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Relationship between myoelectric and mechanical manifestations of fatigue in the quadriceps femoris muscle group (1996)

Mannion, Anne F. ; Dolan, P. ; Mannion, A. F.

Springer

European journal of applied physiology 74 (1996), S. 411-419

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ISSN: 1439-6327

Keywords: Electromyography ; Power spectrum ; Median frequency ; Muscle force ; Muscle fatigue

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Fatigue is commonly defined as “the failure to maintain the required force”. As such, it may be argued that the use of electromyographic (EMG) power spectral statistics to monitor muscle fatigue is inappropriate, because, during the maintenance of a submaximal force of contraction, EMG changes are readily observable in the absence of any decline in the muscle's mechanical output. However, it is possible that the EMG changes reflect the changing metabolic status of the muscle and hence its inability to generate its normal maximal force. The present study sought to examine whether the decline in EMG median frequency, which occurs during the maintenance of a submaximal force, is correlated with a reduction in the muscle's maximum force-generating capacity. The maximum voluntary contraction (MVC) of the knee extensors in ten young, healthy subjects was determined. On five separate occasions, randomly assigned forces of 20, 30, 40, 50 and 60% MVC were held to the limit of endurance. At intervals throughout the sustained contractions, subjects were required to rapidly generate an MVC for 1–2 s, then return to the fixed submaxial target force. Surface EMG signals were recorded throughout the contractions from the rectus lemons and vastus lateralis muscles, from which the power spectrum median frequency was calculated. Regression analysis revealed highly significant relationships between the rate of decline in MF and the rate of decline in MVC, and between each of these parameters and endurance time to fatigue (P = 0.0001, in each case). It is concluded that the decline in MF can be used to monitor fatigue, where fatigue is defined as the inability to generate the maximum force that can be produced by the muscle in its fresh state.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02337721

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Effects of isokinetic training of the knee extensors on high-intensity exercise performance and skeletal muscle buffering (1994)

Mannion, A. F. ; Jakeman, P. M. ; Willan, P. L. T.

Springer

European journal of applied physiology 68 (1994), S. 356-361

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ISSN: 1439-6327

Keywords: Isokinetic training ; Knee extensors ; High-intensity exercise ; Muscle carnosine ; Muscle buffering

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Twenty-three subjects isokinetically trained the right and left quadriceps femoris, three times per week for 16 weeks; one group (n=13) trained at an angular velocity of 4.19 rad · s−1 and a second group (n=10), at 1.05 rad · s−1. A control group (n=10) performed no training. Isometric endurance time at 60% quadriceps maximum voluntary contraction (MVC), mean power output and work done (W) during all-out cycling, and the muscle buffer value (B) and carnosine concentration of biopsy samples from the vastus lateralis, were all assessed before and after training. The two training groups did not differ significantly from each other in their training response to any of these variables (P 〈 0.05). No significant difference in either 60% MVC endurance time or impulse [(endurance time × force) at 60% MVC] was observed for any group after the 16 week period (P 〉 0.05). However, the post-training increase (9%) in W during high-intensity cycling was greater in the training group than in the control group (P=0.04). NeitherB nor carnosine concentration showed any significant change following training (P=0.56 andP=0.37, respectively). It is concluded that 16 weeks of isokinetic training of the knee extensors enables subjects to do more work during high-intensity cycling. Although the precise adaptations responsible for the improved performance have yet to be identified, they are unlikely to include an increase inB.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00571457

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Effects of isokinetic training of the knee extensors on isometric strength and peak power output during cycling (1992)

Mannion, A. F. ; Jakeman, P. M. ; Willan, P. L. T.

Springer

European journal of applied physiology 65 (1992), S. 370-375

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ISSN: 1439-6327

Keywords: Isokinetic training ; Strength ; Maximum voluntary contraction ; Knee extensors ; Sprint cycle power output

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Isokinetic training of right and left quadriceps femoris was undertaken three times per week for 16 weeks. One group of subjects (n=13) trained at an angular velocity of 4.19 rad·s−1 and a second group (n=10) at 1.05 rad·s−1. A control group (n=10) performed no training. Maximal voluntary contraction (MVC) of the quadriceps, and peak pedal velocity (νp,peak) and peak power output (W peak) during all-out cycling (against loads equivalent to 9, 10, 11, 12, 13 and 14% MVC) were assessed before and after training. The two training groups did not differ significantly from each other in their training response to any of the performance variables (P〉0.05). No significant difference in MVC was observed for any group after the 16-week period (P=0.167). The post-training increases in averageW peak (7%) and νp,peak (6%) during the cycle tests were each significantly different from the control group response (P=0.018 andP=0.008, respectively). It is concluded that 16 weeks of isokinetic strength training of the knee extensors is able to significantly improve νp,peak andW peak during sprint cycling, an activity which demands considerable involvement of the trained muscle group but with its own distinct pattern of coordination.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00868143

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Relationship between myoelectric and mechanical manifestations of fatigue in the quadriceps femoris muscle group (1996)

Mannion, A. F. ; Dolan, P.

Springer

European journal of applied physiology 74 (1996), S. 411-419

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Details

ISSN: 1439-6327

Keywords: Key words Electromyography ; Power spectrum ; Median frequency ; Muscle force ; Muscle fatigue

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Fatigue is commonly defined as “the failure to maintain the required force”. As such, it may be argued that the use of electromyographic (EMG) power spectral statistics to monitor muscle fatigue is inappropriate, because, during the maintenance of a submaximal force of contraction, EMG changes are readily observable in the absence of any decline in the muscle’s mechanical output. However, it is possible that the EMG changes reflect the changing metabolic status of the muscle and hence its inability to generate its normal maximal force. The present study sought to examine whether the decline in EMG median frequency, which occurs during the maintenance of a submaximal force, is correlated with a reduction in the muscle’s maximum force-generating capacity. The maximum voluntary contraction (MVC) of the knee extensors in ten young, healthy subjects was determined. On five separate occasions, randomly assigned forces of 20, 30, 40, 50 and 60% MVC were held to the limit of endurance. At intervals throughout the sustained contractions, subjects were required to rapidly generate an MVC for 1–2 s, then return to the fixed submaxial target force. Surface EMG signals were recorded throughout the contractions from the rectus femoris and vastus lateralis muscles, from which the power spectrum median frequency was calculated. Regression analysis revealed highly significant relationships between the rate of decline in MF and the rate of decline in MVC, and between each of these parameters and endurance time to fatigue (P=0.0001, in each case). It is concluded that the decline in MF can be used to monitor fatigue, where fatigue is defined as the inability to generate the maximum force that can be produced by the muscle in its fresh state.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004210050094

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