注意、预期和空间认知在整个月经周期中波动:对女性运动的潜在影响。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
F Ronca, J M Blodgett, G Bruinvels, M Lowery, M Raviraj, G Sandhar, N Symeonides, C Jones, M Loosemore, P W Burgess
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引用次数: 0

摘要

目前的研究表明,月经期女性运动员可能会因整个月经周期的荷尔蒙变化而面临更大的肌肉骨骼损伤风险。另一项研究表明,空间认知能力也可能以类似的方式发生波动。从理论上讲,空间认知的变化可能是导致受伤的一个风险因素,尤其是在快节奏的运动中,因为这种运动要求在与环境中移动的物体互动时精确到毫秒级。然而,围绕月经期女性受伤风险增加原因的现有理论主要集中在生物力学机制上,很少考虑可能决定受伤风险的认知因素。因此,这项原理验证研究的目的是探讨月经期女性在整个月经周期中是否会表现出认知过程的波动,该研究采用了新颖的运动型认知测试,旨在测量这些运动情况下可能涉及的一些心理过程。共有 394 名参与者两次完成了在线认知测试、情绪量表和症状问卷,每次间隔 14 天。经排除后,241 名符合条件的参与者被纳入分析(平均:28 ± 6 岁)(男性 = 96 人,女性(月经期) = 105 人,女性(避孕期) = 47 人)。月经期女性的生理周期以自我报告的信息为准。认知测试旨在测量反应时间、注意力、视觉空间功能(包括三维心理旋转)和时间预期。通过变异轴旋转因子分析(错误、反应时间、个体内变异性)得出了三个综合分数。混合模型方差分析和重复测量方差分析用于检验受试者之间和受试者内部的效应。男性和女性(使用避孕药具和未使用避孕药具)在反应时间和准确性方面没有组间差异。然而,受试者内分析表明,定期来月经的女性在月经期间的表现要好于其他任何阶段的女性,反应时间更快(10 毫秒 c.ca,p < .01),错误更少(p < .05),个体内变异性的分散性更低(p < .05)。相比之下,他们在黄体期的反应时间较慢(10 毫秒 c.ca,p < .01),时间预测能力较差(p < .01),在预测排卵期的错误较多(p < .01)。自我报告的情绪、认知和身体症状在月经期间都最严重(p < .01),相当一部分女性认为月经期间的症状对她们在测试日的认知表现产生了负面影响,这与她们的实际表现不符。这些研究结果表明,在一般人群中,视觉空间和预期过程可能在整个月经周期中波动,月经期表现较好,而黄体期表现较差。如果这些结果能扩展到特定阶段的认知表现与受伤发生率之间的关联,那么它们将支持自行车女运动员受伤风险决定因素的认知理论,从而为制定适当的缓解策略提供机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Attentional, anticipatory and spatial cognition fluctuate throughout the menstrual cycle: potential implications for female sport.

Current research suggests that menstruating female athletes might be at greater risk of musculoskeletal injury in relation to hormonal changes throughout the menstrual cycle. A separate body of work suggests that spatial cognition might also fluctuate in a similar manner. Changes in spatial cognition could, in theory, be a contributing risk factor for injury, especially in fast-paced sports that require precise, millisecond accuracy in interactions with moving objects in the environment. However, existing theories surrounding causes for increased injury risk in menstruating females largely focus on biomechanical mechanisms, with little consideration of possible cognitive determinants of injury risk. Therefore, the aim of this proof-of-principle study was to explore whether menstruating females exhibit fluctuations in cognitive processes throughout their cycle on a novel sport-oriented cognitive test battery, designed to measure some of the mental processes putatively involved in these sporting situations. A total of 394 participants completed an online cognitive battery, a mood scale and a symptom questionnaire twice, 14 days apart. After exclusions, 241 eligible participants were included in the analyses (mean: 28 ± 6 years) (male = 96, female(menstruating) = 105, female(contraception) = 47). Cycle phase for menstruating females was based on self-reported information. The cognitive battery was designed to measure reaction times, attention, visuospatial functions (including 3D mental rotation) and timing anticipation. Three composite scores were generated using factor analysis with varimax rotation (Errors, Reaction Time, Intra-Individual Variability). Mixed model ANOVAs and repeated measures ANOVAs were performed to test for between and within-subject effects. There was no group difference in reaction times and accuracy between males and females (using contraception and not). However, within subject analyses revealed that regularly menstruating females performed better during menstruation compared to being in any other phase, with faster reaction times (10ms c.ca, p < .01), fewer errors (p < .05) and lower dispersion intra-individual variability (p < .05). In contrast they exhibited slower reaction times (10ms c.ca, p < .01) and poorer timing anticipation (p < .01) in the luteal phase, and more errors in the predicted ovulatory phase (p < .01). Self-reported mood, cognitive and physical symptoms were all worst during menstruation (p < .01), and a significant proportion of females felt that their symptoms were negatively affecting their cognitive performance during menstruation on testing day, which was incongruent with their actual performance. These findings suggest that visuospatial and anticipatory processes may fluctuate throughout the menstrual cycle in the general population, with better performance during the menstrual phase and poorer performance during the luteal phase. If these extend to associations between phase-specific cognitive performance and injury incidence, they would support a cognitive theory of determinants of injury risk in cycling female athletes, opening an opportunity to develop mitigation strategies where appropriate.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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