Effects of Warm-up Intensity and Blood Flow Restriction

Not Applicable

Active, not recruiting

• Conditions: Healthy Men
• Interventions: Other: Warm-up exercise; Other: Warm-up exercise with Blood Flow Restriction

• Registration Number: NCT05523674
• Lead Sponsor: Paulista University

Brief Summary

Introduction: warming up has the function of preparing the body structures for a given task to be performed during sports, increasing body and muscle temperature, focusing on improving performance. Therefore, the use of the blood flow restriction technique (BFR) can be seen as a promising alternative for promoting greater mechanical and muscular stress, thus providing a more efficient warm-up and optimizing performance. Objectives: to analyze the effects of RFS used during low-intensity warm-up compared with low-intensity and high-intensity warm-up without RFS on performance (jump test and 30-meter sprint test) and skin surface temperature. In addition to analyzing and comparing, after the warm-up protocols with and without RFS, the acute responses on perceptual outcomes (perception of pain, change in sensitivity, subjective perception of exertion and perception of discomfort in relation to RFS) and muscle outcomes (tonus , muscle stiffness and elasticity). Methods: a randomized controlled clinical trial will be carried out, with 33 amateur soccer players aged between 18 and 35 years who will be randomly divided into three groups: low-intensity warm-up without RFS (30% VO2max), high-intensity warm-up without RFS ( 80% VO2max) and low-intensity warm-up associated with BFR (80% of total occlusion pressure) \[30% VO2max-BFR\]. All groups will carry out the heating protocol and the outcomes will be evaluated at baseline and immediately after the end of the heating, as well as 10 and 20 minutes after its completion, namely: skin surface temperature through thermography; tone, stiffness and muscle elasticity by myotometry, subjective perception of pain (VAS); pain threshold through the pressure algometer; subjective perception of exertion (BORG scale); perception of discomfort in relation to RFS (LIKERT-CR-10 scale); 30-meter sprints measured through photocells and vertical jump, measured through the force platform. Descriptive statistics will be used and comparisons will be made using the generalized linear mixed model, assuming a significance level of p\<0.05.

Detailed Description

Not available

Study Timeline

• Study First Submitted: 2022-08-11
• Study First Submitted QC: 2022-08-29
• Study First Posted: 2022-08-31
• Study Start: 2024-03-15
• Status Verified: 2024-04
• Primary Completion: 2024-08-20
• Last Update Submitted: 2024-11-04
• Last Update Posted: 2024-11-06
• Study Completion: 2024-12

Recruitment & Eligibility

• Status: ACTIVE_NOT_RECRUITING
• Sex: Male
• Target Recruitment: 108

Inclusion Criteria

• male
• healthy
• amateur soccer player
• aged between 18 and 35 years

Exclusion Criteria

• smokers;
• alcoholics;
• use drugs that influenced cardiac autonomic activity;
• cardiovascular, metabolic or endocrine diseases;
• having one or more predisposing risk factors for thromboembolism;
• history of lower extremity surgery or musculoskeletal injury within the last six months that may impair your performance during testing or warm-up (e.g., meniscal repair, ligament reconstruction, muscle injury, tendinopathy, lower extremity patellofemoral pain, and/or back pain);

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: CROSSOVER

Arm && Interventions

Group	Intervention	Description
warm-up performed at 80% VO2max	Warm-up exercise	The warm-up exercise will be performed on an ergometric treadmill, through a protocol of 15 minutes duration, with the first 5 minutes of acceleration, until reaching 80% of VO2max, the following 5 minutes of maintenance and the remaining 5 minutes being of slowdown.
warm-up performed at 30% VO2max	Warm-up exercise	The warm-up exercise will be performed on an ergometric treadmill, through a protocol of 15 minutes duration, with the first 5 minutes of acceleration, until reaching 30% of VO2max, the following 5 minutes of maintenance and the remaining 5 minutes being of slowdown.
warm-up performed at 30% VO2max with Blood Flow Restriction	Warm-up exercise with Blood Flow Restriction	The warm-up exercise will be performed on an ergometric treadmill, through a protocol of 15 minutes of duration, with the first 5 minutes of acceleration, until reaching 30% of VO2max, the following 5 minutes of maintenance and the remaining 5 minutes being of slowdown. During the warm-up exercise, a pressure cuff will be used on each leg, with the blood flow restriction technique (80% of arterial occlusion pressure).

