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Near-real time oculodynamic MRI: a feasibility study for evaluation of diplopia in comparison with clinical testing

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Citation

Berg, I., Palmowski-Wolfe, A., Schwenzer-Zimmerer, K., Kober, C., Radue, R.-W., Zeilhofer, H.-F., et al. (2012). Near-real time oculodynamic MRI: a feasibility study for evaluation of diplopia in comparison with clinical testing. European Radiology, 22(2), 358-363. doi:10.1007/s00330-011-2232-1.


Cite as: https://hdl.handle.net/11858/00-001M-0000-0013-B82A-A
Abstract
Objective To demonstrate feasibility of near-real-time oculodynamic magnetic resonance imaging (od-MRI) in depicting extraocular muscles and correlate quantitatively the motion degree in comparison with clinical testing in patients with diplopia. Methods In 30 od-MRIs eye movements were tracked in the horizontal and sagittal plane using a a TrueFISP sequence with high temporal resolution. Three physicians graded the visibility of extraocular muscles by a qualitative scale. In 12 cases, the maximal monocular excursions in the horizontal and vertical direction of both eyes were measured in od-MRIs and a clinical test and correlated by the Pearson test. Results The medial and lateral rectus muscles were visible in the axial plane in 93 of the cases. The oblique, superior and inferior rectus muscles were overall only in 14 visible. Horizontal (p = 0,015) and vertical (p = 0,029) movements of the right eye and vertical movement of the left eye (p = 0,026) measured by od-MRI correlated positively to the clinical measurements. Conclusions Od-MRI is a feasible technique. Visualization of the horizontal/vertical rectus muscles is better than for the superior/inferior oblique muscle. Od-MRI correlates well with clinical testing and may reproduce the extent of eye bulb motility and extraocular muscle structural or functional deteriorations. Key Points • Oculodynamic MRI technique helps clinicians to assess eye bulb motility disorders • MRI evaluation of eye movement provides functional information in cases of diplopia • Oculodynamic MRI reproduces excursion of extraocular muscles with good correlation with clinical testing • Dynamic MRI sequence supplements static orbital protocol for evaluation of motility disorders