HOW THE CENTRAL CONTROL SYSTEM ADAPTS TO ACUTE WHOLE-BODY VIBRATION STIMULUS

Deniz Şimşek; İzzet Kırkaya; Abdullah Ruhi Soylu; Olgun Uğurlu; Ali Onur Cerrah; Hayri Ertan

HOW THE CENTRAL CONTROL SYSTEM ADAPTS TO ACUTE WHOLE-BODY VIBRATION STIMULUS

Yıl 2015, Cilt: 9 Sayı: 3, 277 - 283, 01.12.2015

Deniz Şimşek İzzet Kırkaya Abdullah Ruhi Soylu Olgun Uğurlu Ali Onur Cerrah Hayri Ertan

Öz

Araştırmanın amacı yüksek ve düşük frekanslı akut tüm vücut vibrasyon [TVV] uyaranlarının postural kontrol yetenekleri üzerine olan ektilerinin incelenmesidir. Anadolu Üniversitesi Spor Bilimleri Fakültesinde öğrenci olan 16 erkek çalışmaya gönüllü olarak katılmıştır. TBV uyarıları şu parametreler izlenerek uygulanmıştır: 1 frekans: 30 ve 40 Hz: 2 duruş: statik squat pozisyonu: 3 genlik: 4mm: 4 diz fleksiyon açısı: 120o : süresi: 60sn. Medio-lateral yer reaksiyon kuvvetİ MLYRK ve anterio-posterior yer reaksiyon kuvvetİ APYRK kuvvet platformu ile ölçüldü. 4mm genlikte düşük ve yüksek frekanslı TVV uyaranları farklı postural adaptasyonlarla sonuçlanmıştır p

Anahtar Kelimeler

Whole Body Vibration, Postural Orientation, Somatosensory

Kaynakça

1. Maurer C, Mergner T, Bolha B , Hlavacka , F. Vestibular, visual, and somatosensory contributions to human control of upright stance. Neurosci Lett, 2000, Mar 10;281(2-3):99-102.
2. Peterka RJ. Sensorimotor integration in human postural control. J Neurophysiol, 2002, Sep;88(3):1097-118
3. Horak FB, Macpherson JM. Postural orientation and equilibrium. Exercise: regulation and integration of multiple systems. In: Shepherd J, Rowell L, eds. Handbook of physiology. New York: Oxford University, 1996, pp 255-292.
4. Nashner LM. Practical Management of the Dizzy Patient. In: Computerized dynamic posturography. Lippincott Williams & Wilkins, 2001, pp 143-170.
5. Hayashi R, Miyake A, Watanabe S. The functional role of sensory inputs from the foot: stabilizing human standing posture during voluntary and vibrationinduced body sway. Neurosci Res, 1998, Feb;5(3):203-13.
6. Adamcová N, Hlavačka F: Human postural responses to leg muscle vibration altered by visual scene motion. Physiol Res, 2004, (Suppl. 1): S129- S134, 2006
7. Hassan BS, Mockett S, Doherty M: Static postural sway, proprioception, and maximal voluntary quadriceps contraction in patients with knee osteoarthritis and normal control subjects. Ann Rheum Dis, 2001, Jun; 60(6): 612–618.
8. Latash ML, Postural control. In: Neurophysiological Basis of Movement. Champaign: Human Kinetics, 1998, pp163-194.
9. Lephart SM, Freddie H. Proprioception and neuromuscular control in joint stability. Champaign: Human Kinetics, 2000, pp 23-28.
10. Klonoff PS, Costa LD, Snow WG. Predictors and indicators of quality of life in patients with closedhead injury. J Clin Exp Neuropsychol, 1986, Oct;8(5):469-85.
11. Kenney WL, Wilmore J, Costill L: Physiology of Sport and Exercise. Human Kinetics, Fifth Edition, 2011 pp 81-87.
12. Roll J.P, Vedel J.P, Ribot E: Alteration of proprioceptive messages induced by tendon vibration in man - a microneurographic study. Experimental Brain Research, 1989, 76(1):213-22
13. Prochazka A, Gillard D, and Bennett DJ: Implications of positive feedback in the control of movement. J Neurophysiol, 1997, Jun;77(6):3237- 51.
14. Rosenbaum, DA: Human motor control, San Diego, CA: Academic Press, 1991, ch. 4.
15. Visser JE, Bloem BR: Role of the basal ganglia in balance control. Neural Plast, 2005, Volume 12, Issue 2-3, Pages 161-174.
16. Wierzbicka MM, Gilhodes JC, Roll JP: Vibrationinduced postural Posteffects. J Neurophysiol, 1998, Jan;79(1):143-50
17. Kavounoudias A, Gilhodes J, Roll R, Roll JP. From balance regulation to body orientation: two goals for muscle proprioceptive information processing? Exp Brain Res, 1999, Jan;124(1):80-8.
18. Kavounoudıas A, Roll R, Roll J: Specific whole-body shifts induced by frequency-modulated vibrations of human plantar soles. Neurosci Lett, 1999, May 14;266(3):181-4.
19. Gilhodes JC, Roll JP, Tardy-Gervet MF: Perceptual and motor effects of agonist-antagonist muscle vibration in man. Exp Brain Res, 1986, 61(2):395- 402.
20. Burke D, Hagbarth KE, Löfstedt L, Wallin BG. The responses of human muscle spindle endings to vibration of non-contracting muscles. J Physiol, 1976, Oct;261(3):673-93.
21. Gilhodes JC, Gurfinkel VS, Roll JP: Role of Ia muscle spindle afferents in post-contraction and post -vibration motor effect genesis. Neurosci Lett,1992, Feb 3;135(2):247-51
22. Eklund G: General features of vibration-induced effects on balance. Ups J Med Sci, 1972, 77(2):112- 24