Primary Outcome Measures

Name	Time	Method
Temperature	Immediately after warm-up	Skin surface temperature will be evaluated using a thermographic camera
Performance in 30 meter sprint	Immediately after warm-up	the sprint test will be performed in a hall and two pairs of photoelectric cells (Multisprint®, Hidrofit, Brazil) will be used with an accuracy of 0.01 seconds.
Performance in Squat Jump Test	Immediately after warm-up	The squat jump test will be performed at jumping platform (Multisprint, Hidrofit, Brazil)

Secondary Outcome Measures

Name	Time	Method
Perceived discomfort Scale (Likert-RFS)	At the baseline and Immediately after warm-up	The degree of subjective discomfort reported by the participants in relation to the lower limbs refferd a blood flow restriction will be analyzed by Likert Scale of perception of effort of 0 to 10 points, 0 being "no discomfort" and 10 being "very discomfortable."
Tone muscular through Myotonometry used the MyotonPRO equipment	At the baseline and Immediately after warm-up	Natural Oscillation Frequency \[Hz\], characterizing Tone of the muscles: quadriceps femoris, biceps femoris, semitendinosus, triceps surae and tibialis anterior
Perceived Effort Scale (Borg)	At the baseline and Immediately after warm-up	The degree of subjective exertion reported by the participants in relation to the lower limbs will be analyzed by Borg's scale of perception of effort of 0 to 10 points, 0 being "very easy" and 10 being "exhaustive."
Phase angle through Bioimpedance analysis (BIA)	At the baseline and Immediately after warm-up	Assessment of the phase angle, the higher the value, the better the condition of the participant
Stiffness through Myotonometry used the MyotonPRO equipment	At the baseline and Immediately after warm-up	Mechanical Stress Relaxation Time \[ms\] featuring muscle elasticity of the muscles: quadriceps femoris, biceps femoris, semitendinosus, triceps surae and tibialis anterior
heart rate variability indices in the frequency domain	At the baseline time (30 minutes rest in the supine position), during the warm-up (15 minutes in the treadmill) and immediately after the warm-up (60 minutes rest in the supine position)	LF and HF in nu and ms2
Muscle Pain	Immediately after warm-up	The subjective evaluation of pain will be obtained through the Visual Analogue Scale (VAS), graded from 0 to 10, with zero being the total absence of pain and 10 the maximum level of pain supported by the participan
heart rate variability indices analyzed in the Poincaré plot	At the baseline time (30 minutes rest in the supine position), during the warm-up (15 minutes in the treadmill) and immediately after the warm-up (60 minutes rest in the supine position)	SD1 and SD2 in ms
Pain threshold	Immediately after warm-up	To assess the pain threshold, the pressure algometer will be applied at 10 specific locations on the lower limb
Resistance through Bioimpedance analysis (BIA)	At the baseline and Immediately after warm-up	Evaluation of tissue resistance, the higher the value, the worse the result
Reactance through Bioimpedance analysis (BIA)	At the baseline and Immediately after warm-up	Evaluation of tissue reactance, the higher the value, the better the cell integrity
heart rate variability indices in the time domain	At the baseline time (30 minutes rest in the supine position), during the warm-up (15 minutes in the treadmill) and immediately after the warm-up (60 minutes rest in the supine position)	Mean RR, SDNN e rMSSD

Trial Locations

Locations (2)

Franciele Marques Vanderlei; 🇧🇷 Presidente Prudente, SP, Brazil

Carlos Alberto Toledo Teixeira Filho; 🇧🇷 Presidente Prudente, São Paulo, Brazil