Abstract
The evaluation of proptosis is essential for the diagnosis of orbital disease. We have developed a computed tomography (CT)-based three-dimensional (3D) reconstruction software to measure the degree of proptosis. To verify clinical usefulness and reliability, the degree of proptosis was measured in 126 patients with Graves’ orbitopathy (GO) with 3D reconstruction software and compared with those obtained with Hertel exophthalmometer and CT. The proptosis values measured by 3D reconstruction software, CT, and Hertel exophthalmometer were closely related to each other, but showed significant differences (p < 0.001). In contrast, the amount of change in proptosis after orbital decompression were not different among the three measurements (p = 0.153). The intra-observer correlation coefficients of the 3D reconstruction software, CT, and Hertel exophthalmometer measurements were 0.997, 0.942, and 0.953, respectively. In patients with strabismus, the intra-observer correlation coefficient of CT and Hertel exophthalmometer decreased to 0.895 and 0.920, respectively, but the intra-observer correlation coefficient of the 3D reconstruction software did not change to 0.996. The inter-observer correlation coefficients of CT and 3D reconstruction software for three different ophthalmologists were 0.742 and 0.846, respectively. In conclusion, the measurement of proptosis by 3D reconstruction software seems to be a reliable method, especially in the presence of eyeball deviation.
Highlights
Measurement of ocular proptosis is essential for the diagnosis of orbital diseases such as Graves’ orbitopathy (GO), orbital tumor, and orbital fracture
The values of proptosis measured for non-strabismus and strabismus patients showed significant differences between the three measurements (p < 0.001, 0.008) (Fig. 1)
We aimed to determine whether proptosis measurements using 3D reconstruction software are more reliable and useful compared to proptosis measurements using the Hertel exophthalmometer and computed tomography (CT)
Summary
Measurement of ocular proptosis is essential for the diagnosis of orbital diseases such as Graves’ orbitopathy (GO), orbital tumor, and orbital fracture. The differences in readings may result from misplacement of the foot plates, strabismus, asymmetry of the lateral orbital rims, compression of soft tissues, parallax errors, or the lack of a uniform measurement technique[8,9]. To compensate for these limitations, computed tomography (CT) has been used to measure proptosis and is reported to produce more accurate d ata[10,11,12,13,14]; proptosis measurement using CT is associated with some limitations. The purpose of this study was to introduce a novel proptosis measurement method and to evaluate reliability in the measurement of exophthalmos using 3D reconstruction software
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