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http://yadda.icm.edu.pl:80/baztech/element/bwmeta1.element.baztech-1c83d17f-d901-4ade-9e31-f9e688398fe0

Czasopismo

Acta of Bioengineering and Biomechanics

Tytuł artykułu

The effect of short- and long-term vibration training on postural stability in men

Autorzy Piecha, M.  Król, P.  Juras, G.  Sobota, G.  Polak, A.  Bacik, B. 
Treść / Zawartość
Warianty tytułu
Języki publikacji EN
Abstrakty
EN The study aimed to establish the short- and long-term effects of vibration on postural stability in young men. A single set of exercises and a 4-week vibration training were assessed for their impact on the center of foot pressure (COP) sway. The sample consisted of 49 male subjects randomly allocated to seven comparative groups, six of which exercised on a vibration platform whose parameters were set individually for the groups. Group VII was the control group. The stabilographic signal was recorded before the test commenced, after a single application of vibration, before the last set of exercises of the 4-week vibration training, immediately afterwards, as well as one week and one month after the training ended. The subjects were exposed to vibration 3 times a week for 4 weeks. Both a single application of vibration and the 4-week vibration training had an effect on all parameter values, but most changes were statistically insignificant. Group III was the only one where the COP sway in the anterior-posterior direction significantly increased after a single exposure to vibration and significantly decreased in both anterior-posterior and medio-lateral planes one week after vibration training compared with the pre-test recordings.
Słowa kluczowe
PL trening wibracyjny   postawa człowieka  
EN mechanical oscillations   postural sway   whole body vibration  
Wydawca Oficyna Wydawnicza Politechniki Wrocławskiej
Czasopismo Acta of Bioengineering and Biomechanics
Rocznik 2013
Tom Vol. 15, nr 3
Strony 29--35
Opis fizyczny Bibliogr. 34 poz., tab.
Twórcy
autor Piecha, M.
  • Department of Physiotherapy Basics, The Jerzy Kukuczka Academy of Physical Education, Katowice, Poland, magdapiecha@wp.pl
autor Król, P.
  • Department of Physiotherapy Basics, The Jerzy Kukuczka Academy of Physical Education, Katowice, Poland
autor Juras, G.
  • Department of Human Motor Behavior, The Jerzy Kukuczka Academy of Physical Education, Katowice, Poland
autor Sobota, G.
  • Department of Human Motor Behavior, The Jerzy Kukuczka Academy of Physical Education, Katowice, Poland
autor Polak, A.
  • Department of Physiotherapy Basics, The Jerzy Kukuczka Academy of Physical Education, Katowice, Poland
autor Bacik, B.
  • Department of Human Motor Behavior, The Jerzy Kukuczka Academy of Physical Education, Katowice, Poland
Bibliografia
[1] EKLUND G., HAGBARTH K., Normal variability of tonic vibration reflex in man, Exp. Neurol., 1966, Vol. 16, 80–92.
[2] POLONYOVA A., HLAVACKA F., Human postural responses to different frequency vibrations of lower leg muscle, Physiol. Res., 2001, Vol. 50, 405–410.
[3] TALIS V., SOLOPOVA A., Vibration-induced postural reaction continues after the contact with additional back support, Motor Control, 2000, Vol. 4, 407–419.
[4] GOMEZ S., PATEL M., MAGNUSSON M., JOHANSSON L., EINARSSON E., FRANSSON P., Differences between body movement adaptation to calf and neck muscle vibratory proprioceptive stimulation, Gait Posture, 2009, Vol. 30(1), 93–99.
[5] TORVINEN S., KANNUS P., SIEVANEN H., JARVINEN TERO A., PASANEM M., KONTULAINEN S., Effect of four-month vertical whole body vibration on performance and balance, Med. Sci. Sports Exerc., 2002, Vol. 34(9), 1523–1528.
[6] VERSCHUEREN S., ROELANTS M., DELECLUSE C., SWINNEN S., VANDERSCHUEREN D., BOONEN S., Effect of 6-month whole body vibration training on hip density, muscle strength and postural control, J. Bone Miner. Res., 2004, Vol. 19, 352–359.
[7] CAPICIKOVA N., ROCCHI L., HLAVACKA F., CHIARI L., CAPPELLO A., Human postural response to lower leg muscle vibration of different duration, Physiol. Res., 2006, Vol. 55, 129–134.
[8] IWAMOTOW J., TAKEDA T., SATO Y., UZAWA M., Effect of whole-body vibration exercise on lumbar bone mineral density, bone turnover and chronic back pain in postmenopausal osteoporotic women treated with alendronate, Aging Clin. Exp. Res., 2005, Vol. 17(2), 157–163.