TÜM VÜCUT VİBRASYON UYARANLARINA MERKEZİ KONTROL SİSTEMİ NASIL ADAPTE OLUR

Yıl 2015, Cilt: 9 Sayı: 3, 277 - 283, 01.12.2015

Deniz Şimşek İzzet Kırkaya Abdullah Ruhi Soylu Olgun Uğurlu Ali Onur Cerrah Hayri Ertan

Öz

This study investigated the effects of high- and low-frequency acute whole-body vibration WBV on postural control ability. Sixteen male students from the Faculty of Sport Science voluntarily participated in this study. [Methods] WBV stimuli were applied using the following parameters: 1 frequency: 30 or 40 Hz; 2 stance: static squat position; 3 amplitude: 4 mm; 4 knee flexion angle: 120°; and duration: 60 s. The medio-lateral ground reaction force MLGRF and anterio-posterior ground reaction force APGRF were measured on a force platform. The results showed that static WBV stimulation at 4 mm in amplitude at low and high frequencies resulted in different postural adaptations p

Anahtar Kelimeler

Tüm Beden Vibrasyon, Postural Oryantasyon, Somatosensör

Kaynakça

1. Maurer C, Mergner T, Bolha B , Hlavacka , F. Vestibular, visual, and somatosensory contributions to human control of upright stance. Neurosci Lett, 2000, Mar 10;281(2-3):99-102.
2. Peterka RJ. Sensorimotor integration in human postural control. J Neurophysiol, 2002, Sep;88(3):1097-118
3. Horak FB, Macpherson JM. Postural orientation and equilibrium. Exercise: regulation and integration of multiple systems. In: Shepherd J, Rowell L, eds. Handbook of physiology. New York: Oxford University, 1996, pp 255-292.
4. Nashner LM. Practical Management of the Dizzy Patient. In: Computerized dynamic posturography. Lippincott Williams & Wilkins, 2001, pp 143-170.
5. Hayashi R, Miyake A, Watanabe S. The functional role of sensory inputs from the foot: stabilizing human standing posture during voluntary and vibrationinduced body sway. Neurosci Res, 1998, Feb;5(3):203-13.
6. Adamcová N, Hlavačka F: Human postural responses to leg muscle vibration altered by visual scene motion. Physiol Res, 2004, (Suppl. 1): S129- S134, 2006
7. Hassan BS, Mockett S, Doherty M: Static postural sway, proprioception, and maximal voluntary quadriceps contraction in patients with knee osteoarthritis and normal control subjects. Ann Rheum Dis, 2001, Jun; 60(6): 612–618.
8. Latash ML, Postural control. In: Neurophysiological Basis of Movement. Champaign: Human Kinetics, 1998, pp163-194.
9. Lephart SM, Freddie H. Proprioception and neuromuscular control in joint stability. Champaign: Human Kinetics, 2000, pp 23-28.
