The aim of this study was to investigate the effects of vibratory platform upon delayed-onset muscle soreness in physically active persons. 24 volunteers were recruited and randomly divided in 3 different groups: control, vibratory platform before exercise, vibratory platform after exercise. Volunteers were submitted to physical training to induce muscle pain. Pain sensation and muscular flexibility were valued in 3 consecutive days. Vibratory platform was able to reduce significantly muscle pain in both platform groups and there were no changes in muscular flexibility in any group. 

Article visualizations:

Rhea M, Bunker D, Marin P, Lunt K, (2009): “Effect of iTonic whole-body vibration on delayed-onset muscle soreness among untrained individuals”, Journal of Strength and Conditioning Research, 23.6, (1677-1682).

William KI, Earlene D, William M, Shauna A, (1992): “The Effects of Ice Massage, Ice Massage with Exercise, and Exercise on the Prevention and Treatment of Delayed Onset Muscle Soreness”, Journal of Athletic Training, 27.3, (208-217).

Cardinale M, Leiper J, Erskine J, Milroy M, Bell S, (2006): “The acute effects of different whole body vibration amplitudes on the endocrine system of young healthy men: a preliminary study”, Clin Physiol Funct Imaging, 26, (380-384).

Delechuse C, Roelants M, Sabine V, (2003): “Strength Increase after Whole-Body Vibration Compared with Resistance Training”, Medicine & Science in sport & exercise, 6, (1033-1041).

Carson RG, Popple AE. Verschueren, SMP, Riek S., (2010):” Superimposed vibration confers no additional benefit compared with resistance training alone”, Scand J Med Sci Sports, 20, (827-833).

Merriman H, Kurt J, (2009): “The Effects of Whole-Body Vibration Training in Aging Adults: A Systematic Review”, Journal of Geriatric Physical Therapy, 32.3 (134-145).

Marin PJ, Bunker D, Rhea M, Ayllon F, (2009): “Neuromuscular activity during whole-body vibration of different amplitudes and footwear conditions: implications for prescription of vibratory stimulation”, Journal of Strength and Conditioning Research, 23.8, (2311-2316).

Elmantaser M, McMillan M, Smith K, Khanna S, Chantler D, Panarelli M, Ahmed SF, (2012): “A comparison of the effect of two types of vibration exercise on the endocrine and musculoskeletal system” J Musculoskelet Neuronal Interact, 12.3, (144-154).

Bakhtiary AH, Ziaeddin SF, Atefeh AF, (2007): “Influence of vibration on delayed onset of muscle soreness following eccentric exercise”, Brazilian Journal of Sports Medicine, 41, (145-148).

Atefeh AF, Mohammad RH, Gholamreza O, Saeed T, Amir HB, (2011): “Whole-Body Vibration and the Prevention and Treatment of Delayed-Onset Muscle Soreness”, Journal of Athletic Training, 46.1, (43-49).

Atefeh AF, Mohammad RH, Gholamreza O, Saeed T, Amir HB, (2012): “Effects of whole body vibration on prevention and attenuation of delayed-onset muscle soreness following eccentric exercises”, Spring, 13.3, (313-321).

Wheeler AA, Jacobson BH, (2013): “Effect of whole body vibration on delayed onset muscle soreness, flexibility and power”, Journal of Strength and Conditioning Research, 27.9, (2527-2532).

Adams JB, Edwards D, Serviente D, Benediente A, Huntsman E, Jacobs K, Del Rossi G, Ross B, Singnorile J, (2009): “Optimal frequency, displacement, duration and recovery patterns to maximize power output following acute whole-body vibration”, Journal of Strength and Conditioning Research, 23.1, (237-245).

Marin PJ, Herrero AJ, Garcia D, Rhea M, Chicharro J, Gallego J, (2012): “Acute effects of whole-body vibration on neuromuscular responses in older individuals: implications for prescription of vibratory stimulation”, Journal of Strength and Conditioning Research, 26.1, (232-239).

Marin PJ, Herrero AJ, Milton JG, Hazell TJ, García-López D, (2013): “Whole-body vibration applied during upper body exercise improves performance”, Journal of Strength and Conditioning Research, 27.7, (1807-1812).

Osawa Y, Oguma Y, (2013): “Effects of combining whole-body vibration with exercise on the consequences of detraining on muscle performance in untrained adults”, Journal of Strength and Conditioning Research, 27.4, (1074-1082).

Raphael ZF, Wesley A, Daniel KA, Oliver S, (2012): “Occurrence of fatigue induced by a whole body vibration session is not frequency dependent”, Journal of Strength and Conditioning Research, 27.9, (2552-2561).

Roelants M, Vershueren S, Levin O, Stijen V, (2006): “Whole-body vibration induced increase in leg muscle activity during different squat exercise”, Journal of Strength and Conditioning Research, 20.1, (124-129).

Tanja O, Alison V, Mcveigh I, Avidon I, (2013): “Anaerobic power in road cyclists is improved after 10 weeks of whole-body vibration training”, Journal of Strength and Conditioning Research, 27.2, (485-494).

Tossige-Gomes R., Avelar N.C.P., Simão A.P., Neves C.D.C., Brito-Melo G.E.A., Coimbra C.C., Rocha-Vieira E, Lacerda A.C.R., (2012): “Whole-body vibration decreases the proliferative response of TCD4 cells in elderly individuals with knee osteoarthritis”, Braz J Med Biol Res, 45.12, (1262-1268).

Wheeler AA, (2011): “The effect of whole body vibration on delayed-onset muscle soreness” Mayo, Oklahoma State University, (1-92).

Cochrane DJ, Stannard SR, (2005): “Acute whole body vibration training increases vertical jump and flexibility performance in elite female field hockey players” Br J Sports Med, 39, (860-865).

Gerodimos V, Andreas Z, Konstantina K, Theodora V, Konstantina C, Eleni P, (2010): “The acute effects of different whole-body vibration amplitudes and frequencies on flexibility and vertical jumping performance”, Journal of Science and Medicine in Sport, 13.4, (438-443).