Effects of a Combined Exercise Intervention on the Gut Microbiome of People With Type 2 Diabetes

Type 2 Diabetes

Exercise intensity, Aerobic training, Resistance training, Gut microbiome, Physical activity, Glycemia, Diabetes

The goal of this experimental trial is to learn about the changes in bacterial diversity in individuals with type 2 diabetes who perform endurance and strength training at different intensities. Participants with type 2 diabetes will be randomly assigned to 16 weeks of either moderate-intensity endurance and strength training or high-intensity endurance and strength training. Researchers will compare the moderate-intensity and high-intensity exercise groups for differences in glycemia and bacterial diversity.

It is unclear if performing aerobic training (AT) and resistance training (RT) at a higher intensity in people with type 2 diabetes mellitus (T2DM) would generate greater improvement in HbA1c and if this would be associated with increased gut microbiome diversity. Therefore, the objective of this study is to test whether performing resistance training and aerobic exercise (RT+AT) at a high intensity for 16 weeks will significantly improve glycemic control (HbA1c) and if this change is associated with an increase in gut microbiome diversity compared to performing RT+AT at a moderate intensity in individuals with poor glycemic control. We hypothesize that individuals performing RT+AT at a high intensity will significantly reduce HbA1c and improve gut microbiome diversity compared to individuals performing RT+AT at a moderate intensity. Methods: This study is a parallel-group, single-blinded, randomized trial including 40 adults (50% males and females) living with T2DM. Participants will be allocated to one of two treatment groups: 1) high intensity or 2) moderate intensity for 16 weeks. A total of 40 participants (n = 20 for each sex) living with T2DM with poor glycemic control (HbA1c =\> 7.0%), aged between 19-64 years, who do not currently meet the recommended levels of physical activity for optimal health, (i.e., 150 min of moderate-to-vigorous physical activity + 2 days/week of resistance training) will be recruited. Intervention: Participants will undergo a supervised exercise intervention of RT+AT for 16 weeks, performed at high or moderate intensity. 1) High intensity: AT will be performed at 70-80% heart rate reserve and 8-10 repetitions (75-80% maximal strength). 2) Moderate intensity: AT will be performed at 45-55% heart rate reserve and 12-15 repetitions (65-70% maximal strength). AT will consist of expending 10 kcal/kg per week, while RT will consist of 2 days of resistance training per week as per the recommendations. Our previous work shows that participants could perform this type of intensity; therefore, no problems are anticipated. Exercise intensity will be monitored using heart rate for aerobic training and the OMNI-RES scale (1-10) for resistance training. Primary Outcomes: All HbA1c tests will be performed using a validated DCA Vantage® Analyzer (Siemens, Germany). Participants will undergo HbA1c tests at baseline and post-intervention (16 weeks). The gut microbiome composition will be determined at baseline and post-intervention in participant feces using next-generation sequencing (Illumina MiSeq) of 16S ribosomal RNA genes.

Canada