Effect of Concurrent and Aerobic Exercise on VO2max, Strength, and Body Composition in Overweight and Obese Adults

Not Applicable

Completed

• Conditions: Healthy Volunteers
• Interventions: Behavioral: Aerobic exercise; Behavioral: Concurrent exercise

• Registration Number: NCT05867498
• Lead Sponsor: Universidad de Antioquia

Brief Summary

Concurrent and aerobic physical exercise are recognized strategies for the treatment of overweight and obesity. The interventions of these modalities have been performed with cardiovascular machines or guided execution in their majority, making it possible to improve the health of this population; however, the studies have used high-cost equipment that is not very accessible to the general population. For this reason, we propose to compare the effects of two 12-week programs: concurrent vs. aerobic, using an innovative methodology with musicalized and outdoor activities, little approached by research. The polarized training intensity distribution model, usually used in sports and now applied to physical activity to improve VO2max, muscular strength, and body composition, will be used to determine which intervention is superior in improving these variables.

Detailed Description

Twenty-eight people (women and men) will be randomly assigned to a concurrent exercise group (intervention group) and an aerobic exercise group (comparator group), with fourteen people per group. These interventions will be performed for 12 weeks, 3 times per week, with a duration of 60 minutes per session. The first 8 minutes will be of general and specific joint mobility preparing the participants for the central part which will be 47 minutes, and will end with 5 minutes of return to calm.

The concurrent exercise group sessions will have two components, lasting 47 minutes. One of them will be strength exercises with a time of 23 minutes, to perform 7 exercises. In the first four weeks, it will be a general circuit, composed of 2 sets, 15 to 18 repetitions, for 60 seconds, with micro-pauses of 10 seconds between exercises, and 3 minutes between sets. In weeks 5 to 8, it will be a block circuit, consisting of 3 sets, 12 to 15 repetitions, for 45 seconds, with micro-pauses of 10 seconds between exercises and 70 seconds between sets. For weeks 9 to 12, it will be a concentrated circuit, consisting of 3 sets, 8 to 12 repetitions, for 35 seconds, with micro-pauses of 15 seconds between exercises and 110 seconds between sets.

The aerobic component will have a duration equal to the strength component (24 minutes). A variable continuous method will be applied for the first 18 minutes through rumba-aerobic (ballroom and folkloric dance steps), at an intensity lower than the ventilatory threshold 1 (VT 1). For the remaining 6 minutes, an intervallic method will be used at an intensity \> VT 2, with combat gestures (fists, knees, and plantar flexions). Progression of the loads during the 12 weeks of intervention: Weeks 1 and 2: 5 loads of 30 seconds and 30 seconds of recovery.

Weeks 3 and 4: 4 loads of 45 seconds and 45 seconds of recovery. Weeks 5 to 7: 5 loads of 50 seconds and 25 seconds of recovery. Week 8: 4 loads of 60 seconds and 30 seconds of recovery. Weeks 9 to 11: 3 loads of 70 seconds and 35 seconds of recovery. Week 12: 4 loads of 80 and 40 seconds of recovery.

The aerobic group, will perform the same methods, rumba steps, combat gestures, intensities, and time of the central part of the aerobic component of the concurrent exercise group, but will be differentiated by performing in the continuous method for a duration of 36 minutes and in the interval method will have the following progression:

Weeks 1 and 2: 2 blocks by 5 loads of 35 seconds and 35 seconds of recovery. Weeks 3 and 4: 2 blocks by 4 loads of 45 seconds and 45 seconds of recovery. Weeks 5 to 8: 2 blocks by 4 loads of 60 seconds and 30 seconds of recovery. Weeks 9 to 11: 2 blocks by 3 loads of 75 seconds and 37.5 seconds of recovery. Week 12: 2 blocks by 4 loads of 80 seconds and 40 seconds of recovery.

All participants will have their maximal oxygen consumption, muscle strength, and body composition evaluated before the beginning of week 1 and at the end of week 12.

