The Effects of Common Low-load Blood Flow Restriction Training Protocols on Muscle Excitation and Fatigue

Aldeghi, Taylor M

01 January 2022

Low-load blood flow restriction (LLBFR) training has been shown to elicit greater increases in muscle hypertrophy and strength compared to traditional low-load training, yet few studies have compared the effectiveness of different LLBFR protocols. To our knowledge, no previous study has compared the acute neuromuscular changes induced by two common LLBFR protocols: 30-15-15-15 repetitions (BFR-75) and four sets of repetitions performed to volitional failure (BFR-F). Therefore, the purpose of this study was to use surface electromyography (sEMG) to compare changes in muscle excitation and fatigue during BFR-75 and BFR-F protocols. Ten women (mean ± SD age = 22 ± 3.5 years) volunteered to participate in this investigation. Participants performed isokinetic, unilateral, concentric-eccentric, leg extension muscle actions at 30% maximal voluntary isometric contraction torque with BFR applied at 60% arterial occlusion pressure using a 12-centimeter-wide cuff. The sEMG amplitude and frequency values were measured from the rectus femoris muscle during the beginning and end of each set of exercise and analyzed using separate 2 [condition (BFR-75 and BFR-F)] x 8 [time (B1, E1, B2, E2, B3, E3, B4, E4)] repeated measures ANOVAs. For sEMG amplitude, there was no significant 2-way interaction (p = 0.486; ηₚ² = 0.118) or significant main effect for condition (p = 0.617; ηₚ² = 0.038), but there was a significant main effect for time (p < 0.001; ηₚ² = 0.520). SEMG amplitude increased across time during both protocols (B1 < E1, E2, B3, E3, B4, E4, p ≤ 0.001–0.049). For sEMG frequency, there was no significant 2-way interaction (p = 0.847; ηₚ² = 0.064) or significant main effect for condition (p = 0.825; ηₚ² = 0.007), but there was a significant main effect for time (p = 0.006; ηₚ² = 0.478). SEMG frequency decreased across time during both protocols (B1 > E1, B2, E2, B3, E3, B4, E4, p = 0.002–0.035). Thus, the implementation of the BFR-75 and BFR-F protocols elicited comparable neuromuscular responses that were consistent with fatiguing exercise, but investigators and clinicians may consider other factors such as participant/patient comfort, time, and rating of perceived exertion when determining which protocol to use.

BFR

EMG

blood flow restriction

electromyography

muscle excitation

muscle fatigue

Kinesiology

Characterization of Blood Flow in a Capillary Tube

Ladner, Tammy Lynn

11 August 2007

To better understand how platelets behave when exposed to high shear stress, computational fluid dynamic (CFD) models for single-layer (uniform and constant) viscosity flow and two-layer (two distinct regions of different viscosities) viscosity flow were developed. The single-layer model, which represents common standard practice, did not predict the pressure drop correctly; the error produced from using the single-layer model was approximately 95%. However, the two-layer model produced results that were within 6% of the experimental results. Experimental results used to validate CFD models were obtained from data gathered by researchers at University Medical Center (UMC) in Jackson, MS. Using Fluent 6.2, simulations were performed that showed the characteristics of blood flow in a long stenosis. The beginning of the development of a blood damage model was also investigated. This thesis could provide researchers with information that will eventually allow the prediction of platelet activation and hemolysis.

blood flow

capillary tube

computational fluid dynamics

shear stress

blood damage

The influence of interval vs. continuous exercise on thermoregulation, torso hemodynamics, and finger dexterity in the cold (5°C)

Muller, Matthew David

24 November 2009

No description available.

Biomedical Research

Physical Education

cold

exercise

dexterity

temperature

blood flow

homeostasis

A Prospective Examination of the Effects of Obesity on Cerebral Perfusion and Cognition in Heart Failure

Alosco, Michael L.

02 July 2015

No description available.

Neurosciences

Psychology

Medicine

Aging

Heart failure

obesity

body mass index

cognitive function

cerebral blood flow

Blood Flow and Oxygenation Dynamics as a Result of Human Skeletal Muscle Stretching

Kruse, Nicholas T.

January 2015

No description available.

Biomechanics

Experiments

Health Sciences

Sports Medicine

The Effect of Eccentric Exercise-Induced Muscle Injury on Vascular Function and Muscle Blood Flow

Stacy, Mitchel R.

10 June 2011

No description available.

Biology

Physiology

eccentric exercise

muscle injury

endothelial function

vascular function

blood flow

Cerebral Blood Flow Velocity and Stress Indices as Predictors of Cognitive Vigilance Performance

Reinerman, Lauren E., Ph.D.

25 August 2008

No description available.

Psychology

Cerebral Blood Flow Velocity

Stress

Transcrannial Doppler Ultrasonography

Vigilance

Sensory versus Cognitive Vigilance

Prediction

Cerebral Blood Flow Velocity as a Diagnostic Index of Stress and Fatigue in Simulated Vehicle Driving

LANGHEIM, LISA KAY

23 September 2008

No description available.

Psychology

cerebral blood flow velocity

fatigue

transcranial doppler sonography

sustained attention

simulated driving

stress

subjective state

QUANTIFICATION OF FLOW PARAMETERS IN COMPLEX VASCULATURE FLOW PHANTOMS USING CONTRAST-ENHANCED ULTRASOUND METHOD

Pawar, Asawari

27 August 2015

No description available.

Acoustics

The Effect of Sequential Lower Body Positive Pressure on Forearm Blood Flow and Muscle Deoxygenation During Dynamic Handgrip Exercise

Ward, Aaron Tyler

January 2016

No description available.

Kinesiology

Physiology

Blood flow

Kinetics

Lower body positive pressure

NIRS

Deoxygenation

Exercise