Effect of Submaximal Eccentric versus Maximal Isometric Contraction on Delayed Onset Muscle Soreness
Background: Delayed onset muscle soreness (DOMS)
is the most common symptom when ordinary individuals and athletes
are exposed to unaccustomed physical activity, especially eccentric
contraction which impairs athletic performance, ordinary people
work ability and physical functioning. Multitudes of methods have
been investigated to reduce DOMS. One of the valuable methods to
control DOMS is repeated bout effect (RBE) as a prophylactic
method. Purpose: To compare the repeated bout effect of
submaximal eccentric with maximal isometric contraction on induced
DOMS. Methods: Sixty normal male volunteers were assigned
randomly into three equal groups: Group A (first study group): 20
subjects received submaximal eccentric contraction on non-dominant
elbow flexors as a prophylactic exercise. Group B (second study
group): 20 subjects received maximal isometric contraction on nondominant
elbow flexors as a prophylactic exercise. Group C (control
group): 20 subjects did not receive any prophylactic exercises.
Maximal isometric peak torque of elbow flexors and patient related
elbow evaluation (PREE) scale were measured for each subject 3
times before, immediately after, and 48 hours after induction of
DOMS. Results: Post-hoc test for maximal isometric peak torque and
PREE scale immediately and 48 hours after induction of DOMS
revealed that group (A) and group (B) resulted in significant decrease
in maximal isometric strength loss and elbow pain and disability
rather than control group (C), but submaximal eccentric group (A)
was more effective than maximal isometric group (B) as it showed
more rapid recovery of functional strength and less degrees of elbow
pain and disability. Conclusion: Both submaximal eccentric
contraction and maximal isometric contraction were effective in
prevention of DOMS but submaximal eccentric contraction produced
a greater protective effect against muscle damage induced by
maximal eccentric exercise performed 2 days later.
[1] K. Cheung, P. Hume and L. Maxwell: Delayed onset muscle soreness:
treatment strategies and performance factors. Journal of Sports
Medicine; 33(2):145-64, 2003.
[2] H. Chen, K. Nosaka and T. Chen: Muscle damage protection by low
intensity eccentric contractions remains for 2 weeks but not 3 weeks.
Europe Journal of Applied Physiology; 112: 555-565, 2012.
[3] F. Lauritzen, G. Paulsen, T. Raastad, L. Bergersen and S. Owe: Gross
ultra-structural changes and necrotic fiber segments in elbow flexor
muscles after maximal voluntary eccentric action in humans. Journal of
Applied Physiology; 107(6): 1923–1934, 2009.
[4] P. Clarkson and M. HubaL: Exercise-induced muscle damage in
humans”. American Journal of Physiologic Medical Rehabilitation;
81(11): 52-69, 2002.
[5] O. Prasartwuth, J. Taylor and S. Gandevial: Maximal force, voluntary
activation and muscle soreness after eccentric damage to human elbow
flexor muscles. J Physiology; 567: 337–348, 2005.
[6] DiPasquale, M. Dana, J. Robert and M. Richard: Determinants of the
Repeated-Bout Effect after Lengthening Contractions. Original Research
Articles: Musculoskeletal; 90 (10): 816-824, 2011.
[7] D. Chapman, M. Newton, M. McGuigan and K. Nosaka: Comparison
between old and young men for responses to fast velocity maximal
lengthening contractions of the elbow flexors. Europe Journal of
Applied Physiology; 104(3): 531–539, 2008.
[8] S. Sayers and P. Clarkson: Force recovery after eccentric exercise in
males and females Europe Journal of Applied Physiology; 84: 122-126,
2001.
[9] M. McHugh and D. Tetro: Changes in the relationship between joint
angle and torque production associated with the repeated bout effect.
Journal of Sports Science; 21:927-32, 2003.
