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W2025123415 endingPage "1484" @default.
W2025123415 startingPage "1476" @default.
W2025123415 abstract "Electrical muscle stimulation (Mstim) at a low or high frequency is associated with failure of force production, but the exact mechanisms leading to fatigue in this model are still poorly understood. Using 31P magnetic resonance spectroscopy (31PMRS), we investigated the metabolic changes in rabbit tibialis anterior muscle associated with the force decline during Mstim at low (10 Hz) and high (100 Hz) frequency. We also simultaneously recorded the compound muscle mass action potential (M-wave) evoked by direct muscle stimulation, and we analyzed its post-Mstim variations. The 100-Hz Mstim elicited marked M-wave alterations and induced mild metabolic changes at the onset of stimulation followed by a paradoxical recovery of phosphocreatine (PCr) and pH during the stimulation period. On the contrary, the 10-Hz Mstim produced significant PCr consumption and intracellular acidosis with no paradoxical recovery phenomenon and no significant changes in M-wave characteristics. In addition, the force depression was linearly linked to the stimulation-induced acidosis and PCr breakdown. These results led us to conclude that force failure during 100-Hz Mstim only results from an impaired propagation of muscle action potentials with no metabolic involvement. On the contrary, fatigue induced by 10-Hz Mstim is closely associated with metabolic changes with no alteration of the membrane excitability, thereby underlining the central role of muscle energetics in force depression when muscle is stimulated at low frequency. Finally, our results further indicate a reduction of energy cost of contraction when stimulation frequency is increased from 10 to 100 Hz." @default.
W2025123415 created "2016-06-24" @default.
W2025123415 creator A5014519039 @default.
W2025123415 creator A5021955373 @default.
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W2025123415 creator A5067519114 @default.
W2025123415 creator A5075500529 @default.
W2025123415 creator A5089306158 @default.
W2025123415 date "2003-10-01" @default.
W2025123415 modified "2023-10-12" @default.
W2025123415 title "Combined in situ analysis of metabolic and myoelectrical changes associated with electrically induced fatigue" @default.
W2025123415 cites W111987466 @default.
W2025123415 cites W1515994347 @default.
W2025123415 cites W15311268 @default.
W2025123415 cites W1791375283 @default.
W2025123415 cites W1806198628 @default.
W2025123415 cites W181539949 @default.
W2025123415 cites W1892226762 @default.
W2025123415 cites W1905411699 @default.
W2025123415 cites W1943154600 @default.
W2025123415 cites W1944916001 @default.
W2025123415 cites W1951837653 @default.
W2025123415 cites W1969556684 @default.
W2025123415 cites W1973348551 @default.
W2025123415 cites W1973815254 @default.
W2025123415 cites W1975539772 @default.
W2025123415 cites W1976935262 @default.
W2025123415 cites W1978212675 @default.
W2025123415 cites W1979996866 @default.
W2025123415 cites W1988456383 @default.
W2025123415 cites W1993407781 @default.
W2025123415 cites W1994429077 @default.
W2025123415 cites W1996140321 @default.
W2025123415 cites W1998005944 @default.
W2025123415 cites W1999407168 @default.
W2025123415 cites W2005942963 @default.
W2025123415 cites W2008087967 @default.
W2025123415 cites W2019388555 @default.
W2025123415 cites W2023388009 @default.
W2025123415 cites W2027289377 @default.
W2025123415 cites W2028011301 @default.
W2025123415 cites W2030579008 @default.
W2025123415 cites W2033463247 @default.
W2025123415 cites W2035190560 @default.
W2025123415 cites W2038188822 @default.
W2025123415 cites W2046572231 @default.
W2025123415 cites W2052123268 @default.
W2025123415 cites W2053880965 @default.
W2025123415 cites W2058640038 @default.
W2025123415 cites W2060290710 @default.
W2025123415 cites W2072619323 @default.
W2025123415 cites W2078045511 @default.
W2025123415 cites W2078421703 @default.
W2025123415 cites W2083647820 @default.
W2025123415 cites W2085261165 @default.
W2025123415 cites W2091529452 @default.
W2025123415 cites W2096748959 @default.
W2025123415 cites W2109572186 @default.
W2025123415 cites W2120202000 @default.
W2025123415 cites W2149326964 @default.
W2025123415 cites W2152940362 @default.
W2025123415 cites W2154785434 @default.
W2025123415 cites W2156100570 @default.
W2025123415 cites W2156262323 @default.
W2025123415 cites W2156611087 @default.
W2025123415 cites W2157612705 @default.
W2025123415 cites W2164519508 @default.
W2025123415 cites W2165453261 @default.
W2025123415 cites W2169013317 @default.
W2025123415 cites W2172717583 @default.
W2025123415 cites W2173131943 @default.
W2025123415 cites W2195584589 @default.
W2025123415 cites W2271332165 @default.
W2025123415 cites W2276959408 @default.
W2025123415 cites W2317495987 @default.
W2025123415 cites W2337938000 @default.
W2025123415 cites W2344741843 @default.
W2025123415 cites W2400132083 @default.
W2025123415 cites W2414332304 @default.
W2025123415 cites W2885242987 @default.
W2025123415 cites W4237844499 @default.
W2025123415 doi "https://doi.org/10.1152/japplphysiol.00230.2003" @default.
W2025123415 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/12819224" @default.
W2025123415 hasPublicationYear "2003" @default.
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