ULTRASOUND ELASTOGRAPHY NEW MEANS OF ASSESSING RIGIDITY IN PARKINSON'S DISEASE

20th July 2016 

Ultrasound elastography is a means of assessing the mechanical properties of tissue, by applying stress and detecting tissue displacement using ultrasound. It provides information on tissue stiffness. 

Ultrasound shear wave elastography has been used to assess muscle stiffness in people with Parkinson's Disease. The assessments were made by assessing the biceps of people with Parkinson's Disease. 

Ultrasound shear wave elastography of the longitudinal biceps brachii was performed on 46 people with Parkinson's Disease and 31 healthy controls The mean Young's modulus was 59 kPa in remarkably symptomatic arms, 47 kPa in mildly symptomatic arms, and 24 kPa in healthy controls. A significant difference was found between healthy controls and all people with Parkinson's Disease.

The distinctiveness of the results enable Ultrasound shear wave elastography to be used as a quantitative assessment of muscle stiffness in people with Parkinson's Disease.

Reference : Clinical Imaging [2016] 40 (6) : 1075-1080 (L.J.Du, W.He, L.G. Cheng, S.Li, Y.S.Pan, J.Gao) Complete abstract : http://www.ncbi.nlm.nih.gov/pubmed/27408992

http://www.viartis.net/parkinsons.disease/news/160720.pdf mail@viartis.net
©2016 Viartis 

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Ultrasound (Shear wave elastography)

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Shear wave elastography

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Propagation mapping

Aplio's Smart Maps allow you to visualize and quantify shear wave propagation in a user-defined region of interest in realtime. The user can select both dynamic propagation speed and elasticity displays for visual assessment and quantification.

The principle behind shear wave elastography

Shear waves are generated inside the human body by means of an ultrasonic burst (left). Depending on tissue stiffness, shear waves travel at varying speed, but generally very slowly through the human body. Their propagation can be followed and visualized using conventional ultrasound imaging techniques (right). The propagation speed of the shear waves directly correlates with tissue stiffness

Video:

http://www.toshibamedicalsystems.com/products/us/aplio_shear.html