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Resistance Training and Blood Flow Restriction

Not Applicable
Completed
Conditions
Blood Flow Restriction and Low-Intensity Resistance Training
Interventions
Device: Blood Flow Restriction Cuffs
Other: High-Intensity Resistance Training
Other: Low-Intensity Resistance Training
Registration Number
NCT04938947
Lead Sponsor
University of Kansas
Brief Summary

The primary purposes of the proposed study is 1) To examine the changes of muscle fiber cross-sectional areas in the leg extensor muscles (vastus lateralis) pre- to post- 6 weeks of high-intensity resistance training and low-intensity resistance training with blood flow restriction and 2) To examine changes in motor unit size (a non-invasive measure of muscle fiber size) in the leg extensor muscles (vastus lateralis) pre- to post- 6 weeks of high-intensity resistance training and low-intensity resistance training with blood flow restriction.

Detailed Description

Specific Aims and Hypotheses:

Specific Aim 1: To examine the changes of type I and II (different types of muscle fibers) muscle fiber cross-sectional areas in the leg extensor muscles (vastus lateralis) pre- to post- 6 weeks of high-intensity resistance training and low-intensity resistance training with blood flow restriction. Hypothesis 1: Type I and II fiber cross-sectional area will increase following low-intensity resistance training with blood flow restriction, however, only cross-sectional area of type II fibers will increase post high-intensity resistance training.

Specific Aim 2: To examine changes in the size of the motor units that are active during low and high intensity contractions in the leg extensor muscles (vastus lateralis) pre- to post- 6 weeks of high-intensity resistance training and low-intensity resistance training with blood flow restriction. Hypothesis 2: The motor units that are active during low and high intensity contractions will increase in size from low-intensity resistance training with blood flow restriction, but only the motor units that are active during high intensity contractions will increase in size from high-intensity resistance training.

Specific Aim 3: To examine changes in whole muscle cross-sectional area as measured via ultrasound pre- to post- 6 weeks of high-intensity resistance training and low-intensity resistance training with blood flow restriction. Hypothesis 3: Whole muscle cross-sectional area will increase to similar degrees from both high-intensity resistance training and low-intensity resistance training with blood flow restriction.

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
31
Inclusion Criteria
Exclusion Criteria
  • Participants must not have participated in resistance training more than 5 times in the 6 months preceding the study.
  • Participants must be healthy and free of any cardiovascular, metabolic or musculoskeletal conditions that may affect the results of the investigation.
  • Participants must not have a history of severe hip, knee and/or ankle injuries, or any other pathological conditions that impair their motor control.
  • Participants must not have any pre-existing cardiovascular conditions that involve blood flow/blood clotting.
  • Participants who are currently taking blood thinners or any medications regulating blood pressures or heart rate will not be eligible to participate in the study.
  • Female participants who are pregnant at the start of or who are planning to become pregnant during the resistance training intervention will not be eligible to participate in the study.

Study & Design

Study Type
INTERVENTIONAL
Study Design
PARALLEL
Arm && Interventions
GroupInterventionDescription
Low-Intensity Resistance Training with Blood Flow Restriction GroupBlood Flow Restriction CuffsParticipants in this group will complete 3 resistance training sessions per week for 6 weeks (18 sessions total). During each training session, participants will perform 3 sets of bilateral leg-extensions (performed with both legs) to volitional failure using 30% of their 1-repetition maximum (the most weight they are able to perform 1 complete repetition with, but not 2). Participants in this group will perform all leg extensions with blood flow restriction cuffs applied to the proximal thigh of both legs. The pressure that the cuffs are inflated to will be calculated based on estimates of each subject's arterial occlusion pressure from their thigh circumference. Once the target pressure is reached, the cuffs will not be deflated until after the final set of the training session.
Low-Intensity Resistance Training with Blood Flow Restriction GroupLow-Intensity Resistance TrainingParticipants in this group will complete 3 resistance training sessions per week for 6 weeks (18 sessions total). During each training session, participants will perform 3 sets of bilateral leg-extensions (performed with both legs) to volitional failure using 30% of their 1-repetition maximum (the most weight they are able to perform 1 complete repetition with, but not 2). Participants in this group will perform all leg extensions with blood flow restriction cuffs applied to the proximal thigh of both legs. The pressure that the cuffs are inflated to will be calculated based on estimates of each subject's arterial occlusion pressure from their thigh circumference. Once the target pressure is reached, the cuffs will not be deflated until after the final set of the training session.
High-Intensity Resistance Training GroupHigh-Intensity Resistance TrainingParticipants in this group will complete 3 resistance training sessions per week for 6 weeks (18 sessions total). During each resistance training session, participants will perform 3 sets of bilateral leg-extensions (performed with both legs) to volitional failure (likely 8-12 repetitions) using 80% of their 1-repetition maximum (the most weight they are able to perform 1 complete repetition with, but not 2).
Primary Outcome Measures
NameTimeMethod
Determine changes in motor unit sizeJuly 2021- May 2022

Another primary purpose of the study is to examine changes in motor unit size (a non-invasive measure of muscle fiber size) in the leg extensor muscles (vastus lateralis) pre- to post- 6 weeks of high-intensity resistance training and low-intensity resistance training with blood flow restriction

Determine changes in muscle fiber cross-sectional areaJuly 2021-May 2022

A primary purpose of the study is to examine the changes of muscle fiber cross-sectional areas in the leg extensor muscles (vastus lateralis) pre- to post- 6 weeks of high-intensity resistance training and low-intensity resistance training with blood flow restriction

Secondary Outcome Measures
NameTimeMethod

Trial Locations

Locations (1)

Robinson Center

🇺🇸

Lawrence, Kansas, United States

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