10. Klonoff PS, Costa LD, Snow WG. Predictors and indicators of quality of life in patients with closedhead injury. J Clin Exp Neuropsychol, 1986, Oct;8(5):469-85.
11. Kenney WL, Wilmore J, Costill L: Physiology of Sport and Exercise. Human Kinetics, Fifth Edition, 2011 pp 81-87.
12. Roll J.P, Vedel J.P, Ribot E: Alteration of proprioceptive messages induced by tendon vibration in man - a microneurographic study. Experimental Brain Research, 1989, 76(1):213-22
13. Prochazka A, Gillard D, and Bennett DJ: Implications of positive feedback in the control of movement. J Neurophysiol, 1997, Jun;77(6):3237- 51.
14. Rosenbaum, DA: Human motor control, San Diego, CA: Academic Press, 1991, ch. 4.
15. Visser JE, Bloem BR: Role of the basal ganglia in balance control. Neural Plast, 2005, Volume 12, Issue 2-3, Pages 161-174.
16. Wierzbicka MM, Gilhodes JC, Roll JP: Vibrationinduced postural Posteffects. J Neurophysiol, 1998, Jan;79(1):143-50
17. Kavounoudias A, Gilhodes J, Roll R, Roll JP. From balance regulation to body orientation: two goals for muscle proprioceptive information processing? Exp Brain Res, 1999, Jan;124(1):80-8.
18. Kavounoudıas A, Roll R, Roll J: Specific whole-body shifts induced by frequency-modulated vibrations of human plantar soles. Neurosci Lett, 1999, May 14;266(3):181-4.
19. Gilhodes JC, Roll JP, Tardy-Gervet MF: Perceptual and motor effects of agonist-antagonist muscle vibration in man. Exp Brain Res, 1986, 61(2):395- 402.
20. Burke D, Hagbarth KE, Löfstedt L, Wallin BG. The responses of human muscle spindle endings to vibration of non-contracting muscles. J Physiol, 1976, Oct;261(3):673-93.
21. Gilhodes JC, Gurfinkel VS, Roll JP: Role of Ia muscle spindle afferents in post-contraction and post -vibration motor effect genesis. Neurosci Lett,1992, Feb 3;135(2):247-51
22. Eklund G: General features of vibration-induced effects on balance. Ups J Med Sci, 1972, 77(2):112- 24

Toplam 22 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Bölüm	Research Article
Yazarlar	Deniz Şimşek Bu kişi benim İzzet Kırkaya Bu kişi benim Abdullah Ruhi Soylu Bu kişi benim Olgun Uğurlu Bu kişi benim Ali Onur Cerrah Bu kişi benim Hayri Ertan Bu kişi benim
Yayımlanma Tarihi	1 Aralık 2015
Yayımlandığı Sayı	Yıl 2015 Cilt: 9 Sayı: 3

Kaynak Göster

APA	Şimşek, D., Kırkaya, İ., Soylu, A. R., Uğurlu, O., vd. (2015). HOW THE CENTRAL CONTROL SYSTEM ADAPTS TO ACUTE WHOLE-BODY VIBRATION STIMULUS. Beden Eğitimi Ve Spor Bilimleri Dergisi, 9(3), 277-283.