Muscle fatigue, pedalling technique and the V ̇ O 2 ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}}}$ slow component during cycling.

IF 2.6 4区 医学 Q2 PHYSIOLOGY
Keenan B MacDougall, Saied J Aboodarda, Paulina H Westergard, Brian R MacIntosh
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引用次数: 0

Abstract

Above the first lactate threshold, the steady-state V ̇ O 2 ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}}}$ is delayed or prevented due to the V ̇ O 2 ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}}}$ slow component ( V ̇ O 2 SC ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}{\mathrm{SC}}}}$ ). This phenomenon has been associated with muscle fatigue, but evidence for a causal relationship is equivocal. Moreover, little is known about the contribution of pedalling technique adjustments to V ̇ O 2 SC ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}{\mathrm{SC}}}}$ during fatiguing cycling exercise. Eleven participants completed constant power trials at 10% above the second lactate threshold. Muscle fatigue was assessed, utilizing femoral nerve stimulation and instrumented pedals, while V ̇ O 2 ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}}}$ , quadriceps oxygenation, electromyography (EMG) and pedal force components were measured. Correlations between physiological and mechanical variables were estimated at group and individual levels. Group correlations revealed moderate values for V ̇ O 2 SC ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}{\mathrm{SC}}}}$ with quadriceps twitch force (r = -0.51) and muscle oxygenation (r = -0.52), while weak correlations were observed for EMG amplitude (r = 0.26) and EMG mean power frequency (r = -0.16), and with pedalling mechanical variables such as peak total downstroke force (r = -0.16), minimum total upstroke force (r = -0.16) and upstroke index of effectiveness (r = 0.16). The findings here align with prior literature reporting significant correlations between the magnitude of muscle fatigue and that of V ̇ O 2 SC ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}{\mathrm{SC}}}}$ , although there was large interindividual variability for all the reported correlations. Considering the heterogeneity in the data, it is difficult to determine the relative impact of pedalling technique adjustments on V ̇ O 2 SC ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}{\mathrm{SC}}}}$ overall, but the present study opens the possibility that in some cases, increases in V ̇ O 2 ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}}}$ secondary to technical adjustments may be 'superimposed' on the underlying V ̇ O 2 SC ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}{\mathrm{SC}}}}$ .

骑车过程中的肌肉疲劳、踩踏技术和 V ≌ O 2 ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}}}$ 缓慢成分。
高于第一个乳酸阈值、稳态状态的 V � O 2 ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}}}$ 被延迟或阻止,原因是 V � O 2 慢速成分(V ➤ O 2 SC ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}{mathrm{SC}}}}$ )而延迟或阻止。这种现象与肌肉疲劳有关,但因果关系的证据并不明确。此外,人们对疲劳骑车运动中踏板技术调整对 V̇ O 2 SC ${{dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}{mathrm{SC}}}}$ 的贡献知之甚少。11名参与者完成了高于第二乳酸阈值10%的恒定功率试验。在测量V ̇ O 2 ${{dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}}}$ 、股四头肌氧合、肌电图(EMG)和蹬踏力成分的同时,对肌肉疲劳进行了评估。对生理和机械变量之间的相关性进行了群体和个体水平的估算。团体相关性显示,V ̇ O 2 SC ${{\dot{V}}_{{{{m\athrm{O}}}_{\mathrm{2}}} {mathrm{SC}}}}$ 与股四头肌抽搐力(r = -0.51)和肌肉含氧量(r = -0.52)呈中度相关,而肌电图振幅(r = 0.26) 和 EMG 平均功率频率 (r = -0.16),以及蹬踏机械变量,如下行总力量峰值 (r = -0.16)、上行总力量最小值 (r = -0.16)和上行有效指数 (r = 0.16)。这里的研究结果与之前文献报道的肌肉疲劳程度与 V ̇ O 2 SC ${{dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}{\mathrm{SC}}}}$ 之间的显著相关性一致,尽管所有报道的相关性都存在较大的个体间差异。考虑到数据的异质性,很难确定踏板技术调整对 V ̇ O 2 SC ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}{\mathrm{SC}}}}$ 总体的相对影响,但本研究为在某些情况下提供了可能性、但本研究提供了一种可能性,即在某些情况下,因技术调整而导致的 V̇ O 2 ${{dot{V}}_{{{{\mathrm{O}}}_{{mathrm{2}}}}}$ 的增加可能会 "叠加 "在基本的 V̇ O 2 SC ${{dot{V}}_{{{{\mathrm{O}}}_{{mathrm{2}}}{\mathrm{SC}}}}$ 上。
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来源期刊
Experimental Physiology
Experimental Physiology 医学-生理学
CiteScore
5.10
自引率
3.70%
发文量
262
审稿时长
1 months
期刊介绍: Experimental Physiology publishes research papers that report novel insights into homeostatic and adaptive responses in health, as well as those that further our understanding of pathophysiological mechanisms in disease. We encourage papers that embrace the journal’s orientation of translation and integration, including studies of the adaptive responses to exercise, acute and chronic environmental stressors, growth and aging, and diseases where integrative homeostatic mechanisms play a key role in the response to and evolution of the disease process. Examples of such diseases include hypertension, heart failure, hypoxic lung disease, endocrine and neurological disorders. We are also keen to publish research that has a translational aspect or clinical application. Comparative physiology work that can be applied to aid the understanding human physiology is also encouraged. Manuscripts that report the use of bioinformatic, genomic, molecular, proteomic and cellular techniques to provide novel insights into integrative physiological and pathophysiological mechanisms are welcomed.
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