Effects of Diet and Exercise on Circadian Glycemia (GLYCEMIA)

University of Michigan

Status

Completed

Conditions

Glucose Intolerance

Treatments

Combination Product: Dietary manipulation (25% carbohydrate diet) and behavioral (exercise)

Combination Product: Dietary manipulation (25% carbohydrate diet) and behavioral (sedentary)

Study type

Interventional

Funder types

Other

Identifiers

NCT03922685

HUM00110793

Details and patient eligibility

About

Specific aims of the study are:

to evaluate whether a 24-h exposure to a 25%-carbohydrate diet will reduce postprandial glycemia to the same extent in the evening (19 h) as in the morning (7 h),. and
to determine whether one hour of post-meal moderate intensity exercise (at 50% of maximal effort) will further reduce postprandial glycemia.

The outcome measures are: plasma concentrations of glucose, insulin, glucose-dependent-insulinotropic peptide (GIP), leptin, and the ketone body beta-hydroxybutyrate.

Full description

The two hypotheses in this study are:

A 24-h exposure to a 25%-carbohydrate diet will reduce postprandial glycemia to the same extent in the evening (19 h) as in the morning (7 h), and
One hour of moderate-intensity exercise (at 50% of maximal effort) will further reduce postprandial glycemia to the same extent in the evening (19 h) as in the morning (7 h).

Eight postmenopausal subjects (age 58.5 years, BMI 25.6 kg/m2) participated in 4 24-h long crossover trials, two terminating at 7h and the other 2 at 19h. At each circadian time one trial required 60 minutes of moderate-intensity exercise (50% of maximal effort), and the other two involved no exercise.

Three 25%-carbohydrate meals prepared by the Michigan Clinical Research Unit (MCRU) kitchen, were eaten at subjects' home, and the fourth was eaten 20 minutes after subjects' arrival at MCRU at either 19 h or 7 h. Blood was collected from antecubital catheter at 10-minute intervals until 23:20 h or 11:20 h, respectively.Plasma was treated with protease inhibitor to preserve GIP, frozen at -80o C until glucose measurements by glucose oxidase, hormone measurements by chemiluminescence, and ketone measurements by Abbott meter strips.

Exercise intensity was determined before the exercise trials on a treadmill from oxygen consumption (VO2) and carbon dioxide production (VCO2) by subjects walking on a treadmill at 3 mph with the treadmill slope increased by 2% every 3 minutes. Maximal effort was established when respiratory exchange ratio (VCO2/VO2) reached or exceeded 1. The treadmill speed and slope at half maximal effort was used during the one-hour exercise bout which was initiated 40 minutes after the start of the meal.

Enrollment

8 patients

Sex

Female

Ages

50 to 65 years old

Volunteers

Accepts Healthy Volunteers

Inclusion criteria

postmenopausal
normal blood glucose
no cholesterol medication
age between 50 an 65 years
overweight but not obese
BMI between 25 and 30 kg/m2
weight-stable during past 6 months
exercise less than 20 minutes three times a week

Exclusion criteria

metabolic disease other than hormonally-corrected hypothyroidism
musculo-skeletal disability that would preclude exercise
smoker
do not meet inclusion criteria

Trial design

Primary purpose

Basic Science

Allocation

Non-Randomized

Interventional model

Crossover Assignment

Masking

None (Open label)

8 participants in 4 patient groups

Morning sedentary arm

Active Comparator group

Description:

After arriving at MCRU at 7 h, and having eaten three 25%-carbohydrate meals over the previous 24 h, subjects had an antecubital-vein catheter inserted and consumed their fourth 25%-carbohydrate meal at 7:20 h. Over the next 4 hours, subjects reclined on a bed and had 3-ml blood samples collected at 10-min intervals. After the 11:20 blood sample, subjects were released from MCRU. This arm is compared to the other three arms.

Treatment:

Combination Product: Dietary manipulation (25% carbohydrate diet) and behavioral (sedentary)

Morning exercise arm

Active Comparator group

Description:

After arriving at MCRU at 7 h, and having eaten three 25%-carbohydrate meals over the previous 24 h, subjects had an antecubital-vein catheter inserted and consumed their fourth 25%-carbohydrate meal at 7:20 h. At 8 h, subjects walked on the treadmill at 50% maximal effort. Between 7:20 and 11:20, 3-ml blood samples were collected at 10-min intervals.After the 11:20 blood sample, subjects were released from MCRU. This arm is compared to the other three arms.

Treatment:

Combination Product: Dietary manipulation (25% carbohydrate diet) and behavioral (exercise)

Evening sedentary arm

Active Comparator group

Description:

After arriving at MCRU at 19 h, and having eaten three 25%-carbohydrate meals over the previous 24 h, subjects had an antecubital-vein catheter inserted and consumed their fourth 25%-carbohydrate meal at 19:20 h. Over the next 4 hours, subjects reclined on a bed and had 3-ml blood samples collected at 10-min intervals. After the 23:20 blood sample, subjects were released from MCRU. This arm is compared to the other three arms.

Treatment:

Combination Product: Dietary manipulation (25% carbohydrate diet) and behavioral (sedentary)

Evening exercise arm

Active Comparator group

Description:

After arriving at MCRU at 19 h, and having eaten three 25%-carbohydrate meals over the previous 24 h, subjects had an antecubital-vein catheter inserted and consumed their fourth 25%-carbohydrate meal at 19:20 h. At 8 h, subjects walked on the treadmill at 50% maximal effort. Between 19:20 and 23:20, 3-ml blood samples were collected at 10-min intervals.After the 23:20 blood sample, subjects were released from MCRU. This arm is compared to the other three arms.

Treatment:

Combination Product: Dietary manipulation (25% carbohydrate diet) and behavioral (exercise)

Trial contacts and locations

Data sourced from clinicaltrials.gov

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