanda J Smock, L. Scibora
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引用次数: 1

摘要

负重运动,如体操、足球、举重和跑步,经常被用作骨骼研究的基准,因为它们已被证明可以促进密度测量和几何益处。与其他运动相比,关于舞蹈及其成骨潜能的信息缺乏。目的本研究旨在比较大学年龄舞蹈运动员与体操运动员和跑步运动员的胫骨几何形状、密度和力量。方法将60名经训练的绝经期女舞蹈运动员(11名)、体操运动员(11名)、跑步运动员(19名)和不运动对照组(19名)纳入研究。骨测量,包括总面积(ToA),体积(总vBMD)和皮质密度(CoD),抗压骨强度(BSI)和极性强度应力指数(SSIp)的优势肢体,评估使用外围定量计算机断层扫描(pQCT)胫骨远端和近端(4%和66%的肢体长度)。结果舞者和运动员在测量部位的ToA、CoD、CoA和总vBMD均无显著差异。此外,舞蹈组和两组运动员远端和近端肌力指数(BSI和SSIp)相似。结论:与基准的高冲击和重复冲击运动相比,舞蹈引起了类似的胫骨结构适应;因此,表明舞蹈,以其各种形式,可以对影响密度和强度的重要骨变量产生积极影响。这些适应可能会延缓或防止以后的骨骼脆弱。未来的研究应该单独地、纵向地比较不同的舞蹈风格,并包括其他重要的下肢(如髋关节)和上肢(如桡骨)部位,以进一步确定哪种舞蹈形式对成骨最有利。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparison of Tibial Geometry, Density, and Strength in College-Aged Female Eumenorrheic Dancers, Gymnasts, and Runners: A Peripheral Quantitative Computed Tomography Study
Introduction Weightbearing activities such as gymnastics, soccer, weightlifting, and running have often been used as benchmarks in skeletal research since they have been shown to promote densitometric and geometric benefits. In comparison with other sports, there is a paucity of information in relation to dance and its osteogenic potential. Objective This study aimed to compare tibial geometry, density, and strength in college-aged dancers versus gymnasts and runners. Methods A total of 60 trained eumenorrheic collegiate-aged female dancers (n = 11), gymnasts (n = 11), runners (n = 19), and sedentary controls (n = 19) were included in the study. Bone measurements, including total area (ToA), volumetric (total vBMD) and cortical density (CoD), compressive bone strength (BSI), and polar strength stress index (SSIp) of the dominant limb, were assessed using peripheral quantitative computed tomography (pQCT) at the distal and proximal tibia (4% and 66% of limb length). Results No significant differences in ToA, CoD, CoA, and total vBMD were found between dancers and the comparison athletes at the measured sites. In addition, strength indices (BSI and SSIp) at the distal and proximal sites were similar between the dancing and both athlete groups. Conclusion Results suggest dance elicits similar structural adaptations at the tibia compared to benchmark high-impact and repetitive impact sports; thus, indicating dance, in its various forms, can have apositive effect on important bone variables that influence density and strength. These adaptations may potentially delay or prevent bone fragility later in life. Future studies should compare individual styles of dance separately, longitudinally, and include other important lower (e.g., hip) and upper body (e.g., radius) sites to further identify which forms provide the greatest osteogenic benefits.
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来源期刊
CiteScore
1.80
自引率
11.10%
发文量
33
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