A 3-DOF MR-compatible device for magic angle related in vivo experiments

Article

Tse, Z., Elhawary, H., Zivanovic, A., Rea, M., Paley, M., Bydder, G., Davies, B., Young, I. and Lamperth, M. 2008. A 3-DOF MR-compatible device for magic angle related in vivo experiments. IEEE/ASME transactions on mechatronics. 13 (3), pp. 316-324. https://doi.org/10.1109/TMECH.2008.924109
TypeArticle
TitleA 3-DOF MR-compatible device for magic angle related in vivo experiments
AuthorsTse, Z., Elhawary, H., Zivanovic, A., Rea, M., Paley, M., Bydder, G., Davies, B., Young, I. and Lamperth, M.
Abstract

The "magic angle" effect consists of the increase in signal intensity observed at a tendon or cartilage in a magnetic resonance image, when the tissue is oriented at an angle of approximately 55deg with respect to the main magnetic field B0. The exploitation of this phenomenon is often used to assist diagnosis of tendinous and other diseases, although practical difficulties derived from positioning target tissue at the desired orientation inside closed-bore scanners has made this exploitation hard to implement. A 3-DOF MR-compatible mechatronic system has been developed to position a variety of limbs at the magic angle inside a closed- bore scanner, actuated by a custom-developed pneumatic air motor. The system is capable of locating the desired anatomy with high accuracy, and is designed to position the target tissue at a minimal distance from the isocenter. The compatibility of the system is demonstrated, producing negligible artifacts and an insignificant reduction in signal to noise of the image. Preliminary clinical trials scanning the Achilles tendon of healthy volunteers prove the functionality of the device. An increase in signal intensity of up to 21-fold has been recorded in the tendon at the magic angle.

PublisherIEEE
JournalIEEE/ASME transactions on mechatronics
ISSN1083-4435
Publication dates
Print2008
Publication process dates
Deposited11 Jul 2011
Output statusPublished
Digital Object Identifier (DOI)https://doi.org/10.1109/TMECH.2008.924109
LanguageEnglish
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