Tyler J. Neltner scite author profile

Exercise-induced fatigability (EF) is defined as a fatigue-induced decline in force production and has been reported to exhibit mode-specific differences where unilateral (UL) tasks exhibit greater EF than bilateral (BL) tasks. While women have been reported to display a greater resistance to fatigue than men, few studies have examined whether women exhibit mode-specific differences in EF. Furthermore, few studies have examined the influence of EF on the bilateral deficit (BD). PURPOSE The purpose of the present study was to examine the patterns of responses for normalized isokinetic peak torque and the BD during fatiguing, maximal, isokinetic UL and BL leg extensions in women. METHODS Ten women (Mean ± SD; age = 20.9± 2.08 years; height = 170.4 ± 6.5 cm; body mass = 63.0 ± 7.1 kg) performed 50 UL and BL maximal, concentric, isokinetic leg extensions at 180°•s -1 on three separate visits. Each visit was characterized by a fatiguing task of 50 repetitions with either the dominant limb (DL), non-dominant limb (NL), or both limbs (BL) in random order. Isokinetic peak torque values were averaged across 5 consecutive repetitions and normalized to the value at repetition 5 for the respective fatiguing task. A bilateral deficit index (BDI) was quantified as: BDI = [100 × BL/ (NL + DL)] -100 with the absolute isokinetic peak torque values throughout the 50 repetitions. The mean differences for the normalized isokinetic peak torque values were examined with a 3 (Condition [BL, DL, NL]) × 10 (Repetition [5-50]) repeated measures (RM) ANOVA. The mean changes across repetitions for the BDI were examined with a 1 × 10 (Repetition [5-50]) RM ANOVA. RESULTS The 3 × 10 RM ANOVA demonstrated a significant (p < 0.01, η 2 p = 0.21) interaction with post-hoc analyses indicating an earlier decline in normalized peak torque for the DL (repetition 30) and NL (repetition 25) conditions than the BL (repetition 50) condition. The 1 × 10 RM ANOVA demonstrated no significant mean changes for the BDI (p = 0.05, η 2 p = 0.29). CONCLUSION These results indicated that the women exhibited a greater EF during UL compared to BL fatiguing, maximal, isokinetic leg extensions. While all participants exhibited a BD, there were no significant changes in the BD across the fatiguing task. Future studies are warranted to compare the mechanisms of task-specific EF between women and men.

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Application of the Ratings of Perceived Exertion-Clamp Model to Examine the Effects of Joint Angle on the Time Course of Torque and Neuromuscular Responses During a Sustained, Isometric Forearm Flexion to Task Failure

Smith¹,

Housh²,

Anders³

et al. 2022

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Application of the ratings of perceived exertion-clamp model to examine the effects of joint angle on the time course of torque and neuromuscular responses during a sustained, isometric forearm flexion to task failure. J Strength Cond Res 37(5): 1023-1033, 2023-The present study used the ratings of perceived exertion (RPE)-clamp model during a sustained, isometric forearm flexion task to failure to determine the effects of joint angle on torque and neuromuscular responses. Twelve college-aged women performed two 3-second maximal voluntary isometric contractions at elbow joint angles (EJ) of 75˚, 100˚, and 125˚before sustained, isometric, forearm flexions anchored to RPE 5 7 to task failure (defined as RPE . 7, or the torque was reduced to zero) at EJ 75 , EJ 100 , and EJ 125 . The amplitude (AMP) and frequency (MPF) of the electromyographic (EMG) and mechanomyographic (MMG) signals from the biceps brachii were recorded. Repeated-measures ANOVAs and post hoc comparisons were used to examine differences across time and between joint angles for torque and neuromuscular parameters. A p-value #0.05 was considered significant. For each joint angle, there was a decrease (p , 0.05) in torque across the sustained, isometric task. Collapsed across joint angle, there were decreases (p , 0.001, h 2 p 5 0.378) in EMG AMP from 30 to 100% time to task failure. No changes were observed, however, for the other neuromuscular responses. The subjects voluntarily reduced torque to maintain RPE 5 7 for each joint angle, and we hypothesize that RPE was maintained by afferent feedback from group III/IV motor neurons and corollary discharge (efferent copy of an internal signal that develops from central motor commands). The RPE-Clamp Model may be extended to athletes recovering from injury because a self-selected exercise intensity may be perceived as more enjoyable and promote adherence.

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Tyler J. Neltner

Similar performance fatigability and neuromuscular responses following sustained bilateral tasks above and below critical force

Performance fatigability and neuromuscular responses for bilateral versus unilateral leg extensions in women

Individual Torque And Neuromuscular Responses During A Sustained, Isometric Muscle Action Anchored To RPE = 7

Mode-specific Differences In Exercise-induced Fatigability And The Bilateral Deficit During Isokinetic Leg Extensions In Women.

Application of the Ratings of Perceived Exertion-Clamp Model to Examine the Effects of Joint Angle on the Time Course of Torque and Neuromuscular Responses During a Sustained, Isometric Forearm Flexion to Task Failure

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