Acute Effects of Aerobic Exercise on Flow Mediated Slowing and Flow Mediated Dilation in Adults with and Without Type 2 Diabetes

NCT ID: NCT06684912

Last Updated: 2024-11-12

Basic Information

• Recruitment Status: COMPLETED
• Clinical Phase: NA
• Total Enrollment: 36 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2020-01-05
• Study Completion Date: 2022-01-15

Brief Summary

The endothelium is a protective lining of cells inside blood vessels. It keeps blood vessels working smoothly by controlling how wide or narrow your blood vessels are and protecting them from damage. Normally, the endothelium keeps a healthy balance between signals that relax or tighten blood vessels. But with advancing age or certain diseases like diabetes, this balance is disrupted. This can make blood vessels weaker and lead to serious problems in the heart and other organs.

Researchers use a test called brachial flow-mediated dilation (FMD) to check how well blood vessels work. FMD shows how good blood vessels are at making a chemical called nitric oxide (NO), which helps them relax and widen. During the FMD test, researchers reduce blood flow for a short time with a blood pressure cuff, then release it to see how blood vessels respond. They use an ultrasound machine to measure this. While FMD is useful, it has some downsides-it's hard to do right, needs expensive tools, and experts don't always agree on how to analyze the results. A newer method called flow-mediated slowing (FMS) aims to fix these problems. FMS uses pulse wave velocity (PWV) to measure how stiff your blood vessels are. Stiffer vessels mean less nitric oxide and a higher chance of heart problems. After reducing blood flow with a blood pressure cuff and releasing it, healthy people show a drop in PWV (reduction in arterial stiffness), but people with heart failure or high blood pressure do not. Thus, FMS holds promise as it is an easier way to measure blood vessel health.

Exercise training helps keep blood vessels healthy with advancing age. Research has shown that regular aerobic exercise, (running or biking), and strength exercise (lifting weights), can improve how blood vessels work and make them less stiff. This is true even for healthy people. For people with type 2 diabetes, exercise training is even more important to preserve blood vessel health. The intensity of exercise may determine how much blood vessels improve. Research has shown that high-intensity interval training (HIIT)-where you switch between hard exercise and rest-works better than steady, moderate exercise for making blood vessels healthier and less stiff. It is thought that HIIT improves blood vessel health partly by improving how the body uses insulin. Still, not all studies show that training improves blood vessel health in people with type 2 diabetes.

A single session of exercise presents a challenge to blood vessels that allows researchers to understand how exercise over time improves blood vessel health. In addition, studying how blood vessels react to one workout (called the acute exercise model) is helpful because researchers can easily control things like the type of exercise, how hard it is, or how long it lasts. Acute exercise research also helps control other factors, such as nutrition, that may bias results. Thus, acute exercise research is a great method to learn how exercise works in the short term and how it might help in the long run.

Therefore, the present study aimed to determine how FMD and FMS respond after an acute bout of high-intensity interval exercise and moderate continuous exercise in older adults without type 2 diabetes, and also healthy young adults.

The key research questions were:

1. Is the FMD and FMS response after an acute bout of exercise dependent on exercise intensity?

2. Is the FMD and FMS response after an acute bout of exercise dependent on age and disease status?

All participants were asked to:

Complete two exercise sessions - one moderate- and one high-intensity interval bout on a treadmill. The order of the sessions was randomly assigned, similar to flipping a coin.

FMD and FMS were measured before and after each acute exercise bout in the laboratory.

The researchers compared FMD and FMS responses between exercise intensities (high vs. moderate) and populations (individuals with and without type diabetes).

Detailed Description

The study was designed as a randomized, cross-over, repeated-measures experiment. Participants attended 3 separate intervention sessions consisting of an acute bout of HIIE, an acute bout of MICE, or a no exercise (CON) condition, in randomized order (http://www.randomizer.org/) to which participants were blinded until arrival at the laboratory. On a separate day before the interventions, all participants performed a cardiopulmonary exercise test (CPET). The exercise sessions began and ended with a warm-up and a cool-down, respectively, with a duration of 3 min each at 60% of V̇O2 reserve. Both the HIIE and MICE protocols were designed to match a weekly energy expenditure (EE) of 8 kcal.kg-1 week-1 comprising 3 hypothetical exercise sessions per week. Both protocols were individually tailored to each participant regarding his weight and peak oxygen uptake (V̇O2 peak), and the prescribed target intensities were supervised by an exercise physiologist with a heart rate monitor (Garmin, US) throughout the session. To eliminate the possible diurnal variation, each participant performed all interventions at an equal time of day (in the mornings) with a minimum of 48h between sessions. Post-exercise measurements at 10 and 60 min were aimed to characterize the post-exercise biphasic response of the brachial endothelial function. Participants reported to the laboratory in a fasting state (≥ 4h) and refrained from vigorous exercise, vitamin supplements, foods/drinks containing caffeine, and alcohol for at least 24h before each session.

