Eyeball muscles' diameters versus volume estimated by numerical image segmentation

To determine the clinical usefulness of the numerical segmentation image technique (NSI) in estimating the volume of extraocular muscles and to compare this value to widely used measurements of single diameters of the muscles. Forty-five patients underwent magnetic resonance examinations in 1.5-T sc...

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Bibliographic Details
Published in:European journal of ophthalmology 2007-05, Vol.17 (3), p.287-293
Main Authors: Majos, A, Grzelak, P, Młynarczyk, W, Stefańczyk, L
Format: Article
Language:English
Subjects:
Adult
Aged
Diagnostic Imaging
Exophthalmos - pathology
Female
Graves Disease - pathology
Humans
Image Processing, Computer-Assisted
Magnetic Resonance Imaging - methods
Male
Middle Aged
Oculomotor Muscles - pathology
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Summary:To determine the clinical usefulness of the numerical segmentation image technique (NSI) in estimating the volume of extraocular muscles and to compare this value to widely used measurements of single diameters of the muscles. Forty-five patients underwent magnetic resonance examinations in 1.5-T scanner. SE T1 sequences in transversal and coronal planes were provided and data were sent to a personal computer, where the degree of exophthalmos, horizontal diameter of medial rectus muscles, and vertical diameter of inferior rectus muscles were determined on the basis of two-dimensional images. The quantity estimation of all eye muscles volumes using NSI application in three-dimensional space was carried out with use of level set segmentation algorithm. A strong correlation between the total eye muscle volume and degree of exophthalmos was determined. The usefulness of measuring single diameters for estimating the muscles' enlargement was confirmed. The difference between a single muscle's volume and its width also was confirmed. Estimates of muscle volume correlate with the degree of exophthalmos more accurately than measurements of single diameters. The NSI technique is a clinically useful application, providing objective data calculated individually for each orbit. It allows an objective estimation of the pathologic processes leading to exophthalmos and may be especially helpful in monitoring discrete changes in the muscles volume during treatment.
ISSN:1120-6721
1724-6016
DOI:10.1177/112067210701700302