Influence of Menstrual Cycle and Oral Contraceptive Phases on Bone (re)modelling Markers in Response to Interval Running

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Isabel Guisado-Cuadrado, Nuria Romero-Parra, Kirsty J. Elliott-Sale, Craig Sale, Ángel E. Díaz, Ana B. Peinado
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Abstract

To explore how sex hormone fluctuations may affect bone metabolism, this study aimed to examine P1NP and β-CTX-1 concentrations across the menstrual and oral contraceptive (OC) cycle phases in response to running. 17β-oestradiol, progesterone, P1NP and β-CTX-1 were analysed pre- and post-exercise in eight eumenorrheic females in the early-follicular, late-follicular, and mid-luteal phases, while 8 OC users were evaluated during the withdrawal and active pill-taking phases. The running protocol consisted of 8 × 3min treadmill runs at 85% of maximal aerobic speed. 17β-oestradiol concentrations (pg·ml−1) were lower in early-follicular (47.22 ± 39.75) compared to late-follicular (304.95 ± 235.85;p = < 0.001) and mid-luteal phase (165.56 ± 80.6;p = 0.003) and higher in withdrawal (46.51 ± 44.09) compared to active pill-taking phase (10.88 ± 11.24;p < 0.001). Progesterone (ng·ml−1) was higher in mid-luteal (13.214 ± 4.926) compared to early-follicular (0.521 ± 0.365; p < 0.001) and late-follicular phase (1.677 ± 2.586;p < 0.001). In eumenorrheic females, P1NP concentrations (ng·ml−1) were higher in late-follicular (69.97 ± 17.84) compared to early-follicular (60.96 ± 16.64;p = 0.006;) and mid-luteal phase (59.122 ± 11.77;p = 0.002). β-CTX-1 concentrations (ng·ml−1) were lower in mid-luteal (0.376 ± 0.098) compared to late-follicular (0.496 ± 0.166; p = 0.001) and early-follicular phase (0.452 ± 0.148; p = 0.039). OC users showed higher post-exercise P1NP concentrations in withdrawal phase (61.75 ± 8.32) compared to post-exercise in active pill-taking phase (45.45 ± 6;p < 0.001). Comparing hormonal profiles, post-exercise P1NP concentrations were higher in early-follicular (66.91 ± 16.26;p < 0.001), late-follicular (80.66 ± 16.35;p < 0.001) and mid-luteal phases (64.57 ± 9.68;p = 0.002) to active pill-taking phase. These findings underscore the importance of studying exercising females with different ovarian hormone profiles, as changes in sex hormone concentrations affect bone metabolism in response to running, showing a higher post-exercise P1NP concentrations in all menstrual cycle phases compared with active pill-taking phase of the OC cycle.

Abstract Image

月经周期和口服避孕药阶段对间歇性跑步时骨(再)塑形标志物的影响
为了探索性激素波动如何影响骨代谢,本研究旨在检测跑步时月经周期和口服避孕药(OC)周期中 P1NP 和 β-CTX-1 的浓度。研究分析了 8 名处于卵泡早期、卵泡晚期和黄体中期的无月经女性在运动前后的 17β-雌二醇、孕酮、P1NP 和 β-CTX-1,并对 8 名处于停药期和服药活跃期的 OC 使用者进行了评估。跑步方案包括以最大有氧速度的 85% 进行 8 × 3 分钟的跑步机跑步。17β-雌二醇浓度(pg-ml-1)在卵泡早期(47.22 ± 39.75)低于卵泡晚期(304.95 ± 235.85;p = 0.001)和黄体中期(165.56 ± 80.6;p = 0.003),在停药期(46.51 ± 44.09)高于积极服药期(10.88 ± 11.24;p = 0.001)。黄体中期(13.214 ± 4.926)的孕酮(纳克-毫升-1)高于卵泡早期(0.521 ± 0.365; p <0.001)和卵泡晚期(1.677 ± 2.586; p <0.001)。与卵泡早期(60.96 ± 16.64;p = 0.006;)和黄体中期(59.122 ± 11.77;p = 0.002)相比,卵泡晚期(69.97 ± 17.84)和黄体中期(59.122 ± 11.77;p = 0.002)雌性雌激素的 P1NP 浓度(纳克-毫升-1)更高。β-CTX-1浓度(纳克-毫升-1)在黄体中期(0.376 ± 0.098)低于卵泡晚期(0.496 ± 0.166; p = 0.001)和卵泡早期(0.452 ± 0.148; p = 0.039)。与服药活跃期(45.45 ± 6;p = 0.001)相比,OC 使用者在停药期(61.75 ± 8.32)的运动后 P1NP 浓度更高。比较激素谱,运动后 P1NP 浓度在卵泡早期(66.91 ± 16.26;p <;0.001)、卵泡晚期(80.66 ± 16.35;p <;0.001)和黄体中期(64.57 ± 9.68;p = 0.002)高于服药活跃期。这些发现强调了研究具有不同卵巢激素特征的运动女性的重要性,因为性激素浓度的变化会影响骨代谢对跑步的反应,结果显示,与OC周期的服药活跃期相比,运动后P1NP浓度在所有月经周期阶段都较高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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