The Effect of Triceps Brachii Vibration on Proprioception, during Motor Performance of Elbow Joint - a Normative Study
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The purpose of the study was to find the effect of triceps brachii vibration on proprioception, during motor performance of elbow joint. 150 healthy young participants within the age group of 18 - 26 years were selected. To confirm that the method of vibration alters proprioceptive sensation, testing the limb position matching during both passive and active movements, without and with vibration was carried out. Vibration was applied directly over the triceps brachii tendon and visual feedback was restricted for all participants. Ranges of motion for both elbow joints were documented. The data obtained was analyzed statistically and results were displayed graphically.
During the vibration trials, a significant difference was found in the scores obtained by the matching limb, in the passive driven condition and active matching condition. This finding confirms that a vibratory stimulus applied to the triceps brachii, during elbow flexion, induced a illusory response resulting in a movement perceived in the direction of elbow flexion.
Thus it can be concluded that, vibration given to a muscle tendon effectively produces kinaesthetic illusion of a movement.
Keywords
- Eric D Vidoni and Lara A Boyd. Motor sequence learning occurs despite disrupted visual and proprioceptive feedback. Behavioral and Brain Functions 2008. 4:32 doi:10.1186/1744-9081-4-32
- J. P. Roll, J. P. Vedel and E. Ribot. Alteration of proprioceptive messages induced by tendon vibration in man: a microneurographic study. Experimental brain research 1989; 76: 213-222.
- Roll JP, Vedel JP. Kinaesthetic role of muscle afferents in man, studied by tendon vibration and microneurography. Exp Brain Res. 1982; 47(2) :177 – 90.
- J. C. Gilhodes, J. P. Roll, and M. F. Tardy-Gervet. Perceptual and motor effects of agonist-antagonist vibration in man. Experimental brain research 1986; 61: 395- 402
- Katja Pipereit, Otmar Bock, Jean- Louis Vercher. The contribution of proprioceptive feedback to sensorimotor adaptation. Experimental brain research 2006;174: 45- 52.
- Roll JP, Vedel JP. Kinesthetic role of muscle afferents in man, studied by tendon vibration and microneurography. Experimental brain research 2006;174: 45- 52.
- C. Capaday and J. D. Cooke. Vibration induced Changes in Movement- related EMG Activity in humans. Experimental brain research 1983; 52: 139- 146.
- Daniel J. Goble and Susan H. Brown. Upper Limb Asymmetries in the Matching of Proprioceptive Versus Visual Targets. J Neurophysiol 2008; 99: 3063–3074.
- Daniel J. Goble, Susan H. Brown . The biological and behavioural basis of upper limb asymmetries in sensorimotor performance. Neuroscience and Biobehavioral Reviews 32 (2008) 598–610.
- Diane E. Adamo, Bernard J. Martin .Position sense asymmetry. Exp Brain Res 2009; 192:87–95.
- Sarah Calvin- Figuiere . Patricia Romaiguere Jean-Claude Gilhodes . Jean- Pierre Roll. Antagonist motor responses correlate with kinesthetic illusions induced by tendon Vibration. Experimental brain research 1999; 124:342- 350.
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