http://orcid.org/0000-0002-7462-1358
References
- Alam MM, Khan AA, Farooq M. 2018. Effect of whole-body vibration on neuromuscular performance: a literature review. Work. 59:571–583.
- Alisauskiene M, Magistris MR, Vaiciene N, Truffert A. 2007. Electrophysiological evaluation of motor pathways to proximal lower limb muscles: a combined method and reference values. Clin Neurophysiol. 118:513–524.
- Bush JA, Blog GL, Kang J, Faigenbaum AD, Ratamess NA. 2015. Effects of quadriceps strength after static and dynamic whole-body vibration exercise. J Strength Cond Res. 29:1367–1377.
- Cakar HI, Cidem M, Sebik O, Yilmaz G, Karamehmetoglu SS, Kara S, Karacan I, Türker KS. 2015. Whole body vibration induced muscular reflex: is it a stretch induced reflex? J Phys Ther Sci. 27:2279–2284.
- Cidem M, Karacan I, Cakar HI, Cidem M, Sebik O, Yilmaz G, Turker KS, Karamehmetoglu SS. 2017. Vibration parameters affecting vibration-induced reflex muscle activity. Somatosens Mot Res. 34:47–51.
- Cidem M, Karacan I, Dıraçoğlu D, Yıldız A, Küçük SH, Uludağ M, Gün K, Özkaya M, Karamehmetoğlu ŞS. 2014. A randomized trial on the effect of bone tissue on vibration-induced muscle strength gain and vibration-induced reflex muscle activity. Balkan Med J. 31:11–22.
- Dionello CF, de Souza PL, Sá-Caputo D, Morel DS, Moreira-Marconi E, Paineiras-Domingos LL, Frederico E, Guedes-Aguiar E, Paiva PC, Taiar R, et al. 2017. Do whole body vibration exercises affect lower limbs neuromuscular activity in populations with a medical condition? A systematic review. Restor Neurol Neurosci. 35:667–681.
- Farthing JP, Zehr EP. 2014. Restoring symmetry: clinical applications of cross-education. Exerc Sport Sci Rev. 42:70–75.
- Frazer AK, Pearce AJ, Howatson G, Thomas K, Goodall S, Kidgell DJ. 2018. Determining the potential sites of neural adaptation to cross-education: implications for the cross-education of muscle strength. Eur J Appl Physiol. 118:1751–1772.
- Froese EA, Houston ME. 1985. Torque-velocity characteristics and muscle fiber type in human vastus lateralis. J Appl Physiol. 59:309–314.
- Goodwill AM, Kidgell DJ. 2012. The effects of whole-body vibration on the cross-transfer of strength. ScientificWorldJournal. 2012:504837.
- Hendy AM, Spittle M, Kidgell DJ. 2012. Cross education and immobilisation: mechanisms and implications for injury rehabilitation. J Sci Med Sport. 15:94–101.
- Hermens HJ, Freriks B, Disselhorst-Klug C, Rau G. 2000. Development of recommendations for SEMG sensors and sensor placement procedures. J Electromyogr Kinesiol. 10:361–374.
- Holcomb WR. 2000. Isokinetic eccentric muscle action. In: Brown LE, editor. Isokinetics in human performance. Champaign (IL): Human Kinetics; p. 229–239.
- Issurin VB, Liebermann DG, Tenenbaum G. 1994. Effect of vibratory stimulation training on maximal force and flexibility. J Sports Sci. 12:561–566.
- Karacan I, Cakar HI, Sebik O, Yilmaz G, Cidem M, Kara S, Türker KS. 2014. A new method to determine reflex latency induced by high rate stimulation of the nervous system. Front Hum Neurosci. 8:536.
- Karacan I, Cidem M, Cidem M, Türker KS. 2017. Whole-body vibration induces distinct reflex patterns in human soleus muscle. J Electromyogr Kinesiol. 34:93–101.
- Karacan I, Sarıyildiz MA, Ergin O, Ozen A, Karamehmetoglu SS. 2009. Bone myoregulation reflex: a possible mew mechanism. Nobel Med. 5:9–17.
- Lai CC, Tu YK, Wang TG, Huang YT, Chien KL. 2018. Effects of resistance training,endurance training and whole-body vibration on lean body mass, muscle strength and physical performance in older people: a systematic review and network meta-analysis. Age Ageing. 47:367–373.
- Lambert MI, Viljoen W, Bosch A, Pearce AJ, Sayers M. 2008. General principles of training. In: Schwellnus M, editor. The Olympic textbook of medicine in Sport. Oxford: Wiley-Blackwell Publishing; p. 1–48.
- Luo J, McNamara B, Moran K. 2005. The use of vibration training to enhance muscle strength and power. Sports Med. 35:23–41.
- Manca A, Dragone D, Dvir Z, Deriu F. 2017. Cross-education of muscular strength following unilateral resistance training: a meta-analysis. Eur J Appl Physiol. 117:2335–2354.
- Marín PJ, García-Gutiérrez MT, Da Silva-Grigoletto ME, Hazell TJ. 2015. The addition of synchronous whole-body vibration to battling rope exercise increases skeletal muscle activity. J Musculoskel Neuron Interact. 15:240–248.
- Marín PJ, Hazell TJ, García-Gutiérrez MT, Cochrane DJ. 2014. Acute unilateral leg vibration exercise improves contralateral neuromuscular performance. J Musculoskel Neuron Interact. 14:58–67.
- Pollock RD, Woledge RC, Martin FC, Newham DJ. 2012. Effects of whole body vibration on motor unit recruitment and threshold. J Appl Physiol. 112:388–395.
- Ritzmann R, Kramer A, Gollhofer A, Taube W. 2013. The effect of whole body vibration on the H-reflex, the stretch reflex, and the short-latency response during hopping. Scand J Med Sci Sports. 23:331–339.
- Rønnestad BR, Slettaløkken G, Ellefsen S. 2016. Adding whole body vibration to preconditioning exercise increases subsequent on-ice sprint performance in ice-hockey players. J Strength Cond Res. 30:1021–1026.
- Rubin DI, Dimberg EL, Kennelly KD. 2011. The effect of paired stimuli on blink reflex latencies in normal subjects. Muscle Nerve. 44:235–240.
- Ruddy KL, Carson RG. 2013. Neural pathways mediating cross education of motor function. Front Hum Neurosci. 29:397.
- Sariyildiz M, Karacan I, Rezvani A, Ergin O, Cidem M. 2011. Cross-education ofmuscle strength: cross-training effects are not confined to untrained contralateral homologous muscle. Scand J Med Sci Sports. 21:e359–e364.
- Sebik O, Karacan I, Cidem M, Türker KS. 2013. Rectification of SEMG as a tool to demonstrate synchronous motor unit activity during vibration. J Electromyogr Kinesiol. 23:275–284.
- Wrigley TV. 2000. Correlation with athletic performance. In: Brown LE, editor. Isokinetics in human performance. Champaign (IL): Human Kinetics; p. 42–74.