Authors: Anna Słupik, Anna Mosiołek, Sebastian Wójtowicz, Dariusz Białoszewski

Abstract:

Introduction: Whole-Body Vibration (WBV) uses high frequency mechanical stimuli generated by a vibration plate and transmitted through bone, muscle and connective tissues to the whole body. Research has shown that long-term vibration-plate training improves neuromuscular facilitation, especially in afferent neural pathways, responsible for the conduction of vibration and proprioceptive stimuli, muscle function, balance and proprioception. Some researchers suggest that the vibration stimulus briefly inhibits the conduction of afferent signals from proprioceptors and can interfere with the maintenance of body balance. The aim of this study was to evaluate the influence of a single set of exercises associated with whole-body vibration on the joint position sense and body balance. Material and methods: The study enrolled 55 people aged 19-24 years. These individuals were randomly divided into a test group (30 persons) and a control group (25 persons). Both groups performed the same set of exercises on a vibration plate. The following vibration parameters: frequency of 20Hz and amplitude of 3mm, were used in the test group. The control group performed exercises on the vibration plate while it was off. All participants were instructed to perform six dynamic exercises lasting 30 seconds each with a 60-second period of rest between them. The exercises involved large muscle groups of the trunk, pelvis and lower limbs. Measurements were carried out before and immediately after exercise. Joint position sense (JPS) was measured in the knee joint for the starting position at 45° in an open kinematic chain. JPS error was measured using a digital inclinometer. Balance was assessed in a standing position with both feet on the ground with the eyes open and closed (each test lasting 30 sec). Balance was assessed using Matscan with FootMat 7.0 SAM software. The surface of the ellipse of confidence and front-back as well as right-left swing were measured to assess balance. Statistical analysis was performed using Statistica 10.0 PL software. Results: There were no significant differences between the groups, both before and after the exercise (p> 0.05). JPS did not change in both the test (10.7° vs. 8.4°) and control groups (9.0° vs. 8.4°). No significant differences were shown in any of the test parameters during balance tests with the eyes open or closed in both the test and control groups (p> 0.05). Conclusions: 1. Deterioration in proprioception or balance was not observed immediately after the vibration stimulus. This suggests that vibrationinduced blockage of proprioceptive stimuli conduction can have only a short-lasting effect that occurs only as long as a vibration stimulus is present. 2. Short-term use of vibration in treatment does not impair proprioception and seems to be safe for patients with proprioceptive impairment. 3. These results need to be supplemented with an assessment of proprioception during the application of vibration stimuli. Additionally, the impact of vibration parameters used in the exercises should be evaluated.

Keywords: Balance, joint position sense, proprioception, whole body vibration.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1110045

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1572

References:

