David P McBey scite author profile

Background Intensive-insulin treatment (IIT) strategy for patients with type 1 diabetes mellitus (T1DM) has been associated with sedentary behaviour and the development of insulin resistance. Exercising patients with T1DM often utilize a conventional insulin treatment (CIT) strategy leading to increased insulin sensitivity through improved intramyocellular lipid (IMCL) content. It is unclear how these exercise-related metabolic adaptations in response to exercise training relate to individual fibre-type transitions, and whether these alterations are evident between different insulin strategies (CIT vs. IIT). Purpose: This study examined glycogen and fat content in skeletal muscle fibres of diabetic rats following exercise-training. Methods Male Sprague-Dawley rats were divided into four groups: Control-Sedentary, CIT- and IIT-treated diabetic sedentary, and CIT-exercised trained (aerobic/resistance; DARE). After 12 weeks, muscle-fibre lipids and glycogen were compared through immunohistochemical analysis. Results The primary findings were that both IIT and DARE led to significant increases in type I fibres when compared to CIT, while DARE led to significantly increased lipid content in type I fibres compared to IIT. Conclusions These findings indicate that alterations in lipid content with insulin treatment and DARE are primarily evident in type I fibres, suggesting that muscle lipotoxicity in type 1 diabetes is muscle fibre-type dependant.

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581-P: The Effects of Resistance Training on Insulin Resistance Development in Female Rodents with Type 1 Diabetes

Sammut¹,

McBey²,

Melling³

2023

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The etiology of insulin resistance (IR) development in type 1 diabetes (T1D) remains unclear; however, impaired glucose metabolism in skeletal muscle may play a role. While IR development has been established in male rodents with T1D, female rodents have yet to be examined in this context. Resistance exercise training (RT) has been shown to improve IR and is associated with a lower risk of hypoglycemia onset in T1D compared to aerobic exercise. The purpose of this study was to investigate the effects of RT on IR development in female rodents with T1D. Forty Sprague-Dawley 8-week-old female rats were divided into four groups: control sedentary (CS; n=10), control trained (CT; n=10), T1D sedentary (DS; n=10), T1D trained (DT; n=10). Multiple low-dose Streptozotocin injections (20 mg/kg each day for 7 consecutive days) were used to induce T1D. Blood glucose levels were maintained in normal range (4-9mmol/L) with one implanted insulin pellet (2IU/day). CT and DT underwent weighted ladder climbing 5 days/week for 6 weeks. Intravenous glucose tolerance tests (IVGTT) were conducted on all animals during weeks 4 and 7. Results demonstrate that DS animals exhibited significantly increased weekly blood glucose measures compared to all groups including DT (p<0.05), despite similar insulin dosage levels. This was concomitant with a significant increase in area under the curve following IVGTT from week 4 to week 7 in DS (p<0.05), indicative of a reduction in insulin sensitivity. DS animals also exhibited significantly greater glycogen content in white gastrocnemius muscle compared to all groups (p<0.05). These results indicate that female rodents with T1D develop poor glycemic control and IR which can be attenuated with RT, possibly related to differences in glycogen content within muscle. This data supports the negative role of elevated muscle glycogen on insulin sensitivity in T1D and the potential role of RT in ameliorating these metabolic changes. Disclosure M.Sammut: None. D.Mcbey: None. C.Melling: None.

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Sexual dimorphism in response to repetitive bouts of acute aerobic exercise in rodents with type 1 diabetes mellitus

et al. 2022

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The purpose of this study was to examine sex-specific differences in the blood glucose (BG) response to recurrent aerobic exercise in type 1 diabetes rats. Specifically, we examined the role of peak estrogen (E2) concentrations during proestrus on BG response to prolonged repetitive aerobic exercise. To do so, nineteen Sprague-Dawley rats were assigned to four exercised groups: control female (CXF; n = 5), control male (CXM; n = 5), diabetic female (DXF, n = 5) and diabetic male (DXM, n = 4). Diabetes was induced in DX groups via subcutaneous multiple injections of low dose streptozotocin (20mg/day for 7 days). After four days of exercise, muscle and liver glycogen content, liver gluconeogenic enzyme content, muscle Beta oxidation activity and BG responses to exercise were compared. The final bout of exercise took place during proestrus when E2 concentrations were at their highest in the female rats. During days 1–3 DXM had significantly lower BG concentrations during exercise than DXF. While both T1DM and non-T1DM females demonstrated higher hepatic G6Pase expression and muscle beta oxidation activity levels on day 4 exercise, no differences in BG response between the male and female T1DM rats were evident. Further, no differences in liver and muscle glycogen content following day 4 of exercise were seen between the sexes. These results would suggest that heightened E2 levels during proestrus may not be an important factor governing glucose counter regulatory response to exercise in female T1DM rats. Rather, the pre-exercise blood glucose levels are likely to be a large determinant of the blood glucose response to exercise in both male and female rats.

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David P McBey

The effects of exercise training versus intensive insulin treatment on skeletal muscle fibre content in type 1 diabetes mellitus rodents

581-P: The Effects of Resistance Training on Insulin Resistance Development in Female Rodents with Type 1 Diabetes

Sexual dimorphism in response to repetitive bouts of acute aerobic exercise in rodents with type 1 diabetes mellitus

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