Triangulating the ledge: radiographic study of the floor of orbit and derivation of a novel template

Triangulating the ledge: radiographic study of the floor of orbit and derivation of a novel template

In orbital floor reconstruction, the need for the orbital implant to reach the exact position of the posteromedial ledge is essential, but owing to the complex anatomy of the region, visualisation of the ledge may be difficult. Several morphometric studies, both radiographic and cadaveric, have calc...

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Bibliographic Details
Published in:British journal of oral & maxillofacial surgery Vol. 58; no. 9; pp. e104 - e108
Main Authors: Ganesh, N. Praveen, Maity, Pushan, Raja, D. Alagar, Rao, R.V.M. Surya, Narayanamurthy, S., Prasath, A.
Format: Journal Article
Language:English
Published: Scotland Elsevier Ltd 01-11-2020
Subjects:
Dental Implants
Dentistry
Female
Humans
Male
Maxilla
Ophthalmologic Surgical Procedures
Orbit - diagnostic imaging
Orbit - surgery
Orbit floor reconstruction
Orbital floor defect
Orbital Fractures - diagnostic imaging
Orbital Fractures - surgery
Orbital trauma
Sphenoid Bone
Orbit floor reconstruction
Orbital trauma
Orbital floor defect
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Summary:In orbital floor reconstruction, the need for the orbital implant to reach the exact position of the posteromedial ledge is essential, but owing to the complex anatomy of the region, visualisation of the ledge may be difficult. Several morphometric studies, both radiographic and cadaveric, have calculated a mean length from the orbital rim to the ledge. However, those linear measurements are unreliable and possess a higher margin of error for intraoperative guidance. This study attempts to triangulate the position of the posterior ledge from three easily accessible and reproducible points on the orbit and tries to provide a better guideline. A total of 50 patients (25 male and 25 female) with no history of orbital trauma or orbital surgery were selected randomly for this study. Computed tomography (CT) of both orbits, was done from three anatomically consistent and reproducible points: the infraorbital rim just above the infraorbital foramen (point A), hamulus lacrimalis (point B), and the most anterior point of the inferior orbital fissure (point C). The distance from these landmarks to the posterior ledge was measured using DICOM imaging software. A polygonal template was fabricated using the data obtained, which was used for intraoperative guidance. The mean (SD) distance to the posterior ledge from point A was 32.99 (1.35) mm, from point B was 31.36 (1.31) mm, and from point C was 20.19 (1.40) mm. There were no significant differences between left and right orbit or between male and female subjects. The template guides the shape, size, and direction of the orbital implant, reducing the risk of undersized or misplaced implants.
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ISSN:0266-4356
1532-1940
DOI:10.1016/j.bjoms.2020.07.016