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急性有氧、抗阻及联合运动对 1 型糖尿病患者 24 h 血糖变异性及骨骼肌信号转导反应的影响。

Effects of acute aerobic, resistance and combined exercises on 24-h glucose variability and skeletal muscle signalling responses in type 1 diabetics.

机构信息

Institute for Sport and Health, School of Public Health, Physiotherapy and Sports Science, University College Dublin, Belfield, Dublin 4, Ireland.

Department of Biomolecular Sciences, University of Urbino Carlo Bo, Urbino, Italy.

出版信息

Eur J Appl Physiol. 2020 Dec;120(12):2677-2691. doi: 10.1007/s00421-020-04491-6. Epub 2020 Sep 9.

DOI:10.1007/s00421-020-04491-6
PMID:32909059
Abstract

PURPOSE

To compare the effect of high-intensity aerobic (AER), resistance (RES), and combined (COMB: RES + AER) exercise, on interstitial glucose (IG) variability and skeletal muscle signalling pathways in type 1 diabetes (T1D).

METHODS

T1D participants (6 M/6F) wore a flash glucose monitoring system in four randomized sessions: one control (CONT), and one AER, RES and COMB (40 min each). Mean amplitude of glycemic excursions (MAGE), standard deviation (SD) and coefficient variation (CV) of IG were used to compare the 24 h post-exercise IG variability. Blood and muscle samples were collected to compare exercise-induced systemic and muscle signalling responses related to metabolic, growth and inflammatory adaptations.

RESULTS

Both RES and COMB decreased the 24 h MAGE compared to CONT; additionally, COMB decreased the 24 h SD and CV. In the 6-12 h post-exercise, all exercise modalities reduced the IG CV while SD decreased only after COMB. Both AER and COMB stimulated the PGC-1α mRNA expression and promoted the splicing of IGF-1Ea variant, while Akt and p38MAPK phosphorylation increased only after RES and COMB. Additionally, COMB enhanced eEF2 activation and RES increased myogenin and MRF4 mRNA expression. Blood lactate and glycerol levels and muscle IL-6, TNF-α, and MCP-1 mRNAs increased after all exercise sessions, while serum CK and LDH level did not change.

CONCLUSION

COMB is more effective in reducing IG fluctuations compared to single-mode AER or RES exercise. Moreover, COMB simultaneously activates muscle signalling pathways involved in substrate metabolism and anabolic adaptations, which can help to improve glycaemic control and maintain muscle health in T1D.

摘要

目的

比较高强度有氧(AER)、抗阻(RES)和联合(COMB:RES+AER)运动对 1 型糖尿病(T1D)患者间质葡萄糖(IG)变异性和骨骼肌信号通路的影响。

方法

T1D 参与者(6 名男性/6 名女性)在四个随机试验中佩戴瞬态葡萄糖监测系统:一个对照组(CONT)和一个 AER、RES 和 COMB 组(每组 40 分钟)。使用平均血糖波动幅度(MAGE)、标准差(SD)和变异系数(CV)比较运动后 24 小时的 IG 变异性。采集血液和肌肉样本,以比较与代谢、生长和炎症适应相关的运动诱导的系统和肌肉信号反应。

结果

RES 和 COMB 均降低了与 CONT 相比的 24 小时 MAGE;此外,COMB 降低了 24 小时 SD 和 CV。在运动后 6-12 小时,所有运动方式均降低了 IG CV,而只有 COMB 降低了 SD。AER 和 COMB 均刺激了 PGC-1α mRNA 的表达,并促进了 IGF-1Ea 变体的剪接,而 Akt 和 p38MAPK 磷酸化仅在 RES 和 COMB 后增加。此外,COMB 增强了 eEF2 的激活,而 RES 增加了肌细胞生成素和 MRF4 mRNA 的表达。所有运动后,血液乳酸和甘油水平以及肌肉 IL-6、TNF-α 和 MCP-1 mRNA 增加,而血清 CK 和 LDH 水平没有变化。

结论

与单一模式的 AER 或 RES 运动相比,COMB 更有效地降低 IG 波动。此外,COMB 同时激活了参与底物代谢和合成代谢适应的肌肉信号通路,这有助于改善 T1D 患者的血糖控制并维持肌肉健康。

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