Diabetes Clinical Trial
Official title:
Resistance Exercise in Already-active Diabetic Individuals (READI) Trial
The purpose of the READI tiral is to examine the effects of resistance training (weight training) on the blood sugar control of aerobically active individuals with Type 1 Diabetes.
Background: Juvenile-onset type 1 (insulin-dependent) diabetes is associated with a 15 year
reduction in life expectancy, primarily due to cardiovascular disease (CVD). Poor blood
glucose (glycemic) control, reflected in elevated hemoglobin A1c (HbA1c) is a major risk
factor for diabetes complications; each 1% absolute reduction in HbA1c leads to a 15-20%
reduction in risk of a major cardiovascular event, and a 25-37% reduction in risk of
microvascular disease. Exercise is appealing as a potential non-pharmacological intervention
to improve glycemic control. However, while aerobic exercise (e.g. walking, running)
improves insulin sensitivity, most published studies found that aerobic exercise did not
improve glycemic control in type 1 diabetes. This paradoxical finding is likely due to the
tendency of type 1 diabetic individuals to decrease their insulin doses and/or increase
carbohydrate intake more than necessary in order to avoid exercise-induced hypoglycemia. In
comparison to aerobic exercise, the smaller acute rise in glucose uptake associated with
resistance exercise may offer the metabolic benefits of exercise while minimizing risk of
exercise-induced hypoglycemia. Only two small published studies (n=8 and 10; men only)
evaluated resistance exercise (weight lifting or exercises with weight machines) in type 1
diabetes, but their results were promising. In a crossover trial, glycemic control was
significantly better during resistance training than during non-exercise control (HbA1c 5.8%
versus 6.9%; absolute difference 1.1%). In a before-after study, combined aerobic and
resistance exercise reduced absolute HbA1c by 0.96%. People with type 1 diabetes who already
do regular aerobic exercise would likely be open to starting an additional form of exercise
if it were proven to improve glycemic control. We therefore wish to evaluate the incremental
effect of resistance training on HbA1c in already-aerobically-active type 1 diabetic
individuals in a randomized, controlled trial.
Primary research question: In type 1 diabetic individuals who already engage in regular
aerobic exercise, does adding a 6-month resistance training program result in improved
glycemic control as reflected in reduced HbA1c compared to aerobic training alone?
Secondary research questions: In type 1 diabetic individuals who already do regular aerobic
exercise, does adding a 6-month resistance training program have favourable effects on body
composition, non-traditional and traditional CVD risk factors, and quality of life vs.
aerobic exercise alone?
Exploratory research questions: What is the incremental effect of resistance training on
insulin requirements and frequency of hypoglycemia? Do changes in glycemic control, body
composition, or quality of life during the resistance training intervention predict exercise
participation during the subsequent 6 months? How cost-effective is it to add the resistance
training program?
Methods: Type 1 diabetic subjects aged ≥16 yr who perform aerobic exercise ≥3
times per week but not resistance exercise, will be recruited at three centres (Ottawa,
Toronto and Calgary). They will first enter a 5-week run-in period, including 3X/week
supervised low-intensity resistance exercise training in weeks 2-5. During run-in, in
addition to verifying adherence to the exercise program, intense efforts will be made to
optimize diabetes care including frequent interaction with the study diabetes nurse/educator
and dietitian, intensification and adjustment of insulin therapy. Subjects attending
≥80% of the exercise sessions and demonstrating good compliance with diabetes care
during run-in will then be randomized to either resistance training or waiting list control
for weeks 6-26; in either case they will continue aerobic exercise at their usual volume and
intensity with support from an Exercise Specialist, use pedometers and report exercise in
activity logs. Resistance exercise training in the intervention group will progress to 3
sets of 8 reps of 8 exercises at 8RM (maximum weight that can be lifted 8 times while
maintaining proper form). Background diabetes care will be provided throughout, in a
protocolized manner for both exercise and control subjects, with all insulin adjustments
done by study research staff.
Significance: Reduced risk of long-term complications of type 1diabetes is tightly linked to
better glycemic control, which is often difficult to achieve. This study will provide
valuable information regarding the extent to which resistance exercise can improve glycemic
control and other important risk factors for complications in people with type 1 diabetes
who are already aerobically active.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Treatment
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