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首页> 美国卫生研究院文献>other >Self-Paced Free-Running Wheel Mimics High-Intensity Interval Training Impact on Rats’ Functional Physiological Biochemical and Morphological Features
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Self-Paced Free-Running Wheel Mimics High-Intensity Interval Training Impact on Rats’ Functional Physiological Biochemical and Morphological Features

机译:自动起搏自转轮模仿高强度间歇训练对大鼠功能生理生化和形态特征的影响

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Free-running wheel (FRW) is an animal exercise model that relies on high-intensity interval moments interspersed with low-intensity or pauses apparently similar to those performed in high-intensity interval training (HIIT). Therefore, this study, conducted over a 12-weeks period, aimed to compare functional, thermographic, biochemical and morphological skeletal and cardiac muscle adaptations induced by FRW and HIIT. Twenty-four male Wistar rats were assigned into three groups: sedentary rats (SED), rats that voluntarily exercise in free wheels (FRW) and rats submitted to a daily HIIT. Functional tests revealed that compared to SED both FRW and HIIT increased the ability to perform maximal workload tests (MWT-cm/s) (45 ± 1 vs. 55 ± 2 and vs. 65 ± 2). Regarding thermographic assays, FRW and HIIT increased the ability to lose heat through the tail during MWT. Histochemical analyzes performed in tibialis anterior (TA) and soleus (SOL) muscles showed a general adaptation toward a more oxidative phenotype in both FRW and HIIT. Exercise increased the percentage of fast oxidative glycolytic (FOG) in medial fields of TA (29.7 ± 2.3 vs. 44.9 ± 4.4 and vs. 45.2 ± 5.3) and slow oxidative (SO) in SOL (73.4 ± 5.7 vs. 99.5 ± 0.5 and vs. 96.4 ± 1.2). HITT decreased fiber cross-sectional area (FCSA-μm2) of SO (4350 ± 286.9 vs. 4893 ± 325 and vs. 3621 ± 237.3) in SOL. Fast glycolytic fibers were bigger across all the TA muscle in FRW and HIIT groups. The FCSA decrease in FOG fibers was accompanied by a circularity decrease of SO from SOL fibers (0.840 ± 0.005 vs. 0.783 ± 0.016 and vs. 0.788 ± 0.010), and a fiber and global field capillarization increase in both FRW and HIIT protocols. Moreover, FRW and HIIT animals exhibited increased cardiac mitochondrial respiratory control ratio with complex I-driven substrates (3.89 ± 0.14 vs. 5.20 ± 0.25 and vs. 5.42 ± 0.37). Data suggest that FRW induces significant functional, physiological, and biochemical adaptations similar to those obtained under an intermittent forced exercise regimen, such as HIIT.
机译:自由行车轮(FRW)是一种动物运动模型,其依赖于高强度间歇力矩散布在低强度或间歇状态下,显然类似于在高强度间歇训练(HIIT)中进行的那些运动。因此,这项为期12周的研究旨在比较FRW和HIIT诱导的功能,热成像,生化和形态骨骼肌和心肌适应性。将二十四只Wistar雄性大鼠分为三组:久坐大鼠(SED),自愿自在运动的大鼠(FRW)和每天接受HIIT的大鼠。功能测试表明,与SED相比,FRW和HIIT均提高了执行最大工作负荷测试(MWT-cm / s)的能力(45±1对55±2和65±2)。关于热成像分析,FRW和HIIT增加了MWT期间通过尾部散热的能力。对胫前肌(TA)和比目鱼肌(SOL)进行的组织化学分析显示,FRW和HIIT均普遍适应于氧化性更高的表型。运动会增加TA内侧视野中的快速氧化糖酵解(FOG)的百分比(29.7±2.3 vs. 44.9±4.4和vs. 45.2±5.3)和SOL中的缓慢氧化(SO)(73.4±5.7 vs. 99.5±0.5和与96.4±1.2)。 HITT降低了SOL中SO的纤维截面积(FCSA-μm 2 )(4350±286.9 vs. 4893±325和vs. 3621±237.3)。 FRW和HIIT组中所有TA肌肉的快速糖酵解纤维都较大。 FOG纤维的FCSA减少伴随着SOL纤维的SO圆度降低(0.840±0.005对0.783±0.016和0.788±0.010),以及FRW和HIIT方案中的纤维和全局场毛细管现象增加。此外,FRW和HIIT动物在复杂的I驱动底物的作用下表现出更高的心脏线粒体呼吸控制率(3.89±0.14对5.20±0.25和5.42±0.37)。数据表明,FRW诱导出显着的功能,生理和生化适应,类似于在间歇性强迫运动方案(如HIIT)下获得的适应。

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