Three-Dimensional Multidetector CT for Anatomic Evaluation of Orbital Tumors.

J Matthew Debnam,Jeffrey S Weinberg,Rory R Mayer,Franco Demonte,Nandita Guha-Thakurta,Bita Esmaeli

doi:10.1155/2013/674230

J Matthew Debnam, Jeffrey S Weinberg + Show 4 more

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https://doi.org/10.1155/2013/674230

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Abstract

Intricate resection and complex reconstructive procedures often required for primary and metastatic orbital tumors are facilitated by accurate imaging. A three-dimensional (3D) image can be reconstructed from source axial multidetector computed tomography (MDCT) images to visualize orbital tumors. To assess the utility of 3D images in this setting, the 3D images were reconstructed retrospectively for 20 patients with an orbital tumor and compared to two-dimensional (2D) orthogonal MDCT studies. Both types of images were assessed for their capacity to show the bony orbital walls and foramina, extraocular muscles, and optic nerve in the orbit contralateral to the tumor and, in the affected orbit, the extent of the tumor and its relationship to normal orbital contents and associated bone destruction. 3D imaging is most informative when axial images are acquired at 1.25 mm collimation. The optic nerve, extraocular muscles, and well-circumscribed orbital tumors were well visualized on 3D images. On 3D imaging, tumor-associated destruction of the lateral and superior orbital walls was fairly well demonstrated and that of the inferior and medial walls was not. The 3D images provide the surgeon with a comprehensive view of well-circumscribed orbital tumors and its relationship to extraocular muscles, exiting foramina, and the superior and lateral walls.

Highlights

Surgical intervention for primary and metastatic tumors of the orbit and its vicinity, including the periorbital soft tissue and sinonasal cavity, requires intricate resection and complex reconstructive procedures [1,2,3,4,5,6,7,8]
Advanced imaging techniques related to multidetector computed tomography (MDCT) allow generation of three-dimensional (3D) data sets [10,11,12]
Our findings suggest that 3D images of the orbit generated from 2D MDCT allowed visualization of orbital contents and orbital tumors comparable to 2D orthogonal images when acquired at 1.25 mm collimation following the administration of intravenous contrast

Summary

Introduction

Surgical intervention for primary and metastatic tumors of the orbit and its vicinity, including the periorbital soft tissue and sinonasal cavity, requires intricate resection and complex reconstructive procedures [1,2,3,4,5,6,7,8]. Routine preoperative radiographic evaluation for orbital tumors typically involves magnetic resonance imaging (MRI) and computed tomography (CT). Several authors have concluded that highquality preoperative imaging studies are essential in preoperative planning [5,6,7, 9]. Advanced imaging techniques related to multidetector computed tomography (MDCT) allow generation of three-dimensional (3D) data sets [10,11,12]. Prior studies have demonstrated the usefulness of 3D MDCT imaging for evaluation of facial fractures [13], detection of intraocular and orbital foreign bodies [14], and assessment of facial asymmetry [15]. Others have described the technique in preparation for craniofacial surgery for facial deformities [16, 17], facial fractures [18], and nasal anomalies [19]

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