预激运动加速 2 型糖尿病中年个体“工作-工作”循环运动时的肺氧摄取动力学。

Priming exercise accelerates pulmonary oxygen uptake kinetics during "work-to-work" cycle exercise in middle-aged individuals with type 2 diabetes.

机构信息

Department of Physiology, School of Medicine, Trinity College Dublin, Dublin 2, Ireland.

Division of Sport and Exercise Sciences, Abertay University, Dundee, UK.

出版信息

Eur J Appl Physiol. 2021 Feb;121(2):409-423. doi: 10.1007/s00421-020-04518-y. Epub 2020 Oct 21.

DOI:10.1007/s00421-020-04518-y

PMID:33084929

Abstract

PURPOSE

The time constant of phase II pulmonary oxygen uptake kinetics ([Formula: see text]) is increased when high-intensity exercise is initiated from an elevated baseline (work-to-work). A high-intensity priming exercise (PE), which enhances muscle oxygen supply, does not reduce this prolonged [Formula: see text] in healthy active individuals, likely because [Formula: see text] is limited by metabolic inertia (rather than oxygen delivery) in these individuals. Since [Formula: see text] is more influenced by oxygen delivery in type 2 diabetes (T2D), this study tested the hypothesis that PE would reduce [Formula: see text] in T2D during work-to-work cycle exercise.

METHODS

Nine middle-aged individuals with T2D and nine controls (ND) performed four bouts of constant-load, high-intensity work-to-work transitions, each commencing from a baseline of moderate-intensity. Two bouts were completed without PE and two were preceded by PE. The rate of muscle deoxygenation ([HHb + Mb]) and surface integrated electromyography (iEMG) were measured at the right and left vastus lateralis, respectively.

RESULTS

Subsequent to PE, [Formula: see text] was reduced (P = 0.001) in T2D (from 59 ± 17 to 37 ± 20 s) but not (P = 0.24) in ND (44 ± 10 to 38 ± 7 s). The amplitude of the [Formula: see text] slow component ([Formula: see text] A) was reduced (P = 0.001) in both groups (T2D: 0.16 ± 0.09 to 0.11 ± 0.04 l/min; ND: 0.21 ± 0.13 to 0.13 ± 0.09 l/min). This was accompanied by a reduction in ΔiEMG from the onset of [Formula: see text] slow component to end-exercise in both groups (P < 0.001), while [HHb + Mb] kinetics remained unchanged.

CONCLUSIONS

PE accelerates [Formula: see text] in T2D, likely by negating the O delivery limitation extant in the unprimed condition, and reduces the [Formula: see text]A possibly due to changes in muscle fibre activation.

摘要

目的

当高强度运动从升高的基线（工作到工作）开始时，第二阶段肺氧摄取动力学的时间常数 ([Formula: see text]) 会增加。高强度预激运动 (PE) 增强肌肉氧供应，但不会减少健康活跃个体中这种延长的 [Formula: see text]，这可能是因为 [Formula: see text] 在这些个体中受到代谢惯性（而不是氧输送）的限制。由于 [Formula: see text] 在 2 型糖尿病 (T2D) 中受氧输送的影响更大，因此本研究假设 PE 会减少 T2D 在工作到工作循环运动期间的 [Formula: see text]。

方法

9 名中年 2 型糖尿病患者和 9 名对照者（ND）进行了 4 次恒定负荷、高强度工作到工作的高强度过渡，每次均从中等强度的基线开始。两次无 PE 完成，两次有 PE 完成。在右侧和左侧股外侧肌分别测量肌肉去氧 ([HHb + Mb]) 和表面积分肌电图 (iEMG) 的速率。

结果

PE 后，T2D 中的 [Formula: see text] 降低（P = 0.001）（从 59 ± 17 秒降至 37 ± 20 秒），但 ND 中没有降低（P = 0.24）（从 44 ± 10 秒降至 38 ± 7 秒）。[Formula: see text] 慢成分 ([Formula: see text] A) 的幅度在两组中均降低（P = 0.001）（T2D：0.16 ± 0.09 至 0.11 ± 0.04 l/min；ND：0.21 ± 0.13 至 0.13 ± 0.09 l/min）。这伴随着两组从 [Formula: see text] 慢成分开始到运动结束时 ΔiEMG 的减少（P < 0.001），而 [HHb + Mb] 动力学保持不变。

结论

PE 加速了 T2D 中的 [Formula: see text]，这可能是通过消除未预激条件下存在的氧输送限制，而降低 [Formula: see text] A 可能是由于肌肉纤维激活的变化。

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预激运动加速 2 型糖尿病中年个体“工作-工作”循环运动时的肺氧摄取动力学。

Priming exercise accelerates pulmonary oxygen uptake kinetics during "work-to-work" cycle exercise in middle-aged individuals with type 2 diabetes.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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