Exercise-Induced Muscle Damage and Potential Mechanisms for the Repeated Bout Effect

McHugh, Malachy P.; Connolly, Daniel J.; Eston, Roger G.; Gleim, Gilbert W.

doi:10.2165/00007256-199927030-00002

Cited by 294 publications

(298 citation statements)

References 75 publications

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“…Additionally, anaerobic exercise, such as RT, can increase the synthesis of xanthine oxidase and NADPH oxidase enzymes both of which affect OS modulation (McHugh et al 1999). In response to this process, the antioxidant system adapts with adjustments favorable to the endogenous antioxidant system, thus increasing the body's defense capacity.…”

Section: Discussionmentioning

confidence: 99%

Effect of resistance training with different frequencies and detraining on muscular strength and oxidative stress biomarkers in older women

Padilha

Ribeiro

Fleck

et al. 2015

AGE

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The aim of this study was to compare the effect of resistance training (RT) performed with different frequencies followed by a detraining period on muscular strength and oxidative stress (OS) biomarkers in older women. Twenty-seven physically independent women (68.8±4.8 years, 69.1±14.3 kg, 156.0±6.5 cm, and 28.3±4.9 to kg.m −2 ) were randomly assigned to perform a RT program for 2 or 3 days per week (G2X=13 vs. G3X=14) for 12 weeks followed by 12 weeks of detraining period. One repetition maximum (1RM) tests were used as measures of muscular strength (three exercises, three attempts for each exercise, 3-5 min of rest between attempts, and 5 min of rest between exercises). Advanced oxidized protein products (AOPP) and total radical-trapping antioxidant parameter (TRAP) were used as oxidative stress indicators. Both groups increased muscular strength after 12 weeks of training (P<0.05) in chest press (G2X=+11.9 % vs. G3X=+27.5 %, P<0.05), knee extension (G2X=+18.4 % vs. G3X=+16.7 %, P > 0.05), and preacher curl (G2X = +37.6 % vs. G3X=+36.7 %, P>0.05). On the other hand, 12 weeks of detraining were not sufficient to eliminate the major effects produced by RT on muscular strength, although a significant decrease (P<0.05) has been observed for chest press (G3X = −9.1 % vs. G2X = −10.2 %, P>0.05), knee extension (G2X=−14.9 % vs. G3X= −12.1 %, P>0.05), and preacher curl (G2X=−20.5 % vs. G3X=−17.4 %, P>0.05). Pre-to post-training, both groups showed significant (P<0.05) increases in TRAP (G2X=+6.9 % vs. G3X=+15.1 %) with no statistical significant difference between the groups (P>0.05), and the scores remained elevated compared to pre-training after 12 weeks of detraining. AOPP was not changed by RT or detraining (P>0.05). The results suggest that a 12-week RT program with a frequency of 2 days per week may be sufficient to improve muscular strength and OS in older women and detraining for 12 weeks does not completely reverse the changes induced by RT.

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Section: Discussionmentioning

confidence: 99%

Effect of resistance training with different frequencies and detraining on muscular strength and oxidative stress biomarkers in older women

Padilha

Ribeiro

Fleck

et al. 2015

AGE

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“…It is plausible that reducing the degree of muscle damage encountered will also lessen the degree of heat strain encountered. One obvious, but unexplored avenue of investigation is the well-known repeated bout effect of muscle-damaging exercise, where a single session of eccentric exercise induces adaptations resulting in less evidence of damage when the exercise bout is repeated (Clarkson et al 1992;Clarkson and Hubal 2002;McHugh et al 1999). The mechanism to explain this repeated bout effect is not fully understood, though likely involves neural, cellular and mechanical mechanisms (Clarkson et al 1992;Clarkson and Hubal 2002;McHugh et al 1999).…”

Section: Introductionmentioning

confidence: 99%

Repeated muscle damage blunts the increase in heat strain during subsequent exercise heat stress

et al. 2015

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2 ABSTRACTPurpose: Exercise-induced muscle-damage (EIMD) has recently been shown to increase heat strain during exercise-heat-stress (HS), and represents a risk factor for exertional heat illness (EHI). We hypothesised that a repeated-bout of EIMD blunts the increase in rectal temperature (Tre) during subsequent endurance exercise in the heat. Methods: Sixteen non-heat-acclimated males were randomly allocated to EIMD (n=9) or control (CON, n=7). EIMD performed a downhill running treatment at -10% gradient for 60 min at 65% V .O2max in 20C, 40% RH. CON participants performed the same treatment but at +1% gradient.

