Effect of exercise-induced muscle damage on ventilatory and perceived exertion responses to moderate and severe intensity cycle exercise

Davies, Rosemary C.; Rowlands, Alex V.; Eston, Roger G.

doi:10.1007/s00421-009-1094-6

Cited by 58 publications

(99 citation statements)

References 36 publications

(61 reference statements)

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“…Nybo et al (2013) suggested that muscle pain, reduced power, increased creatine kinase, Myoglobin, aspartate aminotransferase and lactate dehydogenase levels are the most signifi cant indicators of muscle damage. Two studies have used very high intensity or volume of exercise to provoke muscle damage (Byrne & Eston, 2002;Davies, Rowlands, & Eston, 2009). However, match activity in soccer is infl uenced by several factors.…”

Section: Introductionmentioning

confidence: 99%

Post-Match Changes in Muscle Damage Markers among U-21 Soccer Players

Trajković¹,

Sporis²,

Vlahović³

et al. 2018

Monten. J. Sports Sci. Med.

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Th is study aimed to investigate the eff ect of offi cial soccer matches on selected markers of muscle damage in U-21 soccer players. A group of 19 trained, healthy male soccer players from the junior category took part in this study. Blood samples were assessed pre-match and immediately aft er a match in response to a competitive (2×45 min) soccer match. Analysis was performed for muscle damage and infl ammatory markers. Signifi cant diff erences between two measures (before and aft er soccer match) exist in Aspartate-aminotransferase (AST), Lactate dehydrogenase (LDH), and Myoglobin. Plasma K + signifi cantly decreased aft er the match (p<0.05), whereas plasma Na + decreased slightly. Th is study showed that most selected markers of muscle damage were infl uenced by a soccer match. However, results remain inconsistent because of the infl uence of the type, duration, and intensity of exercise. Moreover, some markers show great variability among individuals.

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Section: Introductionmentioning

confidence: 99%

Post-Match Changes in Muscle Damage Markers among U-21 Soccer Players

Trajković¹,

Sporis²,

Vlahović³

et al. 2018

Monten. J. Sports Sci. Med.

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show abstract

“…The elevated ˙V E response could also explain the concomitant increase in RPE during fixed-intensity running. Feelings of breathlessness might have provided a central cue to inform RPE, whilst it is also possible that muscle soreness experienced in the knee extensors provided a peripheral cue to alter the sense of effort (Davies et al 2009;Jameson and Ring 2000;Twist and Eston 2009). This is the first study to confirm that EMG amplitude is increased during fixed-intensity running after EIMD.…”

Section: Discussionmentioning

confidence: 77%

“…In attempts to limit discomfort associated with muscle soreness, participants might have altered their running stride pattern (as shown by changes in SL and SF), leading to the increase in ˙V O 2 (Braun & Dutto 2003). Furthermore, the activation of group III and IV afferent fibres, which are responsible for muscle soreness, might have provided an additional stimulus to drivė V E during fixed-intensity running (Davies et al 2009). The elevated ˙V E response could also explain the concomitant increase in RPE during fixed-intensity running.…”

Section: Discussionmentioning

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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“…On the other hand, in comparable concentric contractions yielding a similar metabolic response, hyperventilation has been observed during ECC 10) , though the slope of the relationship between ventilation and arterial blood CO2 partial pressure in concentric exercise and that in ECC are almost the same 9) . Regarding the effect of a prior bout of ECC on ventilatory response to exercise, some investigators reported that the response at phases II and III during constant load or incremental exercise a few days after ECC was exaggerated [11][12][13][14][15] . Gleeson et al 13) and Schneider et al 14) suggested that this phenomenon is due to ventilatory compensation for greater blood lactacidosis after ECC.…”

Section: Introductionmentioning

confidence: 99%

Mechanism and implications of hyperpnea exaggeration at the onset of exercise in mechanical hyperalgesia after eccentric exercise

Hotta

Ishida

2018

JPFSM

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The ventilatory response to moderate-intensity step load exercise has three temporal phases: an initial rapidly increasing phase I, followed by a slower exponential phase II, that leads to the steady state phase III. In muscles with mechanical hyperalgesia (delayed onset muscle soreness) and/or muscle damage a few days after eccentric exercise (ECC), an interesting phenomenon of increased ventilatory response at phases II and III during constant-load exercise and incremental exercise has been reported. However, the mechanisms behind this phenomenon have not been clarified. At least a neural mechanism is partly responsible for this phenomenon because the ventilatory response at neurally modulated phase I has been shown to be exaggerated 2 days after ECC (D2). In the present review, we focus on our previous work to identify the potential mechanism underlying the exaggerated modulation in phase I ventilatory response at D2, in which ECC-induced muscle pain is assumed to be at the peak. We also discuss the physiological and practical implications of this phenomenon.

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Effect of exercise-induced muscle damage on ventilatory and perceived exertion responses to moderate and severe intensity cycle exercise

Cited by 58 publications

References 36 publications

Post-Match Changes in Muscle Damage Markers among U-21 Soccer Players

Post-Match Changes in Muscle Damage Markers among U-21 Soccer Players

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

Mechanism and implications of hyperpnea exaggeration at the onset of exercise in mechanical hyperalgesia after eccentric exercise

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