Electromyographic activity of the biceps brachii after exercise-induced muscle damage

It is well known that strenuous eccentric exercise may result in muscle damage. We proposed that vigorous eccentric exercise (EE) would impair myoelectric activity of the biceps brachii. This study utilised a 7-day prospective time-series design. Ten healthy males performed a session of 70 maximal E...

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Published in	Journal of sports science & medicine Vol. 6; no. 4; pp. 461 - 470
Main Authors	Ahmadi, Sirous, Sinclair, Peter J, Foroughi, Nasim, Davis, Glen M
Format	Journal Article
Language	English
Published	Turkey Journal of Sports Science and Medicine 01.12.2007 Asist Group
Subjects	Arm Arm muscles Biomechanics Causes of Discipline Electromyography Employment Exercise Health aspects Health sciences Kinesiology Medical research Medicine Muscle diseases Muscle fatigue Muscle function Muscles Muscular diseases Physiology Rehabilitation Sport science Studies United States root mean square creatine kinase Eccentric exercise median frequency surface electromyography
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Abstract	It is well known that strenuous eccentric exercise may result in muscle damage. We proposed that vigorous eccentric exercise (EE) would impair myoelectric activity of the biceps brachii. This study utilised a 7-day prospective time-series design. Ten healthy males performed a session of 70 maximal EE elbow flexion contractions. Analysis of surface electromyography activity (sEMG) was performed on the signals recorded during isometric contractions at 50% (IC50) and 80% (IC80) of maximum voluntary isometric torque (MVT), deriving RMS and MDF as sEMG parameters. Linear regression of the RMS and MDF time-series (20-s sustained IC50 and IC80) was used to extract intercepts and slopes of these signals on each day. Plasma creatine kinase activity (CK), MVT, arm circumference, subjective perception of soreness and elbow joint range of motion were also measured to assess effectiveness of EE to evoke muscle damage. CK increased over resting values until day 5 after EE, and remained significantly (p < 0.05) elevated even on day 7. MVT had decreased to 45% of its initial value by day 2 after EE, and remained significantly depressed for the following 6 days. In addition, muscle soreness and arm circumference increased, and range of motion decreased after EE. A significant shift of MDF intercept towards lower frequencies at both IC50 and IC80 was observed after EE in the exercised arm, and these values gradually recovered within the next 3 days during IC50. Although there were some changes in RMS values, these alterations were persistent in both control and exercised arms, and did not follow a consistent pattern. In conclusion, a prolonged reduction in MDF intercept was observed after EE, but this was not closely time-associated with the biochemical, anthropometric or functional markers of muscle damage. Compared to RMS, MDF was a more consistent measure to reflect changes in sEMG. Key pointsEMG can be a useful tool to detect exercise-induced muscle damage,MDF decreased after eccentric exercise,This decrease could be related to a reduction in the recruitment of fast twitch fibres, andCompared to RMS, MDF was a more consistent parameter to reflect the changes in EMG after eccentric exercise.
AbstractList	It is well known that strenuous eccentric exercise may result in muscle damage. We proposed that vigorous eccentric exercise (EE) would impair myoelectric activity of the biceps brachii. This study utilised a 7-day prospective time-series design. Ten healthy males performed a session of 70 maximal EE elbow flexion contractions. Analysis of surface electromyography activity (sEMG) was performed on the signals recorded during isometric contractions at 50% (IC50) and 80% (IC80) of maximum voluntary isometric torque (MVT), deriving RMS and MDF as sEMG parameters. Linear regression of the RMS and MDF time-series (20-s sustained IC50 and IC80) was used to extract intercepts and slopes of these signals on each day. Plasma creatine kinase activity (CK), MVT, arm circumference, subjective perception of soreness and elbow joint range of motion were also measured to assess effectiveness of EE to evoke muscle damage. CK increased over resting values until day 5 after EE, and remained significantly (p < 0.05) elevated even on day 7. MVT had decreased to 45% of its initial value by day 2 after EE, and remained significantly depressed for the following 6 days. In addition, muscle soreness and arm circumference increased, and range of motion decreased after EE. A significant shift of MDF intercept towards lower frequencies at both IC50 and IC80 was observed after EE in the exercised arm, and these values gradually recovered within the next 3 days during IC50. Although there were some changes in RMS values, these alterations were persistent in both control and exercised arms, and did not follow a consistent pattern. In conclusion, a prolonged reduction in MDF intercept was observed after EE, but this was not closely time-associated with the biochemical, anthropometric or functional markers of muscle damage. Compared to RMS, MDF was a more consistent measure to reflect changes in sEMG. Key pointsEMG can be a useful tool to detect exercise-induced muscle damage,MDF decreased after eccentric exercise,This decrease could be related to a reduction in the recruitment of fast twitch fibres, andCompared to RMS, MDF was a more consistent parameter to reflect the changes in EMG after eccentric exercise. It is well known that strenuous eccentric exercise may result in muscle damage. We proposed that vigorous eccentric exercise (EE) would impair myoelectric activity of the biceps brachii. This study utilised a 7-day prospective time-series design. Ten healthy males performed a session of 70 maximal EE elbow flexion contractions. Analysis of surface electromyography activity (sEMG) was performed