[10] C. Brockett, D. Morgan and U. Proske: Human hamstring muscles adapt
to eccentric exercise by changing optimum length. Medicine and Science
in Sports and Exercise; 33: 783–790, 2001.
[11] T. Chen, H. Chen, AJ. Pearce, et al. Two maximal isometric contractions
attenuate the magnitude of eccentric exercise-induced muscle damage.
Journal of Medicine and Science in Sports and Exercise; 37: 680–689,
2012.
[12] L. Hirose, N. Nosaka, M. Newton, A. Lavender, M. Kano, J. Peake and
K. Suzuki: Changes in inflammatory mediators following eccentric
exercise of the elbow flexors. Exercise Immunology Review; 10: 75-90,
2004.
[13] A. Cleary, Michelle, et al: Temporal Pattern of the Repeated Bout Effect
of Eccentric Exercise on Delayed- Onset Muscle Soreness. Journal of
Athletic Training: 37(1):32-36, 2002.
[14] A. Lavender and K. Nosaka: A light load eccentric exercise confers
protection against a subsequent bout of more demanding eccentric
exercise. Journal of Medicine and Science in Sports and Exercise; 11(3):
291–298, 2008.
[15] N. Shahbazpour, et al: Early alternations in serum creatine kinase and
total cholesterol following high intensity eccentric muscle actions.
Perception and motor systems laboratory. The University of Queensland,
2004.
[16] M. Sahebazamani, H. Mohammadi and T. Ghahraman: The Effect of
Repeated Bouts of Eccentric Exercise on Functional Markers of Delayed
Onset Muscle Soreness. International Journal of Applied Exercise
Physiology 1(2), 2012.
[17] T. Chen, H. Chen and A. Pearce: Attenuation of Eccentric Exercise
induced Muscle Damage by Preconditioning Exercises. Journal of
Medicine and Science in Sports and Exercise, 2012.
[18] T. Chen, H. Chen, M. Lin, C. Wu and K. Nosaka: Muscle damage
responses of the elbow flexors to four maximal eccentric exercise bouts
performed every 4 weeks. Europe Journal of Applied Physiology;
106(2): 267–275, 2009b.
[19] K. Nosaka and M. Aoki: Repeated bout effect: research update and
future perspective. Brazilian Journal of Biomotricity; 5(1): 5-15, 2011.
[20] C. Starbuck and R. Eston: Exercise-induced muscle damage and the
repeated bout effect: evidence for cross transfer. Europe Journal of
Applied Physiology; 112 (3): 1005-13, 2012.
[21] R. Chan, R. Newton and K. Nosaka: Effects of set repetition
configuration in eccentric exercise on muscle damage and the repeated
bout effect. Europe Journal of Applied Physiology; 112:2653–2661,
2012.
[22] A. Aldayel, M. Jubeau, M. McGuigan and K. Nosaka: Less indication of
muscle damage in the second than initial electrical muscle stimulation
bout consisting of isometric contractions of the knee extensors. Europe
Journal of Applied Physiology; 108:709 –717, 2010.
[23] G. Howatson, K. Someren and T. Hortobagyi: Repeated bout effect after
maximal eccentric exercise. International Journal of Sports Medicine;
28(7), 557-563, 2007.
[24] T. Chen and K. Nosaka: Responses of elbow flexors to two strenuous
eccentric exercise bouts separated by three days. Journal of Strength
Conditioning Res; 20(1): 108–116, 2006a.
[25] K. Nosaka, M. Newton, P. Sacco, D. Chapman and A. Lavender: Partial
protection against muscle damage by eccentric actions at short muscle
lengths. Journal of Medicine and Science in Sports and Exercise; 37:
746-753, 2005b.
[26] A. Mackey, J. Bojsen, K. Qvortrup, M. Pedersen, S. Brandstetter and P.
Schjerling: Sequenced response of extracellular matrix de adhesion and
fibrotic regulators after muscle damage is involved in protection against
future injury in human skeletal muscle. FASEB journal official
publication of the Federation of American Societies for Experimental
Biology; 25: 1943-1959, 2011.
