在跑步机上跑步 40 分钟期间和之后,股骨软骨的形态学反应。
Morphologic Response in Femoral Cartilage During and After 40-Minute Treadmill Running.
机构信息
Athletic Training Laboratory, Kyung Hee University, Yongin, Republic of Korea.
出版信息
J Athl Train. 2024 Sep 1;59(9):906-914. doi: 10.4085/1062-6050-0659.22.
CONTEXT
It is unclear whether the response in femoral cartilage to running at different intensities is different.
OBJECTIVE
To examine the acute patterns of deformation and recovery in femoral cartilage thickness during and after running at different speeds.
DESIGN
Crossover study.
SETTING
Laboratory.
PATIENTS OR OTHER PARTICIPANTS
A total of 17 healthy men (age = 23.9 ± 2.3 years, height = 173.1 ± 5.5 cm, mass = 73.9 ± 8.0 kg).
INTERVENTION(S): Participants performed a 40-minute treadmill run at speeds of 7.5 and 8.5 km/h.
MAIN OUTCOME MEASURE(S): Ultrasonographic images of femoral cartilage thickness (intercondylar, lateral condyle, and medial condyle) were obtained every 5 minutes during the experiment (40 minutes of running followed by a 60-minute recovery period) at each session. Data were analyzed using analysis of variance and Bonferroni- and Dunnett-adjusted post hoc t tests. To identify patterns of cartilage response, we extracted principal components (PCs) from the cartilage-thickness data using PC analysis, and PC scores were analyzed using t tests.
RESULTS
Regardless of time, femoral cartilage thicknesses were greater for the 8.5-km/h run than the 7.5-km/h run (intercondylar: F1,656 = 24.73, P < .001, effect size, 0.15; lateral condyle: F1,649 = 16.60, P < .001, effect size, 0.16; medial condyle: F1,649 = 16.55, P < .001, effect size, 0.12). We observed a time effect in intercondylar thickness (F20,656 = 2.15, P = .003), but the Dunnett-adjusted post hoc t test revealed that none of the time point values differed from the baseline value (P > .38 for all comparisons). Although the PC1 and PC2 captured the magnitudes of cartilage thickness and time shift (eg, earlier versus later response), respectively, t tests showed that the PC scores were not different between 7.5 and 8.5 km/h (intercondylar: P ≥ .32; lateral condyle: P ≥ .78; medial condyle: P ≥ .16).
CONCLUSIONS
Although the 40-minute treadmill run with different speeds produced different levels of fatigue, morphologic differences (<3%) in the femoral cartilage at both speeds seemed to be negligible.
背景
目前尚不清楚在不同强度下,股骨软骨对跑步的反应是否不同。
目的
检测在不同速度下跑步过程中和跑步后股骨软骨厚度的急性变形和恢复模式。
设计
交叉研究。
设置
实验室。
患者或其他参与者
共 17 名健康男性(年龄=23.9±2.3 岁,身高=173.1±5.5cm,体重=73.9±8.0kg)。
干预
参与者以 7.5 和 8.5km/h 的速度在跑步机上进行 40 分钟的跑步。
主要观察指标
在每次实验(40 分钟跑步后 60 分钟恢复期)中,每隔 5 分钟使用超声获取股骨软骨厚度(髁间、外侧髁和内侧髁)的图像。使用方差分析和 Bonferroni 及 Dunnett 校正后配对 t 检验分析数据。为了确定软骨反应的模式,我们使用 PC 分析从软骨厚度数据中提取主成分(PC),并使用 t 检验分析 PC 得分。
结果
无论时间如何,8.5km/h 跑步时股骨软骨厚度均大于 7.5km/h 跑步(髁间:F1,656=24.73,P<0.001,效应量 0.15;外侧髁:F1,649=16.60,P<0.001,效应量 0.16;内侧髁:F1,649=16.55,P<0.001,效应量 0.12)。我们观察到髁间厚度存在时间效应(F20,656=2.15,P=0.003),但 Dunnett 校正后配对 t 检验显示,任何时间点的值均与基线值无差异(所有比较 P>0.38)。尽管 PC1 和 PC2 分别捕获了软骨厚度和时间变化的幅度(例如,更早与更晚的反应),但 t 检验显示 7.5 和 8.5km/h 之间的 PC 得分无差异(髁间:P≥0.32;外侧髁:P≥0.78;内侧髁:P≥0.16)。
结论
尽管以不同速度进行 40 分钟跑步机跑步会产生不同程度的疲劳,但两种速度下股骨软骨的形态差异(<3%)似乎可以忽略不计。
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