Browse > Article
http://dx.doi.org/10.7236/IJIBC.2018.10.1.7

A Comparative Study on the Effect of Whole Body Vibration on DOMS, Depending on Time Mediation  

Lee, Jun Cheol (Department of Physical Therapy, College of Information & Technology)
Publication Information
International Journal of Internet, Broadcasting and Communication / v.10, no.1, 2018 , pp. 48-60 More about this Journal
Abstract
The experiments were carried out during a total of nine sessions, that is, 3 sessions over 3 days. The CK levels decreased depending on the experiment session ($P{\leq}0.05$), but there was no significant difference ($P{\leq}0.05$) between the experimental group and the control group. Pressure threshold levels significantly decreased depending on the experiment session and the treatments had higher effects in the experimental group. VAS figures significantly decreased depending on the experiment session ($P{\leq}0.005$) and the treatments had higher effects in the experimental group. The results of this study verified the contention that applying vibration treatment immediately after inducing DOMS is more effective in terms of pressure pain threshold (PPT) and VAS, but not CK levels, than applying the treatment 24 hours after inducing DOMS. In addition, the experimental group showed a statistically significant difference compared to the control group. Therefore, it was concluded that applying vibration treatment immediately after inducing DOMS can be used as a DOMS treatment method.
Keywords
DOMS; whole body vibration; CK; Time mediation; pressure pain threshold;
Citations & Related Records
연도 인용수 순위
  • Reference
1 W. K. Lim, S. T. Lee and J. H. et al. Perfect weight training. Gwangrim Book House Co, Seoul. 2013.
2 J. K. Yoon and J. H. Effect of ultrasound treatment on delayed onset muscle soreness after eccentric muscle contractions. Korean J Sport Science, Vol.17, No.3, 58-66, 2006.
3 F. X. Pizza, D. Cavender and A. Stockkard et al. Anti-inflammatorydoses of ibuprofen : On neutrophils and exercise induced muscle injury. Int J Sports Med, Vol.20, No2, 98-102. 1999.   DOI
4 H. W. Koh. Effects of vibratory stimulations on maximal voluntary isometric contraction from delayed onset muscle soreness. J Physical Therapy, Vol.325, No.9, 1093-1096, 2014.
5 C. Kisner, L. A. Therapeutic Exercise. 4th ed. Philadelphia FA Davis CO, pp100-101. 2002.
6 M .J. Cleak and G. Eston. Muscle soreness, swelling, stiffness and strength loss after in tens eccentric exercise. Br J Sp Med, Vol.26, No.4, 267-272, 1992.   DOI
7 K. Larkin, A. P. Kelly and j. Jeffrey et al. Range of Motion as a Predictor of Clinical Shoulder Pain During Recovery From Delayed-Onset Muscle Soreness. J Athletic Training, Vol.50, No.3, 289-294, 2016.   DOI
8 C. Kisner, L. A. Colby. Therapeutic exercise. 3rd ed. Philadelphia, FA Davis Co, pp69-75. 1996.
9 P. Sbricccoli and F. Felice F. Exercise induced muscle injury and assessed by means of linear and non-linerar sEMG and analysis and ultrasonography. J Electromyography & Knesiology, Vol.11, 73-83. 2001.   DOI
10 T. O. Kwon and G. N. Park. Effect of the time of the finishing exercise on threshold level of delayed onset muscle soreness(DOMS). J Korea Sport Research, Vol.14. No.2, 533-545. 2005.
11 S. H. Kim. Effects of different stretching methods after exercise on delayed onset muscle soreness and exercise performance. Exercise Science, Vol.18, No.4, 527-538. 2009.   DOI
12 S. H. Kim. Clinical Article : Infrared thermography analysis of upper Limbs after DOMS (Delayed Onset Muscle Soreness) induced by exercise type difference. Kor Sports Med, Vol.26, No.1, 27-34, 2008.
13 J. H. Kim. The effect of warm up types on concentric and eccentric muscular force recovery. Korean J. Physical Education, Vol.44, No.1,43-253. 2004.
14 Y. J. Jeong, S. J. Ko, H. J. Yoo and D. Y. Jeong. Effects of transcutaneous electrical nerve stimulation and microcurrent electrical neuromuscular stimulation on delayed onset muscle soreness. Physical Therapy Korea, Vol.7, No.2, 76-87, 2000.
15 G. S. Nam and Y. J. Lee. Effects of transcutaneous electrical nerve stimulation on delayed onset muscle soreness. Physical Therapy Korea, Vol.4. No.3,70-83, 1997.
16 S. J. Jin, J. H. Lee and D. T. Lee. et al. Review of the influence of whole body vibration exercise on muscular function, neuroskeletal system, and body composition. J Korean Association of Certified Exercise Professionals, Vol.9, No.1,31-38, 2007.
17 H. R. Kim, E. M. Ryu and H. J. Shin. Effect of myofasciamassage on reduction of myalgia and muscle relaxation and recovery of delayed onset muscle soreness (DOMS) of lower body. Kor J Aeshet. Cosmetol, Vol.10, No.1,51-59, 2012.