[27] K. Nosaka: Muscle damage and adaptation induced by lengthening
contractions. In: Shinohara, M (editor): Advances in Neuromuscular
Physiology of Motor Skills and Muscle Fatigue. Kerela, India: Research
Signpost; 415-435, 2009.
[28] A. Philippou, G. Bogdanis and A. Nevill: Changes in the angle-force
curve of human elbow flexors following eccentric and isometric
exercise. Europe Journal of Applied Physiology; 93: 237-244, 2004. [29] A. Philippou, M. Maridaki and G. Bogdanis: Angle-specific impairment
of elbow flexors strength after isometric exercise at long muscle length.
Journal of Sports Science; 21: 859-65, 2003.
[30] J. Marc, M. Muthalib, Y. Guillaume, A. Nicola and K. Nosaka:
Comparison in muscle damage between maximal voluntary and
electrically evoked isometric contractions of the elbow flexors Europe
Journal of Applied Physiology; 2011.
[31] T. Koh and S. Brooks: Lengthening contractions are not required to
induce protection from contraction-induced muscle injury. American
Journal of physiologic Regulatory Integrative Comp; 281(1):155-161,
2001.
[32] M. Uchida, K. Nosaka, C. Ugrinowitsch, A. Yamashita, E. Martins, A.
Moriscot and M. Aoki: Effect of bench press exercise intensity on
muscle soreness and inflammatory mediators. Journal of Sports Science;
27: 499-507, 2009.
[33] G. Howatson and K. Someren: Evidence of a contralateral repeated bout
effect after maximal eccentric contractions. European Journal of Applied
Physiology; 101: 207-214, 2007.
[1] K. Cheung, P. Hume and L. Maxwell: Delayed onset muscle soreness:
treatment strategies and performance factors. Journal of Sports
Medicine; 33(2):145-64, 2003.
[2] H. Chen, K. Nosaka and T. Chen: Muscle damage protection by low
intensity eccentric contractions remains for 2 weeks but not 3 weeks.
Europe Journal of Applied Physiology; 112: 555-565, 2012.
[3] F. Lauritzen, G. Paulsen, T. Raastad, L. Bergersen and S. Owe: Gross
ultra-structural changes and necrotic fiber segments in elbow flexor
muscles after maximal voluntary eccentric action in humans. Journal of
Applied Physiology; 107(6): 1923–1934, 2009.
[4] P. Clarkson and M. HubaL: Exercise-induced muscle damage in
humans”. American Journal of Physiologic Medical Rehabilitation;
81(11): 52-69, 2002.
[5] O. Prasartwuth, J. Taylor and S. Gandevial: Maximal force, voluntary
activation and muscle soreness after eccentric damage to human elbow
flexor muscles. J Physiology; 567: 337–348, 2005.
[6] DiPasquale, M. Dana, J. Robert and M. Richard: Determinants of the
Repeated-Bout Effect after Lengthening Contractions. Original Research
Articles: Musculoskeletal; 90 (10): 816-824, 2011.
[7] D. Chapman, M. Newton, M. McGuigan and K. Nosaka: Comparison
between old and young men for responses to fast velocity maximal
lengthening contractions of the elbow flexors. Europe Journal of
Applied Physiology; 104(3): 531–539, 2008.
[8] S. Sayers and P. Clarkson: Force recovery after eccentric exercise in
males and females Europe Journal of Applied Physiology; 84: 122-126,
2001.
[9] M. McHugh and D. Tetro: Changes in the relationship between joint
angle and torque production associated with the repeated bout effect.
Journal of Sports Science; 21:927-32, 2003.
[10] C. Brockett, D. Morgan and U. Proske: Human hamstring muscles adapt
to eccentric exercise by changing optimum length. Medicine and Science
in Sports and Exercise; 33: 783–790, 2001.
