1.
Effects of Acute Resistance Exercise with and without Whole-Body Electromyostimulation and Endurance Exercise on the Postprandial Glucose Regulation in Patients with Type 2 Diabetes Mellitus: A Randomized Crossover Study.
Holzer, R, Schulte-Körne, B, Seidler, J, Predel, HG, Brinkmann, C
Nutrients. 2021;13(12)
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Over 460 million people worldwide suffer from Type 2 Diabetes. Previous studies have found that endurance training combined with resistance training increases insulin sensitivity and glucose tolerance. Due to its ability to enhance physical performance and to save time during exercise sessions, electromyostimulation is becoming increasingly popular in health and recreational sports. Using a randomised crossover design, the study measures the effects of different exercise strategies and intensities on glucose regulation post-prandially. To assess the effect of post-prandial glucose regulation on Type 2 Diabetic patients, six patients performed 20 minutes of resistance exercise with whole-body electromyostimulation, conventional exercise without whole-body electromyostimulation, and endurance exercise. All types of exercise were effective at lowering blood glucose levels, even at a short duration of 20 minutes. Electrical stimulation did not affect the effect of exercise in any significant way. It is therefore necessary to conduct further robust long-term studies on the effects of electromyostimulation and resistance or endurance training on lowering postprandial blood glucose levels. The results of this study can be used by healthcare professionals to better understand the relationship between exercise and glucose regulation, which may be useful when making clinical decisions for people with Type 2 Diabetes or obesity.
Abstract
BACKGROUND Long hyperglycemic episodes trigger complications in type 2 diabetes mellitus (T2DM) patients. Postprandial glucose excursions can be reduced by acute physical activity. However, it is not yet clear which type of exercise has the best effect on postprandial glucose levels. METHODS Six T2DM patients participated in three 20-min moderate-intensity exercise sessions after breakfast in a randomized order: resistance exercise with whole-body electromyostimulation (WB-EMS), resistance exercise without electromyostimulation (RES) and cycling endurance exercise (END). A continuous glucose monitoring system recorded glucose dynamics. RESULTS Postprandially-increased glucose levels decreased in all cases. Time to baseline (initial value prior to meal intake) was quite similar for WB-EMS, RES and END. Neither glucose area under the curve (AUC), nor time in range from the start of the experiment to its end (8 h later) differed significantly. A Friedman analysis of variance, however, revealed an overall significant difference for AUC in the post-exercise recovery phase (END seems to have superior effects, but post-hoc tests failed statistical significance). CONCLUSIONS There are no notable differences between the effects of the different types of exercise on glucose levels, especially when comparing values over a longer period of time.
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The Effects of 52 Weeks of Soccer or Resistance Training on Body Composition and Muscle Function in +65-Year-Old Healthy Males--A Randomized Controlled Trial.
Andersen, TR, Schmidt, JF, Pedersen, MT, Krustrup, P, Bangsbo, J
PloS one. 2016;11(2):e0148236
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Aging adversely impacts muscular structure and function, and sedentary subjects have an increased risk of developing lifestyle-related disease. Physical activity in aging subjects has repeatedly been shown to counteract these adverse effects, and in particular, the health benefits of recreational soccer have been investigated. The aim of this randomised trial was to examine the long-term effects of soccer training compared to resistance training on a range of musculo-skeletal structural and functional variables. Twenty-seven healthy elderly males aged 63-74 were randomly assigned to participate in either a soccer training group, a resistance training group or inactive control group for 52-weeks. Participants performed a one-hour training session twice per week for the first 16 weeks, and three times a week for the following 36 weeks. This study showed that 52 weeks of regular soccer training lead to decreases in BMI, improved skeletal muscle anti-oxidative potential, and favourably altered glucose control when compared with resistance training in elderly men.
Abstract
The effects of 52 weeks of soccer or resistance training were investigated in untrained elderly men. The subjects aged 68.1±2.1 yrs were randomised into a soccer (SG; n = 9), a resistance (RG; n = 9) and a control group (CG; n = 8). The subjects in SG and RG, respectively, trained 1.7±0.3 and 1.8±0.3 times weekly on average during the intervention period. Muscle function and body composition were determined before and after 16 and 52 weeks of the intervention period. In SG, BMI was reduced by 1.5% and 3.0% (p<0.05) after 16 and 52 weeks, respectively, unchanged in RG and 2% higher (p<0.05) in CG after 52 weeks of the intervention period. In SG, the response to a glucose tolerance test was 16% lower (p<0.05) after 16 wks, but not after 52 wks, compared to before the intervention period, and unchanged in RG and CG. In SG, superoxide dismutase-2 expression was 59% higher (p<0.05) after 52 wks compared to before the intervention period, and unchanged in RG and CG. In RG, upper body lean mass was 3 and 2% higher (p<0.05) after 16 and 52 wks, respectively, compared to before the intervention period, and unchanged in SG and CG. In RG, Akt-2 expression increased by 28% (p<0.01) and follistatin expression decreased by 38% (p<0.05) during the 52-wk intervention period, and was unchanged in SG and CG. Thus, long-term soccer training reduces BMI and improves anti-oxidative capacity, while long-term resistance training impacts muscle protein enzyme expression and increases lean body mass in elderly men. Trial Registration: ClinicalTrials.gov: NCT01530035.