Acute and Delayed Neuromuscular Alterations Induced by Downhill Running in Trained Trail Runners: Beneficial Effects of High-Pressure Compression Garments

Ehrström, Sabine; Gruet, Mathieu; Giandolini, Marlène; Chapuis, Serge; Morin, Jean–Benoît; Vercruyssen, Fabrice

doi:10.3389/fphys.2018.01627

Cited by 26 publications

(69 citation statements)

References 72 publications

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“…We observed higher value of soft tissue peak acceleration for downhill speed and lower value for uphill speed compared to flat running condition. 'Muscle tuning' can be accentuated or masked especially on downhill or uphill condition (Ehrstr€ om et al 2018). As previously observed, in our study the wore of CG improve the protective effect of 'muscle tuning' by limiting STV (Ehrstr€ om et al 2018).…”

Section: Resultssupporting

confidence: 83%

Acute effect of thigh compression garment on muscle oscillations during running: impact of speed and slope

Dandrieux

Thouze²,

Rossi

2020

Computer Methods in Biomechanics and Biomedical Engineering

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Section: Resultssupporting

confidence: 83%

Acute effect of thigh compression garment on muscle oscillations during running: impact of speed and slope

Dandrieux

Thouze²,

Rossi

2020

Computer Methods in Biomechanics and Biomedical Engineering

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“…For example, Garnier et al [58] reported greater decrements in isokinetic (concentric and eccentric) MVC torque of KE, accompanied by a greater occurrence of the peripheral component of neuromuscular fatigue, in-situ perceived exertion (in gluteus muscles) and delayed muscle pain (in KE, PF and gluteus) following a 45-min DR bout, compared to uphill and level running bouts performed at the same relative intensity (same reserve heart rate, HR). Immediately after DR, large reductions in isometric MVC force/torque of KE and PF muscles are generally reported, and may vary from − 14 to − 55% for KE [5,9,10,15,38,43, and from − 15 to − 25% for PF [9,15,43]. Similarly, a decline in muscle performance (expressed as MVC force/torque loss or endurance capacity) was reported during isokinetic muscle actions (tested from 0.52 to 5.2 rad s −1 and from 0.52 to 2.6 rad s −1 for concentric and eccentric modalities, respectively) [58,88,89], dynamic strength measurement such as counter movement jump [15,90] and muscle endurance test [91].…”

Section: Functional Muscular Alterations Following Downhill Runningmentioning

confidence: 99%

“…1). The reduction in isometric MVC force/torque generally peaks immediately post-DR [5,9,10,15,38,43,, whereas increases in blood CK [14,16,38,[40][41][42] Endurance training seems to limit the occurrence of muscle damage following DR [3,15]. Physical training has been shown to promote higher physiological muscle resistance to exercise due to a combination of neural (motor unit recruitment), morphological (muscle-tendon unit stiffness) and structural adaptations (muscle fascicle pennation angle, and fascicle length) [189,190].…”

Section: Influence Of Training Level and Downhill Running Characterismentioning

confidence: 99%

“…Although wearing lower limb compression garments (CGs) after exercise has been shown to facilitate the recovery process [229][230][231], there is currently no consensus regarding their use during exercise [15,[232][233][234][235]. To date, only a few studies have investigated the impact of wearing CGs during DR [15,236,237].…”

Section: The Use Of Lower Limb Compression Garmentsmentioning

confidence: 99%

“…[11][12][13]); (4) testing different strategies to attenuate EIMD and/or improve subsequent recovery (e.g. [14][15][16]).…”

Section: Introductionmentioning

confidence: 99%

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Downhill Running: What Are The Effects and How Can We Adapt? A Narrative Review

et al. 2020

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Downhill running (DR) is a whole-body exercise model that is used to investigate the physiological consequences of eccentric muscle actions and/or exercise-induced muscle damage (EIMD). In a sporting context, DR sections can be part of running disciplines (off-road and road running) and can accentuate EIMD, leading to a reduction in performance. The purpose of this narrative review is to: (1) better inform on the acute and delayed physiological effects of DR; (2) identify and discuss, using a comprehensive approach, the DR characteristics that affect the physiological responses to DR and their potential interactions; (3) provide the current state of evidence on preventive and in-situ strategies to better adapt to DR. Key findings of this review show that DR may have an impact on exercise performance by altering muscle structure and function due to EIMD. In the majority of studies, EIMD are assessed through isometric maximal voluntary contraction, blood creatine kinase and delayed onset muscle soreness, with DR characteristics (slope, exercise duration, and running speed) acting as the main influencing factors. In previous studies, the median (25th percentile, Q1; 75th percentile, Q3) slope, exercise duration, and running speed were − 12% (− 15%; − 10%), 40 min (30 min; 45 min) and 11.3 km h−1 (9.8 km h−1; 12.9 km h−1), respectively. Regardless of DR characteristics, people the least accustomed to DR generally experienced the most EIMD. There is growing evidence to suggest that preventive strategies that consist of prior exposure to DR are the most effective to better tolerate DR. The effectiveness of in-situ strategies such as lower limb compression garments and specific footwear remains to be confirmed. Our review finally highlights important discrepancies between studies in the assessment of EIMD, DR protocols and populations, which prevent drawing firm conclusions on factors that most influence the response to DR, and adaptive strategies to DR.

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Downhill running affects the late but not the early phase of the rate of force development

et al. 2022

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Purpose This study aimed to evaluate the acute changes in the knee extensors maximum voluntary isometric contraction force (MVIC), rate of force development (RFD), and rate of EMG rise (RER) following a bout of downhill running. Methods MVIC and RFD at 0–50, 50–100, 100–200, and 0–200 ms were determined in thirteen men (22 ± 2 yr) before and after 30 min of downhill running (speed: 10 km h−1; slope: − 20%). Vastus lateralis maximum EMG (EMGmax) and RER at 0–30, 0–50, and 0–75 ms were also recorded. Results MVIC, RFD0–200, and EMGmax decreased by ~ 25% [Cohen’s d = − 1.09 (95% confidence interval: − 1.88/− 0.24)], ~ 15% [d = − 0.50 (− 1.26/0.30)], and ~ 22% [d = − 0.37 (− 1.13/0.42)] (all P < 0.05), respectively. RFD100–200 was also reduced [− 25%; d = − 0.70 (− 1.47/0.11); P < 0.001]. No change was observed at 0–50 ms and 50–100 ms (P ≥ 0.05). RER values were similar at each time interval (all P > 0.05). Conclusion Downhill running impairs the muscle capacity to produce maximum force and the overall ability to rapidly develop force. No change was observed for the early phase of the RFD and the absolute RER, suggesting no alterations in the neural mechanisms underlying RFD. RFD100–200 reduction suggests that impairments in the rapid force-generating capacity are located within the skeletal muscle, likely due to a reduction in muscle–tendon stiffness and/or impairments in the muscle contractile apparatus. These findings may help explain evidence of neuromuscular alterations in trail runners and following prolonged duration races wherein cumulative eccentric loading is high.

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Acute and Delayed Neuromuscular Alterations Induced by Downhill Running in Trained Trail Runners: Beneficial Effects of High-Pressure Compression Garments

Cited by 26 publications

References 72 publications

Acute effect of thigh compression garment on muscle oscillations during running: impact of speed and slope

Acute effect of thigh compression garment on muscle oscillations during running: impact of speed and slope

Downhill Running: What Are The Effects and How Can We Adapt? A Narrative Review

Downhill running affects the late but not the early phase of the rate of force development

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