Study Timeline

• Study Start: 2023-04-17
• Study First Submitted: 2023-05-02
• Study First Submitted QC: 2023-05-10
• Study First Posted: 2023-05-22
• Status Verified: 2023-10
• Primary Completion: 2023-10-31
• Study Completion: 2023-10-31
• Last Update Submitted: 2023-10-31
• Last Update Posted: 2023-11-01

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 28

Inclusion Criteria

• 18 to 59 years old.
• BMI >25.0.
• Waist circumference ≥85cm in women, and ≥94cm in men.
• Individuals participating voluntarily.

Exclusion Criteria

• History of cardiovascular and pulmonary disease.
• Uncontrolled psychiatric problems.
• People under treatment with anticoagulants, beta-blockers, calcium antagonists, and bronchodilators.
• Having osteo-muscular problems that may affect participation in exercise sessions.
• Pregnant women.
• People with a nutritional plan for weight loss.
• Smokers.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Aerobic exercise	Aerobic exercise	* Low-to-moderate-intensity continuous training: 36 min (\< VT 1) * Interval training: in two blocks (\> VT 2) 5 bouts of 35 s loads. Work:rest ratio: 1:1 4 bouts of 45 s loads. Work:rest ratio: 1:1 4 bouts of 60 s loads. Work:rest ratio: 2:1 3 bouts of 75 s loads. Work:rest ratio: 2:1 4 bouts of 80 s loads. Work:rest ratio: 2:1
Concurrent exercise	Concurrent exercise	Strength component (circuit-based exercise) 7 exercises: * General (2 sets of 15-18 Rep, OMNI-Resistance Exercise Scale 4-5, x 10 s) 180 s * Block (3 sets of 12-15 Rep, OMNI-Resistance Exercise Scale 5-6, x 10 s) 70 s * Concentrated (3 sets of 10-12 Rep, OMNI-Resistance Exercise Scale 7-8, x 15 s) 110 s Aerobic component * Low-to-moderate-intensity continuous training: 16 min to 18 min (\< VT 1) * Interval training: in a block (\> VT 2) * 5 bouts of 30 s loads. Work:rest ratio: 1:1 * 4 bouts of 45 s loads. Work:rest ratio: 1:1 * 5 bouts of 50 s loads. Work:rest ratio: 2:1 * 4 bouts of 60 s loads. Work:rest ratio: 2:1 * 3 bouts of 70 s loads. Work:rest ratio: 2:1 * 4 bouts of 80 s loads. Work:rest ratio: 2:1

Primary Outcome Measures

Name	Time	Method
Change in maximal oxygen consumption	Baseline and 12-weeks	A graded exercise test on a cycle ergometer (ERGO-FIT, Germany) will obtain maximal oxygen consumption (VO2max) using a METAMAX 3B gas analyzer (CORTEX, Germany). VO2max will be reported in ml/kg/min.

Secondary Outcome Measures

Name	Time	Method
Change in maximum velocity	Baseline and 12-weeks	Maximum velocity (m/s), will be assessed by a progressive half squat test on a Smith machine, with a T-Force System linear encoder (ERGOTECH, Spain).
Change in body fat	Baseline and 12-weeks	Body fat (%), will be obtained using an InBody 270 body composition analyzer (InBody, USA).
Change in muscle mass	Baseline and 12-weeks	Muscle mass (kg), will be obtained using an InBody 270 body composition analyzer (InBody, USA).
Change in waist circumference	Baseline and 12-weeks	Waist circumference (cm), will be obtained using a tape measure (SECA).
Change in mean propulsive velocity	Baseline and 12-weeks	Mean propulsive velocity (m/s), will be assessed by a progressive half squat test on a Smith machine, with a T-Force System linear encoder (ERGOTECH, Spain).
Change in peak maximum power	Baseline and 12-weeks	Peak maximum power (W), will be assessed by a progressive half squat test on a Smith machine, with a T-Force System linear encoder (ERGOTECH, Spain).
Change in body weight	Baseline and 12-weeks	Body weight (kg), will be obtained using an InBody 270 body composition analyzer (InBody, USA).
Change in visceral fat level	Baseline and 12-weeks	Visceral fat level (\>10 high, \<10 low), will be obtained using an InBody 270 body composition analyzer (InBody, USA).

Trial Locations

Locations (1)

Universidad de Antioquia; 🇨🇴 Medellín, Antioquia, Colombia