[11] T. Chen, H. Chen, AJ. Pearce, et al. Two maximal isometric contractions
attenuate the magnitude of eccentric exercise-induced muscle damage.
Journal of Medicine and Science in Sports and Exercise; 37: 680–689,
2012.
[12] L. Hirose, N. Nosaka, M. Newton, A. Lavender, M. Kano, J. Peake and
K. Suzuki: Changes in inflammatory mediators following eccentric
exercise of the elbow flexors. Exercise Immunology Review; 10: 75-90,
2004.
[13] A. Cleary, Michelle, et al: Temporal Pattern of the Repeated Bout Effect
of Eccentric Exercise on Delayed- Onset Muscle Soreness. Journal of
Athletic Training: 37(1):32-36, 2002.
[14] A. Lavender and K. Nosaka: A light load eccentric exercise confers
protection against a subsequent bout of more demanding eccentric
exercise. Journal of Medicine and Science in Sports and Exercise; 11(3):
291–298, 2008.
[15] N. Shahbazpour, et al: Early alternations in serum creatine kinase and
total cholesterol following high intensity eccentric muscle actions.
Perception and motor systems laboratory. The University of Queensland,
2004.
[16] M. Sahebazamani, H. Mohammadi and T. Ghahraman: The Effect of
Repeated Bouts of Eccentric Exercise on Functional Markers of Delayed
Onset Muscle Soreness. International Journal of Applied Exercise
Physiology 1(2), 2012.
[17] T. Chen, H. Chen and A. Pearce: Attenuation of Eccentric Exercise
induced Muscle Damage by Preconditioning Exercises. Journal of
Medicine and Science in Sports and Exercise, 2012.
[18] T. Chen, H. Chen, M. Lin, C. Wu and K. Nosaka: Muscle damage
responses of the elbow flexors to four maximal eccentric exercise bouts
performed every 4 weeks. Europe Journal of Applied Physiology;
106(2): 267–275, 2009b.
[19] K. Nosaka and M. Aoki: Repeated bout effect: research update and
future perspective. Brazilian Journal of Biomotricity; 5(1): 5-15, 2011.
[20] C. Starbuck and R. Eston: Exercise-induced muscle damage and the
repeated bout effect: evidence for cross transfer. Europe Journal of
Applied Physiology; 112 (3): 1005-13, 2012.
[21] R. Chan, R. Newton and K. Nosaka: Effects of set repetition
configuration in eccentric exercise on muscle damage and the repeated
bout effect. Europe Journal of Applied Physiology; 112:2653–2661,
2012.
[22] A. Aldayel, M. Jubeau, M. McGuigan and K. Nosaka: Less indication of
muscle damage in the second than initial electrical muscle stimulation
bout consisting of isometric contractions of the knee extensors. Europe
Journal of Applied Physiology; 108:709 –717, 2010.
[23] G. Howatson, K. Someren and T. Hortobagyi: Repeated bout effect after
maximal eccentric exercise. International Journal of Sports Medicine;
28(7), 557-563, 2007.
[24] T. Chen and K. Nosaka: Responses of elbow flexors to two strenuous
eccentric exercise bouts separated by three days. Journal of Strength
Conditioning Res; 20(1): 108–116, 2006a.
[25] K. Nosaka, M. Newton, P. Sacco, D. Chapman and A. Lavender: Partial
protection against muscle damage by eccentric actions at short muscle
lengths. Journal of Medicine and Science in Sports and Exercise; 37:
746-753, 2005b.
[26] A. Mackey, J. Bojsen, K. Qvortrup, M. Pedersen, S. Brandstetter and P.
Schjerling: Sequenced response of extracellular matrix de adhesion and
fibrotic regulators after muscle damage is involved in protection against
future injury in human skeletal muscle. FASEB journal official
publication of the Federation of American Societies for Experimental
Biology; 25: 1943-1959, 2011.
