Equine blood flow restriction training: Safety validation

Johnson, Sherry A.; Frisbie, David D.; Griffenhagen, Gregg M.; King, Melissa R.

doi:10.1111/evj.13904

Equine Veterinary Journal

2023

DOI: 10.1111/evj.13904

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Equine blood flow restriction training: Safety validation

Sherry A. Johnson

David D. Frisbie

Gregg M. Griffenhagen

et al.

Abstract: BackgroundBlood flow restriction (BFR) has become a key rehabilitative tool for human orthopaedic conditions. With modernised technology and evolution of clinical application, patient‐specific delivery of occlusion percentages is now considered the standard of care in human patients due to improved therapeutic outcomes and minimised safety risks. Safety validation and limb occlusion pressure (LOP) data for horses, however, are lacking.Objective(1) To determine if BFR exposure resulted in forelimb biomechanical… Show more

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2024

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Blood flow restriction training does not negatively alter the mechanical strength or histomorphology of uninjured equine superficial digital flexor tendons

Johnson,

Sikes,

Johnson

et al. 2024

Equine Veterinary Journal

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BackgroundLow load exercise training with blood flow restriction (BFR) has become increasingly used by human physical therapists to prescribe controlled exercise following orthopaedic injury; its effects on the equine superficial digital flexor tendon (SDFT), however, are unknown.ObjectiveTo investigate outcomes of pressure specific BFR walking exercise on uninjured equine SDFT biomechanics and histomorphology.Study designControlled in vivo experiment.MethodsFour forelimbs of four horses were exposed to 40 BFR‐walk sessions (10‐min interval walking) on a treadmill over a 56‐day study period with their contralateral forelimbs serving as untreated controls. Similarly, four forelimbs of four control horses were exposed to 40 sham cuff walk sessions. On study Day 56, all horses (n = 8) were humanely euthanised and forelimb SDFTs underwent non‐destructive biomechanical testing and corresponding histomorphological analysis. Significance in biomechanical parameters between treatment groups was analysed using a mixed‐effects ANOVA with Tukey's post‐hoc tests.ResultsStatistically significant differences in SDFT stiffness for both first (p = 0.02) and last cycles (p = 0.03) were appreciated within the BFR treated group only, with BFR exposed forelimbs being significantly stiffer than the contralateral unexposed forelimbs. When normalised to cross‐sectional area, no significant differences were appreciated among treatment groups in elastic modulus for the first (p = 0.5) or last cycles (p = 0.4). No histological differences were appreciated among treatment groups according to Bonar, Movin, or musculotendinous junction evaluation criteria.Main limitationsShort‐term comparisons were performed in a small sample population without correlation to performance outcome measures. Optimal occlusion percentages and walk protocols remain unknown.ConclusionsThis study demonstrated no negative impact of BFR on mechanical strength of the equine SDFT; however, evidence suggests that BFR results in increased tendon stiffness based on biomechanical testing and subsequent calculations. No consistent detrimental histomorphological changes were seen.

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Blood flow restriction training does not negatively alter the mechanical strength or histomorphology of uninjured equine superficial digital flexor tendons

Johnson,

Sikes,

Johnson

et al. 2024

Equine Veterinary Journal

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show abstract

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Equine blood flow restriction training: Safety validation

Cited by 1 publication

References 19 publications

Blood flow restriction training does not negatively alter the mechanical strength or histomorphology of uninjured equine superficial digital flexor tendons

Blood flow restriction training does not negatively alter the mechanical strength or histomorphology of uninjured equine superficial digital flexor tendons

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