Exercise-induced improvement of glycemic fluctuation and its relationship with fat and muscle distribution in type 2 diabetes.

Journal of diabetes. 2024;16(4):e13549

Plain language summary

Exercise plays a crucial role in managing type 2 diabetes (T2DM). However, the impact of exercise on blood glucose fluctuation and its relationship with body fat and muscle distribution remains an area of interest. The aim of this study was to investigate the effect of combined aerobic and resistance exercise training on blood glucose fluctuation in type 2 diabetes patients and explore the predictors of exercise-induced glycaemic response. This study was a two-arm randomised controlled trial with an exercise group and a control group. The study included 50 patients with T2DM. Results showed that: - exercise training led to decreased 24-hour blood glucose fluctuations in the exercise group. - baseline visceral fat area and mid-thigh muscle area were significant predictors of glycaemic variability changes. Authors concluded that acute combined aerobic and resistance exercise training could improve glycemic fluctuation in T2D patients, and baseline fat and muscle distribution play a role in this effect.

Abstract

AIMS: Management of blood glucose fluctuation is essential for diabetes. Exercise is a key therapeutic strategy for diabetes patients, although little is known about determinants of glycemic response to exercise training. We aimed to investigate the effect of combined aerobic and resistance exercise training on blood glucose fluctuation in type 2 diabetes patients and explore the predictors of exercise-induced glycemic response. MATERIALS AND METHODS Fifty sedentary diabetes patients were randomly assigned to control or exercise group. Participants in the control group maintained sedentary lifestyle for 2 weeks, and those in the exercise group specifically performed combined exercise training for 1 week. All participants received dietary guidance based on a recommended diet chart. Glycemic fluctuation was measured by flash continuous glucose monitoring. Baseline fat and muscle distribution were accurately quantified through magnetic resonance imaging (MRI). RESULTS Combined exercise training decreased SD of sensor glucose (SDSG, exercise-pre vs exercise-post, mean 1.35 vs 1.10 mmol/L, p = .006) and coefficient of variation (CV, mean 20.25 vs 17.20%, p = .027). No significant change was observed in the control group. Stepwise multiple linear regression showed that baseline MRI-quantified fat and muscle distribution, including visceral fat area (β = -0.761, p = .001) and mid-thigh muscle area (β = 0.450, p = .027), were significantly independent predictors of SDSG change in the exercise group, as well as CV change. CONCLUSIONS Combined exercise training improved blood glucose fluctuation in diabetes patients. Baseline fat and muscle distribution were significant factors that influence glycemic response to exercise, providing new insights into personalized exercise intervention for diabetes.

Lifestyle medicine

Fundamental Clinical Imbalances : Hormonal ; Immune and inflammation
Patient Centred Factors : Mediators/Glycaemic control
Environmental Inputs : Physical exercise ; Psychosocial influences
Personal Lifestyle Factors : Exercise and movement ; Environment
Functional Laboratory Testing : Blood ; Imaging

Methodological quality

Jadad score : 3
Allocation concealment : Yes

Metadata