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“…CK activity after the second bout of high volume squatting was reduced by the initial lower volume bout, meaning it is unlikely that the RBE was exclusively due to the removal and replacement of weak sarcomeres as proposed by some studies (e.g. Armstrong et al 1983;Byrnes et al 1985;McHugh et al 2003;McHugh et al 1999). Indeed, if weak sarcomeres were still intact after the lower volume bout of squatting then they would have been damaged during the more strenuous high volume bout (Nosaka et al 2001).…”

Section: Discussionmentioning

confidence: 92%

“…Therefore, the lower CK in Bout 2 suggests that the initial stress in Bout 1, albeit of a lower intensity, provided a stimulus to strengthen the muscle cell membrane against further damage (Clarkson and Tremblay 1988;Howatson et al 2007). The protective effect of lower volume muscle-damaging exercise against subsequent high volume exercise could also be due to changes in motor unit recruitment during squatting Bout 2 (Chen 2003;Howatson et al 2007;McHugh 2003;McHugh et al 1999). Unfortunately EMG activity was measured during running and not the damaging exercise, which means that we are unable to confirm if alterations in motor unit activity occurred.…”

Section: Discussionmentioning

confidence: 92%

“…It is well established that the signs and symptoms of exercise-induced muscle damage (EIMD) are attenuated after a repeated bout of muscle-damaging exercise (McHugh 2003;McHugh et al 1999). These adaptations are now known to be extended to the observed effects of EIMD on running performance, whereby the negative alterations in the physiological, metabolic, perceptual and kinematic responses during fixed-intensity running are reduced after a repeated bout of EIMD performed two weeks later (Burt et al 2013).…”

Section: Introductionmentioning

confidence: 99%

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Lower-volume muscle-damaging exercise protects against high-volume muscle-damaging exercise and the detrimental effects on endurance performance

et al. 2015

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Purpose: this study examined if lower volume exercise-induced muscle damage (EIMD) performed two weeks before high volume muscle-damaging exercise protects against its detrimental effect on running performance. Methods: 16 male participants were randomly assigned to a lower volume (5 sets of 10 squats, n=8) or high volume (10 sets of 10 squats, n=8) EIMD group and completed baseline measurements for muscle soreness, knee extensor torque, creatine kinase (CK), a 5-min fixed-intensity running bout and a 3 km running timetrial. Measurements were repeated 24 and 48 h after EIMD, and the time-trial running after 48 h. Two weeks later, both groups repeated the baseline measurements, 10 sets of 10 squats and the same follow-up testing (Bout 2). Results: Data analysis revealed increases in muscle soreness and CK and decreases in knee extensor torque 24 -48 h after the initial bouts of EIMD. Increases in oxygen uptake (V O 2 ), minute ventilation (V E ) and rating of perceived exertion (RPE) were observed during fixed-intensity running 24 -48 h after EIMD Bout 1. Likewise, time increased, speed and ˙V O 2 decreased during a 3 km running timetrial 48 h after EIMD. Symptoms of EIMD, responses during fixed-intensity and time-trial running were attenuated in the days after the repeated bout of high volume EIMD performed two weeks after the initial bout. Conclusion: this study demonstrates that the protective effect of lower volume EIMD on subsequent high volume EIMD is transferable to endurance running. Furthermore, time-trial performance was found to be preserved after a repeated bout of EIMD. Key wordsExercise-induced muscle damage; repeated bout effect; oxygen uptake; electromyography; endurance running Abbreviations

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Exercise-Induced Muscle Damage and Potential Mechanisms for the Repeated Bout Effect

Cited by 294 publications

References 75 publications

Effect of resistance training with different frequencies and detraining on muscular strength and oxidative stress biomarkers in older women

Effect of resistance training with different frequencies and detraining on muscular strength and oxidative stress biomarkers in older women

Repeated muscle damage blunts the increase in heat strain during subsequent exercise heat stress

Lower-volume muscle-damaging exercise protects against high-volume muscle-damaging exercise and the detrimental effects on endurance performance

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