on the signals recorded during isometric contractions at 50% (IC50) and 80% (IC80) of maximum voluntary isometric torque (MVT), deriving RMS and MDF as sEMG parameters. Linear regression of the RMS and MDF time-series (20-s sustained IC50 and IC80) was used to extract intercepts and slopes of these signals on each day. Plasma creatine kinase activity (CK), MVT, arm circumference, subjective perception of soreness and elbow joint range of motion were also measured to assess effectiveness of EE to evoke muscle damage. CK increased over resting values until day 5 after EE, and remained significantly (p < 0.05) elevated even on day 7. MVT had decreased to 45% of its initial value by day 2 after EE, and remained significantly depressed for the following 6 days. In addition, muscle soreness and arm circumference increased, and range of motion decreased after EE. A significant shift of MDF intercept towards lower frequencies at both IC50 and IC80 was observed after EE in the exercised arm, and these values gradually recovered within the next 3 days during IC50. Although there were some changes in RMS values, these alterations were persistent in both control and exercised arms, and did not follow a consistent pattern. In conclusion, a prolonged reduction in MDF intercept was observed after EE, but this was not closely time-associated with the biochemical, anthropometric or functional markers of muscle damage. Compared to RMS, MDF was a more consistent measure to reflect changes in sEMG. It is well known that strenuous eccentric exercise may result in muscle damage. We proposed that vigorous eccentric exercise (EE) would impair myoelectric activity of the biceps brachii. This study utilised a 7-day prospective time-series design. Ten healthy males performed a session of 70 maximal EE elbow flexion contractions. Analysis of surface electromyography activity (sEMG) was performed on the signals recorded during isometric contractions at 50% (IC50) and 80% (IC80) of maximum voluntary isometric torque (MVT), deriving RMS and MDF as sEMG parameters. Linear regression of the RMS and MDF time-series (20-s sustained IC50 and IC80) was used to extract intercepts and slopes of these signals on each day. Plasma creatine kinase activity (CK), MVT, arm circumference, subjective perception of soreness and elbow joint range of motion were also measured to assess effectiveness of EE to evoke muscle damage. CK increased over resting values until day 5 after EE, and remained significantly (p < 0.05) elevated even on day 7. MVT had decreased to 45% of its initial value by day 2 after EE, and remained significantly depressed for the following 6 days. In addition, muscle soreness and arm circumference increased, and range of motion decreased after EE. A significant shift of MDF intercept towards lower frequencies at both IC50 and IC80 was observed after EE in the exercised arm, and these values gradually recovered within the next 3 days during IC50. Although there were some changes in RMS values, these alterations were persistent in both control and exercised arms, and did not follow a consistent pattern. In conclusion, a prolonged reduction in MDF intercept was observed after EE, but this was not closely time-associated with the biochemical, anthropometric or functional markers of muscle damage. Compared to RMS, MDF was a more consistent measure to reflect changes in sEMG. Key points EMG can be a useful tool to detect exercise-induced muscle damage, MDF decreased after eccentric exercise, This decrease could be related to a reduction in the recruitment of fast twitch fibres, and Compared to RMS, MDF was a more consistent parameter to reflect the changes in EMG after eccentric exercise.
Audience	Academic
Author	Sinclair, Peter J Davis, Glen M Foroughi, Nasim Ahmadi, Sirous
AuthorAffiliation	Discipline of Exercise and Sport Science, Faculty of Health Sciences, The University of Sydney , Australia
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References	10994909 - Med Sci Sports Exerc. 2000 Sep;32(9):1587-92 2331341 - Am J Phys Med Rehabil. 1990 Apr;69(2):60-6 2272975 - J Appl Physiol (1985). 1990 Nov;69(5):1810-20 20719705 - J Electromyogr Kinesiol. 1997 Sep;7(3):193-202 11323536 - Med Sci Sports Exerc. 2001 May;33(5):702-10 3624128 - J Appl Physiol (1985). 1987 Jul;63(1):252-6 9626262 - Muscle Nerve. 1998 Jul;21(7):961-3 12409811 - Am J Phys Med Rehabil. 2002 Nov;81(11 Suppl):S52-69 2123179 - J Appl Physiol (1985). 1990 Sep;69(3):868-74 20719638 - J Electromyogr Kinesiol. 1995 Jun;5(2):67-80 11018439 - J Electromyogr Kinesiol. 2000 Oct;10(5):293-300 11228421 - J Electromyogr Kinesiol. 2001 Apr;11(2):73-83 3443957 - J Physiol. 1987 Oct;391:561-71 10364418 - Can J Appl Physiol. 1999 Jun;24(3):234-48 6629599 - Int J Sports Med. 1983 Aug;4(3):170-6 11404663 - Med Sci Sports Exerc. 2001 Jun;33(6):971-7 10737267 - J Sports Sci. 2000 Mar;18(3):163-72 11256821 - J Sports Sci. 2001 Mar;19(3):163-70 1569847 - Med Sci Sports Exerc. 1992 May;24(5):512-20 12665973 - Eur J Appl Physiol. 2003 Apr;89(2):115-21 10834349 - Int J Sports Med. 2000 Apr;21(3):180-4 8897204 - J Clin Neurophysiol. 1996 Sep;13(5):366-84 12409812 - Am J Phys Med Rehabil. 2002 Nov;81(11 Suppl):S70-9 888714 - Acta Physiol Scand. 1977 Jun;100(2):246-54 1483443 - Eur J Appl Physiol Occup Physiol. 1992;65(6):541-5 1765058 - Eur J Appl Physiol Occup Physiol. 1991;63(6):444-8 6200296 - Electroencephalogr Clin Neurophysiol. 1984 Apr;57(4):330-5
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SubjectTerms	Arm Arm muscles Biomechanics Causes of Discipline Electromyography Employment Exercise Health aspects Health sciences Kinesiology Medical research Medicine Muscle diseases Muscle fatigue Muscle function Muscles Muscular diseases Physiology Rehabilitation Sport science Studies
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Title	Electromyographic activity of the biceps brachii after exercise-induced muscle damage
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