The Use of Vibrotactile Stimulation for Improving Manual Tasks in Parkinson's Disease Patients

Sandro Gentili; Maria Richetta; Stefano Mugnaini; S. Mancini; Enrico M. Staderini

doi:10.4028/www.scientific.net/MSF.879.2348

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HomeMaterials Science ForumMaterials Science Forum Vol. 879The Use of Vibrotactile Stimulation for Improving...

The Use of Vibrotactile Stimulation for Improving Manual Tasks in Parkinson's Disease Patients

Abstract:

In spite of the potentially harmful effects of vibrations on the human body, a new path was recently opened for the use of these mechanical means in the therapeutic field. The stimulation of proprioceptive and exteroceptive sensitivity is the main target in both peripheral (diabetes type 1 and type 2) and central (stroke, Parkinson's disease multiple sclerosis) nervous system disorders, particularly for the recovery and maintenance of functional state. By the way the response to the treatment is highly variable from subject to subject. Our experimental apparatus consists of a virtual reality system "LEAP Motion" which involves the patient in the execution of visuo-manual tasks in a virtual environment while receiving vibrotactile stimulation. We also used a modular 36 channels EEG system and a vibratory stimulation system able of delivering vibratory stimuli perpendicular and tangential to the body surface area.The study evaluation of motor performance and the ability to perform the tasks of visuomotor task assigned, in the presence and absence of vibratory stimulation and in real time, evoked potentials in the cortex.The vibration frequency extended from 5 to 200 Hz and with accelerations between 0.3G and 1,5G with displacement amplitude of about 0.5 mm applied on the affected limb hand. As the frequency, the amplitude and the direction of the vibration may vary we studied the relationship between the characteristics of the stimulus and the perception in the cerebral cortex, or other levels of the nervous system, studying potential models of elicitation of the somatosensory system. In this regard, our study took into account patients with Parkinson's disease and in particular evoked potentials N18 N20 N24 N30 particularly related to tactile stimulus, and indicative of the level of perception and processing in the brain of the Parkinson's patient.

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Materials Science Forum (Volume 879)

Pages:

2348-2351

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.879.2348

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Online since:

November 2016

Authors:

Sandro Gentili, Maria Richetta, Stefano Mugnaini, S. Mancini, Enrico M. Staderini

Keywords:

EEG, Evoked Potentials, Local Vibration, Occupational Medicine, Parkinson Disease, Virtual Reality

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References

[1] The origin, and application of somatosensory evoked potentials as a neurophysiological technique to investigate neuroplasticity, Steven R. Passmore, DC, PhD, 1, 2, 3, 4 Bernadette Murphy, DC, PhD, 4 and Timothy D. Lee, PhD1.

Google Scholar

[2] Personal vibrotactile stimulator for rehabilitation of the hand in stroke and Parkinson patients, Enrico M. Staderini, Stefano Mugnaini.

DOI: 10.1109/ismict.2011.5759820

Google Scholar

[3] The selective gating of the N30 cortical component of the somatosensory evoked potentials of median nerve is different in the mesial and dorsolateral frontal cortex: evidence from intracerebral recordings, Petr Kan ˇovsky ´*, Martin Bares ˇ, Ivan RektorFirst Department of Neurology, Masaryk University, St. Anne Hospital, Pekar ˇska ´ 53, 656 91 Brno, Czech RepublicAccepted 11 February (2003).

DOI: 10.1016/s1388-2457(03)00068-3

Google Scholar

[4] Development of a simultaneous vibration and pressure stimulation system for cognitive studies, Soon-Cheol Chung a, Mi-Hyun Choi a, Sung-Jun Park a, Jung-Chul Lee a, Ul-Ho Jeong a, Ji-Hye Baek a, Ji-Hye You a, Young Chil Choi b, Dae-Woon Lim c, Jeong-Han Yi a and Hyung-Sik Kima.

DOI: 10.1109/nano.2010.5697901

Google Scholar

[5] Short-term effects of vibration therapy on motor impairments in Parkinson's disease, King LK1, Almeida QJ, Ahonen H.

Google Scholar

[6] Differences in Cortical Coding of Heat Evoked Pain Beyond the Perceived Intensity: An fMRI and EEG Study, Jenny Haefeli, 1* Patrick Freund, 1, 2, 3 John L.K. Kramer, 1 Julia Blum, 1 Roger Luechinger, 4 and Armin Curt1.

DOI: 10.1002/hbm.22260

Google Scholar

[7] Tactile/proprioceptive integration during arm localization is intact in individuals with Parkinson's disease, Ely Rabin1, Lisa Muratori2, Konstantina Svokos1, and Andrew Gordon3 1Neuroscience Department, New York College of Osteopathic Medicine 2Physical Therapy Department, Stony Brook University 3Biobehavioral Studies Department, Teachers College.

Google Scholar

[8] Master thesis in Medical Engineering: Wireless Electroencephalography System for research use candidate: Isabella Miele tutors: Prof. Federica Caselli. University of Rome Tor Vergata Engineering Faculty; Prof. Enrico Maria Staderini Haute Ecole Specialisee´de Suisse occidental Engineering Faculty.

Google Scholar