[1] M. Cardinale, J. Wakeling, “Whole body vibration exercise: are vibrations good for you?” Br J Sports Med, vol. 39(9), pp. 585–589, 2005.
[2] W. Biermann, “Influence of cycloid vibration massage on trunk flexion,” American Journal of Physical Medicine, vol. 39, pp. 219–224, 1960.
[3] V. Nazarov, G. Spivak, “Development of athlete’s strength abilities by means of biomechanical stimulation method,” Theory and Practice of Physical Culture (Moscow), vol. 12, pp. 445–450, 1985.
[4] C. Delecluse, M. Roelants, S. Verschueren, “Strength increase after whole-body vibration compared with resistance training,” Med Sci Sports Exerc, vol. 35, pp. 1033–1041, 2003.
[5] C. R. Russo, F. Lauretani, S. Bandinelli, B. Bartali, C. Cavazzini, J. M. Guralnik, L. Ferrucci, “High-frequency vibration training increases muscle power in postmenopausal women,” Arch Phys Med Rehabil, vol. 84(12), pp. 1854–1857, 2003.
[6] V. Gerodimos, A. Zafeiridis, K. Karatrantou, T. Vasilopoulou, K. Chanou, E. Pispirikou, “The acute effects of different whole-body vibration amplitudes and frequencies on flexibility and vertical jumping performance," J Sci Med Sport, vol. 13(4), pp. 438-443, 2010.
[7] S. S. Rees, A. J. Murphy, M. L. Watsford, “Effects of whole-body vibration exercise on lower-extremity muscle strength and power in an older population: a randomized clinical trial,” Phys Ther, vol. 88(4), pp. 462-470, 2008.
[8] T. Trans, J. Aaboe, M. Henriksen, R. Christensen, H. Bliddal, H. Lund, ”Effect of whole body vibration exercise on muscle strength and proprioception in females with knee osteoarthritis,” Knee, vol. 16(4), pp. 256-261, 2009.
[9] M. Roelants, C. Delecluse, S. M. Verschueren, ”Whole-body-vibration training increases knee-extension strength and speed of movement in older women,” J Am Geriatr Soc, vol. 52, pp. 901–908, 2004.
[10] S. M. Verschueren, M. Roelants, C. Delecluse, S. Swinnen, D. Vanderschueren, S. Boonen, “Effect of 6-month whole body vibration training on hip density, muscle strength, and postural control in postmenopausal women: a randomized controlled pilot study,” J Bone Miner Res, vol. 19, pp. 352–359, 2004.
[11] O. Bruyere, M. A. Wuidart, P. E. Di, M. Gourlay, O. Ethgen, F. Richy, J. Y. Reginster, “Controlled whole body vibration to decrease fall risk and improved health-related quality of life of nursing home residents,” Arch Phys Med Rehabil, vol. 86, pp. 303–307, 2005.
[12] R. D. Pollock, F. C. Martin, D. J. Newham, “Whole-body vibration in addition to strength and balance exercise for falls-related functional mobility of frail older adults: a single-blind randomized controlled trial,” Clin Rehabil, vol. 26(10), pp. 915-923, 2012.
[13] A. Bogaerts, S. Verschueren, C. Delecluse, A. L. Claessens, S. Boonen, “Effects of whole body vibration training on postural control in older individuals: A 1 year randomized controlled trial,” Gait Posture, vol. 26(2), pp. 309-316, 2007.
[14] S. Torvinen, P. Kannu, H. Sievanen, T. A. Jarvinen, M. Pasanen, S. Kontulainen, T. L. Jarvinen, P. Oja, I. Vuori, „Effect of a vibration exposure on muscular performance and body balance. Randomized cross-over study,” Clin Physiol Funct Imaging, vol. 22, pp. 145–152, 2002.
[15] S. Rogan, R. Hilfiker, A. Schenk, A. Vogler, J. Taeymans, “Effects of whole-body vibration with stochastic resonance on balance in persons with balance disability and falls history - a systematic review,” Res Sports Med, vol. 22(3), pp. 294-313, 2014.
[16] P. J. Marin, T. J. Hazell, “Effects of whole-body vibration with an unstable surface on muscle activation,” J Musculoskelet Neuronal Interact, vol. 14(2), pp. 213-219, 2014.
[17] R. D. Pollock, S. Provan, F. C. Martin, “The effects of whole body vibration on balance, joint position sense and cutaneous sensation,” Eur J Appl Physiol, vol. 111, pp. 3069-3077, 2011.
[18] R. Hannah, C. Minshull, J. P. Folland, “Whole-body vibration does not influence knee joint neuromuscular function or proprioception,” Scand J Med Sci Sports, vol. 23, pp. 96-104, 2013.
[19] C. L. Fu, S. H. Yung, K. Y. Law, K. H. Leung, P. Y. Lui, H. K. Siu, K. M. Chan, “The Effect of Early Whole-Body Vibration Therapy on Neuromuscular Control After Anterior Cruciate Ligament Reconstruction: A Randomized Controlled Trial,” Am J Sports Med, vol. 41(4), pp. 804-814, 2013.
[20] R. Ritzmann, A. Kramer, S. Bernhardt, A. Gollhofer, “Whole Body Vibration Training - Improving Balance Control and Muscle Endurance,” PLoS ONE, vol. 9(2): e89905, 2014.
[21] K. Hiroshige, M. H. Mahbub, N. Harada, “Effects of whole-body vibration on postural balance and proprioception in healthy young and elderly subjects: a randomised cross-over study,” J Sport Med Phys Fitness, vol. 54, pp. 216-224, 2014.