Literature DB >> 30787665

Effects of Vibration and Non-Vibration Foam Rolling on Recovery after Exercise with Induced Muscle Damage.

Blanca Romero-Moraleda1,2, Jaime González-García1, Ángel Cuéllar-Rayo1, Carlos Balsalobre-Fernández3,2, Daniel Muñoz-García4, Esther Morencos5.   

Abstract

We aimed to compare the effects between non-vibration foam rolling (NVFR) and vibration foam rolling (VFR) on visual analogic scale (VAS), pressure pain threshold (PPT), oxygen saturation (SmO2), countermovement jump (CMJ) and hip and knee range of movement (ROM) after eliciting muscle damage through eccentric acute exercise using an inertial flywheel. Thirty-eight healthy volunteers (32 men, 6 women; aged 22.2±3.2 years) were randomly assigned in a counter-balanced fashion to either a VFR or NVFR protocol group. All participants performed a 10x10 (sets x repetitions) eccentric squat protocol to induce muscle damage. The protocols were administered 48-h post-exercise, measuring VAS, PPT, SmO2, CMJ and ROM, before and immediately post-treatment. The treatment technique was repeated on both legs for 1 minute for a total of five sets, with a 30-s rest between sets. The VFR group showed substantially greater improvements (likely to very likely) in the passive VAS (VFR -30.2%, 90% CI -66.2 to -12.8) with chances for lower, similar or greater VAS compared with the NVFR group of 82%, 14% and 4%, respectively and passive extension hip joint ROM (VFR 9.3%, 90% CI 0.2-19.2) with chances for lower, similar or greater ROM compared with the NVFR group of 78%, 21% and 1%, respectively. For intragroup changes, we observed substantial improvements in VAS (p=.05), lateral vastus, rectus femoris and medial vastus PPT. The results suggest that the VFR group achieved greater short-term benefits in pain perception and passive extension hip joint ROM. Both protocols were effective in improving PPT, SmO2, CMJ and knee joint ROM. The enhanced improvement in VAS and hip ROM measures could have significant implications for VFR treatment.

Entities:  

Keywords:  Foam roller; countermovement jump; delayed onset muscle soreness; oxygen saturation; pressure pain threshold; vibration foam roller

Mesh:

Year:  2019        PMID: 30787665      PMCID: PMC6370959     

Source DB:  PubMed          Journal:  J Sports Sci Med        ISSN: 1303-2968            Impact factor:   2.988


  40 in total

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Review 5.  Progressive statistics for studies in sports medicine and exercise science.

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7.  Vibration-induced afferent activity augments delayed onset muscle allodynia.

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8.  Whole-body vibration and the prevention and treatment of delayed-onset muscle soreness.

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9.  Interrater reliability of algometry in measuring pressure pain thresholds in healthy humans, using multiple raters.

Authors:  Linda S Chesterton; Julius Sim; Christine C Wright; Nadine E Foster
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10.  Effects of local pressure and vibration on muscle pain from eccentric exercise and hypertonic saline.

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  18 in total

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Authors:  Rachel M Ruggieri; Jared W Coburn; Andrew J Galpin; Pablo B Costa
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2.  Acute Effects of Dynamic Stretching Followed by Vibration Foam Rolling on Sports Performance of Badminton Athletes.

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Review 3.  Do Self-Myofascial Release Devices Release Myofascia? Rolling Mechanisms: A Narrative Review.

Authors:  David G Behm; Jan Wilke
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4.  Comparison of the Acute Effects of Foam Rolling with High and Low Vibration Frequencies on Eccentrically Damaged Muscle.

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Journal:  J Sports Sci Med       Date:  2022-02-15       Impact factor: 2.988

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6.  Local Vibration Therapy, Oxygen Resaturation Rate, and Muscle Strength After Exercise-Induced Muscle Damage.

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7.  The Effect of Capacitive and Resistive Electric Transfer Intervention on Delayed-Onset Muscle Soreness Induced by Eccentric Exercise.

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10.  Effect of vibration vs non-vibration foam rolling techniques on flexibility, dynamic balance and perceived joint stability after fatigue.

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Journal:  PeerJ       Date:  2019-11-26       Impact factor: 2.984
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