[27] K. Nosaka: Muscle damage and adaptation induced by lengthening
contractions. In: Shinohara, M (editor): Advances in Neuromuscular
Physiology of Motor Skills and Muscle Fatigue. Kerela, India: Research
Signpost; 415-435, 2009.
[28] A. Philippou, G. Bogdanis and A. Nevill: Changes in the angle-force
curve of human elbow flexors following eccentric and isometric
exercise. Europe Journal of Applied Physiology; 93: 237-244, 2004. [29] A. Philippou, M. Maridaki and G. Bogdanis: Angle-specific impairment
of elbow flexors strength after isometric exercise at long muscle length.
Journal of Sports Science; 21: 859-65, 2003.
[30] J. Marc, M. Muthalib, Y. Guillaume, A. Nicola and K. Nosaka:
Comparison in muscle damage between maximal voluntary and
electrically evoked isometric contractions of the elbow flexors Europe
Journal of Applied Physiology; 2011.
[31] T. Koh and S. Brooks: Lengthening contractions are not required to
induce protection from contraction-induced muscle injury. American
Journal of physiologic Regulatory Integrative Comp; 281(1):155-161,
2001.
[32] M. Uchida, K. Nosaka, C. Ugrinowitsch, A. Yamashita, E. Martins, A.
Moriscot and M. Aoki: Effect of bench press exercise intensity on
muscle soreness and inflammatory mediators. Journal of Sports Science;
27: 499-507, 2009.
[33] G. Howatson and K. Someren: Evidence of a contralateral repeated bout
effect after maximal eccentric contractions. European Journal of Applied
Physiology; 101: 207-214, 2007.
@article{"International Journal of Medical, Medicine and Health Sciences:70416", author = "Mohamed M. Ragab and Neveen A. Abdel Raoof and Reham H. Diab", title = "Effect of Submaximal Eccentric versus Maximal Isometric Contraction on Delayed Onset Muscle Soreness", abstract = "Background: Delayed onset muscle soreness (DOMS)
is the most common symptom when ordinary individuals and athletes
are exposed to unaccustomed physical activity, especially eccentric
contraction which impairs athletic performance, ordinary people
work ability and physical functioning. Multitudes of methods have
been investigated to reduce DOMS. One of the valuable methods to
control DOMS is repeated bout effect (RBE) as a prophylactic
method. Purpose: To compare the repeated bout effect of
submaximal eccentric with maximal isometric contraction on induced
DOMS. Methods: Sixty normal male volunteers were assigned
randomly into three equal groups: Group A (first study group): 20
subjects received submaximal eccentric contraction on non-dominant
elbow flexors as a prophylactic exercise. Group B (second study
group): 20 subjects received maximal isometric contraction on nondominant
elbow flexors as a prophylactic exercise. Group C (control
group): 20 subjects did not receive any prophylactic exercises.
Maximal isometric peak torque of elbow flexors and patient related
elbow evaluation (PREE) scale were measured for each subject 3
times before, immediately after, and 48 hours after induction of
DOMS. Results: Post-hoc test for maximal isometric peak torque and
PREE scale immediately and 48 hours after induction of DOMS
revealed that group (A) and group (B) resulted in significant decrease
in maximal isometric strength loss and elbow pain and disability
rather than control group (C), but submaximal eccentric group (A)
was more effective than maximal isometric group (B) as it showed
more rapid recovery of functional strength and less degrees of elbow
pain and disability. Conclusion: Both submaximal eccentric
contraction and maximal isometric contraction were effective in
prevention of DOMS but submaximal eccentric contraction produced
a greater protective effect against muscle damage induced by
maximal eccentric exercise performed 2 days later.", keywords = "Delayed onset muscle soreness, maximal isometric
peak torque, patient related elbow evaluation scale, repeated bout
effect.", volume = "9", number = "8", pages = "613-7", }