[9] KAWANABE K., KAWASHIMA A., SASHIMOTO I., TAKEDA T., SATO Y., IWAMOTO J., Effect of whole-body vibration exercise and muscle strengthening, balance, and walking exercise on walking ability in the eldery, Keio. J. Med., 2007, Vol. 56(1), 28–33.
[10] THOMPSON C., BELANGER M., FUNG J., Effects of bilateral Achilles tendon vibration on postural orientation and balance during standing, Clin. Neurophysiol., 2007, Vol. 118(11), 2456–2467.
[11] JORDAN J., NORRIS S., SMITH D., HERZOG W., Vibration training: an overview of the area, training consequences, and future considerations, J. Strength Con. Res., 2005, Vol. 19(20), 459–466.
[12] CARDINALE M., LIM J., Electromyography activity of vastus lateralis muscle during whole-body vibrations of different frequencies, J. Strength Cond. Res., 2003, Vol. 17(3), 621–624.
[13] KROL P., PIECHA M., SLOMKA K., SOBOTA G., POLAK A., JURAS G., The effect of whole-body vibration frequency and amplitude on the myoelectric activity of vastus medialis and vastus lateralis, J. Sport Sci. Med., 2011, Vol. 10, 169–174.
[14] YUE Z., MESTER J., A model analysis of internal loads, energetic, and effects of wobbling mass during whol
[15] SOBERA M., SIEDLECKA B., Repeatability of frequency of corrective foot pressure during balance control in children aged between 2 and 7, Acta Bioeng. Biomech., 2010, Vol. 12(2), 73–77.
[16] ZATSIORSKY V., DUARTE M., Instant equilibrium point and its migration in standing tasks: rambling and trembling components of the stabilogram, Motor Control, 1999, Vol. 3(1), 28–38.
[17] WINTER D., PATLA A., PRINCE F., ISHAC M., GIELO-PERCZAK K., Stiffness control of balance in quiet standing, J. Neurophysiol., 1998, Vol. 80, 1211–1221.
[18] ADAMCOVA N., HLAVACKA F., Modification of human postural responses to soleus muscle vibration by rotation of visual scene, Gait Posture, 2007, Vol. 25, 99–105.
[19] STASZKIEWICZ R., RUCHLEWICZ T., FORCZEK W., LASKA J., The impact of changes in gait speed and step frequency on the extent of the center of mass displacements, Acta Bioeng. Biomech., 2010, Vol. 12(3), 13–20.
[20] ZIELIŃSKA T., TROJNACKI M., Postural stability in symmetrical gaits, Acta Bioeng. Biomech., 2009, Vol. 11(2), 57–64.
[21] BRUMAGNE S., CORDO P., LYSENS R., VERSCHUEREN S., SWINNEN S., The role of paraspinal muscle spindles in lumbosacral position sense in individuals with and without low back pain, Spine, 2000, Vol. 25(8), 989–994.
[22] PATEL M., GOMEZ S., LUSH D., FRANSSON P., Adaptation and vision change the relationship between muscle activity of the lower limbs and body movement during human balance perturbations, Clin. Neurophysiol., 2009, Vol. 120(3), 601–609.
[23] HATZITAKI V., PAVLOU M., BRONSTEIN A., The integration of multiple proprioceptive information: effect of ankle tendon vibration on postural responses to platform tilt, Exp. Brain Res., 2004, Vol. 154(3), 345–354.
[24] VUILLERME N., DANION F., FORESTIER N., NOUGIER V., Postural sway under muscle vibration and muscle fatigue in humans, Neurosci. Lett., 2002, Vol. 333(2), 131–135.
[25] FRANSSON P., JOHANSSON R., HAFSTRÖM A., MAGNUSSON M., Methods for evaluation of postural control adaptation, Gait Posture, 2000, Vol. 12(1), 14–24.
[26] DOLNY D., REYES G., Whole body vibration exercise: training and benefits, Curr. Sports Med. Rep., 2008, Vol. 7(3), 152–157.
[27] ŁAPSZO J., GIOVANIS V., PRUSIK K., PRUSIK K., Balance control contributors – the relationships between leg strength and balance control ability in seniors, Acta Bioeng. Biomech., 2012, Vol. 14(3), 3–8.
[28] BLASZYK J., BACIK B., JURAS G., Clinical assessment of postural stability, J. Mech. Med. Biol., 2003, Vol. 3(2), 135–144.
[29] RUNGE M., REHFELD G., RESNICEK E., Balance training and exercise in geriatric patients, J. Musculoskeletal. Neuronal. Interact., 2000, Vol. 1, 54–58.
[30] VALKIVIC P., KRAFCZYK S., BÖTZEL K., Postural reactions to soleus muscle vibration in Parkinson's disease: scaling deteriorates as disease progresses, Neurosci. Lett., 2006, Vol. 401(1–2), 92–96.
[31] KUCZYŃSKI M., Visco-Elastic Control of Posture, Hum.Mov. Sci., 2001, Vol. 2(4), 33–38.
[32] SLIJPER H., LATASH M., The effects of muscle vibration on anticipatory postural adjustments, Brain Research, 2004, Vol. 1015, 57–72.
[33] COCHRANE D.J., Vibration exercise: the potential benefits, Int. J. Sports Med., 2011, Vol. 32, 75–99.
[34] SALAVATI M., MOGHADAM M., EBRAHIMI I., ARAB A., Changes in postural stability with fatigue of lower extremity frontal and sagittal plane movers, Gait Posture, 2007, Vol. 26, 214–218.
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