Conditions

Diabetes Mellitus, Type 2

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: CROSSOVER
• Primary Study Purpose: OTHER
• Blinding Strategy: NONE

Study Groups

CONTROL

A non-exercise condition.

Group Type: NO_INTERVENTION

No interventions assigned to this group

High intensity interval exercise (HIIE)

The HIIE was comprised of 1 min exercise bouts at 90% of oxygen uptake (V̇O2) reserve interspersed by 1 min active recovery bouts at 60% V̇O2 reserve (1:1).

Group Type: EXPERIMENTAL

High-intensity interval exercise

Intervention Type: OTHER

The number of bouts of exercise-recovery for each participant was tailored to achieve the desired EE. For example, a participant with a peak oxygen uptake (V̇O2) peak of 30 mL.kg-1.min-1, weighing 80 kg, would need 6 bouts to match the target EE, assuming 1L of O2 uptake equals 5 kcal.

Moderate-intensity exercise (MICE)

MICE at 60% V̇O2 reserve with the duration adjusted to each participant so that each participant achieved the target energy expenditure.

Group Type: EXPERIMENTAL

Moderate continuous exercise

Intervention Type: OTHER

Energy expenditure of exercise conditions (HIIE and MICE) were matched for energy expenditure. A participant with a V̇O2 peak of 30 mL.kg-1.min-1, weighing 80 kg, would need 6 bouts to match the target EE, assuming 1L of O2 uptake equals 5 kcal.

Interventions

High-intensity interval exercise

The number of bouts of exercise-recovery for each participant was tailored to achieve the desired EE. For example, a participant with a peak oxygen uptake (V̇O2) peak of 30 mL.kg-1.min-1, weighing 80 kg, would need 6 bouts to match the target EE, assuming 1L of O2 uptake equals 5 kcal.

Intervention Type: OTHER

Moderate continuous exercise

Energy expenditure of exercise conditions (HIIE and MICE) were matched for energy expenditure. A participant with a V̇O2 peak of 30 mL.kg-1.min-1, weighing 80 kg, would need 6 bouts to match the target EE, assuming 1L of O2 uptake equals 5 kcal.

Intervention Type: OTHER

Other Intervention Names

MICE

Eligibility Criteria

Inclusion Criteria

• Body mass index < 30 kg/m2
• Less than two risk factors for cardiovascular disease (for participants without type diabetes mellitus)
• No electrocardiographic or symptomatic abnormalities on the exercise stress
• Physically active (3-5 days of structured exercise; for participants without type diabetes)
• Glycosylated haemoglobin (HbA1c) levels (≥ 5.7% and bellow 8.0%) or fasting blood glucose ≥126 mg/dL and below 185 mg/dL) - for participants with type 2 diabetes

Exclusion Criteria

• Cardiovascular disease (e.g., heart failure, ischemic heart disease)
• Orthostatic intolerance
• Thyroid dysfunction
• Mental disease
• Microvascular complications (e.g., neuropathies)
• Renal disease
• Musculoskeletal disease (e.g., sarcopenia, osteoporosis)
• Smoking
• Vasoactive medications (e.g. angiotensin-converting enzyme inhibitors, calcium channel blockers)

• Minimum Eligible Age: 18 Years
• Eligible Sex: MALE
• Accepts Healthy Volunteers: Yes

Sponsors

Faculdade de Motricidade Humana

OTHER

Sponsor Role: collaborator

Egas Moniz - Cooperativa de Ensino Superior, CRL

OTHER

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Principal Investigators

Xavier Melo, PhD

Role: PRINCIPAL_INVESTIGATOR

Egas Moniz School of Health & Science

Locations

Faculdade de Motricidade Humana - University of Lisbon

Lisbon, , Portugal

Countries

Portugal

References

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Other Identifiers

ARM WRESTLING

Identifier Type: -

Identifier Source: org_study_id