18 H. H. Song. Vibration stimulus is due to the muscle pain of muscle function of the impact on recovery. Master's Thesis, Dongshin University, 2009.
19 J. M. Coudreuse, P. Dupont and C. Nicol C. Delayed onset muscle soreness. J De Ttaumatologie Du Sports, Vol.24, No.2,103-110. 2007.   DOI
20 A. Rezasoltani. Influence of vibration on delayed onset of muscle soreness following eccentric exercise: Commentary. British J Sports Medicine, Vol.41, No.3,145-148, 2007.   DOI
21 J. Flieger, T. Karachalios and L. Khal L. et al. Mechanical stimulation in the from of vibration prevents post menopausal bone loss in ovariectomized rats. Calcif Tissue Int, Vol.63, 510-514. 1998.   DOI
22 A. H. Bakhtiary, Z. Safavi-Farokhi and A. Aminian-Far. Influence of vibration on delayed onset of muscle soreness following eccentric exercise. Br J Sp Med, Vol.41, No.3, 145-148, 2014.   DOI
23 J. Matthew, S. Nnoriis and D. J. Smith. et al. Vibration training: An overview of the area training considerations. J Strength Cond Research, Vol.19, No.2, 459-466, 2005.
24 V. B. Issurin. Vibrations and their applications in sport. J. Sports Med. Phys Fitness, Vol.45, 324-326, 2005.
25 Y. T. Lim. The study on whole body vibration as a new exercise-training Prescription method. J Coaching Development, Vol.7, No.4, 105-116, 2005.
26 J. Mester, P. Spotzenfeil and P. Schwarzer. et al. Biological reation to vibration-inplications for sport, J Sci Med Sport, Vol.2, 211-226, 1999.   DOI
27 C. Bosco, E. Iacovelli and O. Tsarplea. et al. Hormonal response to whole-body vibration in men. European J Applied Physiolgy, Vol.81, No.6, 449-454, 2000.   DOI
28 J. Rittweger. Oxygen uptake during whole-boldy vibration exercise: comparison with squatting as a slow voluntary movement. Eur J Applphysiol, Vol.86, No2, 169-173, 2000.
29 C. Bosco, R. Coll and E. Introini. et al. Adaptive response of human skeletal muscle to vibration exposure. Clin. Physiol, Vol.19, 183-187, 1999.   DOI
30 H. Lund, P. Vestergaard-Poulse and I. L. Kanstrup. Isokinetic eccentric exercise as amodel to induce and reproduce pathophysiological alterations related to delayed onset muscle soreness, Scandinavian J Medicine & Science Sports, Vol.8, No.4, 208-215, 1998.   DOI
31 P. M. Clarkson, W. C. Bymes and K. M. M Comic. et al. Muscle soreness and serum creatine kinase activity following Isomertric, eccentric, and concentric exercise. Int J Sports Med. Vol.7, 152-156, 2003.
32 K. H. Hwang. The effects of different environment temperature on serum Lactate dehydrogenase, creatine kinase activity and cortisol concentration during prolonged exercise. Korean J Physical Eduaction, Vol.44, No.5, 529-536. 2005.
33 I. S. Kucherenk, O. O. Soldatkin and F. Lagarde. Determination of total creatine kinase activity in blood serum using an amperometric biosensor based on glucose oxidase and hexokinase. Talanta, Vol.144, 604-611, 2015.   DOI
34 C. B. Ebbeling and P. M. Clarkson. Exercise-induced muscle damage and adaptation. Sports Medicine, Vol.7, 207-234, 2003.
35 R. E.. Armstrong RB, Initial events exercise-ind used muscle muscularsoreness. Med Sci Sport Exerc, Vol.54, 429-435, 1990.
36 Y. Matsuda, S. Kan, H. Uematsu, M. Shibata and Y. Fujino. Pain-related brain activity evoked by active and dynamic arm movement: delayed-onset muscle soreness as a promising model for studying movement-related rain in humans. Pain medicine, Vol.16, No.8, 1528-1539, 2015.   DOI
37 W. J. Evase and J. G. Cannon. The metabolism effect of exercise-induced muscle damage. Exerc Sport Sci Rev, Vol.19, 99-125, 1991.
38 Y. I. Beak and W. S. Shin. Skin temperature & metabolic hormone responses through the positions of the whole body vibration exercise, and exercise intensity, J Exercise Nutrition & Biochemistry, Vol.11, No.2, 169-178, 2007.
39 J. Y. Lee. The Effects of whole body vibration exercise on the pulmonary circulation system and body composition. Master's Thesis, Dongshin University. 2006.
40 C. Vila-Cha, H. Hassanloue and D. Farina. et al. Eccentric exercise and delayed onset muscle soreness of the quadriceps induce adjustments in agonist-antagonist activity, which are dependent on the motor task. Experimental brain research, Vol.216, No.3, 385-395. 2012.   DOI