Shinjiro Kono1, Aric Vaidya1,2, Hidetaka Miyazaki1, Hirohiko Kakizaki1, Yasuhiro Takahashi3. 1. Department of Oculoplastic, Orbital and Lacrimal Surgery, Aichi Medical University Hospital, 1-1 Yazako-Karimata, Nagakute, Aichi, 480-1195, Japan. 2. Department of Oculoplastic, Orbital and Lacrimal Surgery, Rapti Eye Hospital, Dang, Nepal. 3. Department of Oculoplastic, Orbital and Lacrimal Surgery, Aichi Medical University Hospital, 1-1 Yazako-Karimata, Nagakute, Aichi, 480-1195, Japan. yasuhiro_tak@yahoo.co.jp.
Abstract
PURPOSE: To examine the anatomy of the inferior oblique (IO) muscle and its surrounding structures to clarify why IO muscle entrapment develops less in orbital floor trapdoor fractures. METHODS: Computed tomographic (CT) images on the unaffected sides were obtained from 64 patients with unilateral orbital fractures. On coronal planes, presence or absence of an infraorbital groove below the IO muscle was confirmed. At the level of the medial margin of the infraorbital groove/canal, the distance from the orbital floor to the IO muscle (IO-floor distance), the thickness of the orbital floor, and the shortest distance from the inferior rectus (IR) muscle to the orbital floor (shortest IR-floor distance) were measured. On quasi-sagittal planes, the distances from the inferior orbital rim to the inferior margin of the IO muscle (IO-rim distance) and the most anterior point of the infraorbital groove (groove-rim distance) were measured. RESULTS: The infraorbital groove was found below the IO muscle in eight patients (12.5%), and the IO-rim and IO-floor distances were significantly longer than the groove-rim and shortest IR-floor distances, respectively (p < 0.001). The orbital floor below the IO muscle was significantly thicker than that below the IR muscle (p < 0.001). CONCLUSION: Although the medial margin of the infraorbital groove is the most common fracture site, the IO muscle was not located above the groove in most cases. A longer IO-floor distance and thicker orbital floor below the IO muscle may also contribute to less occurrence of IO muscle entrapment in orbital floor trapdoor fractures.
PURPOSE: To examine the anatomy of the inferior oblique (IO) muscle and its surrounding structures to clarify why IO muscle entrapment develops less in orbital floor trapdoor fractures. METHODS: Computed tomographic (CT) images on the unaffected sides were obtained from 64 patients with unilateral orbital fractures. On coronal planes, presence or absence of an infraorbital groove below the IO muscle was confirmed. At the level of the medial margin of the infraorbital groove/canal, the distance from the orbital floor to the IO muscle (IO-floor distance), the thickness of the orbital floor, and the shortest distance from the inferior rectus (IR) muscle to the orbital floor (shortest IR-floor distance) were measured. On quasi-sagittal planes, the distances from the inferior orbital rim to the inferior margin of the IO muscle (IO-rim distance) and the most anterior point of the infraorbital groove (groove-rim distance) were measured. RESULTS: The infraorbital groove was found below the IO muscle in eight patients (12.5%), and the IO-rim and IO-floor distances were significantly longer than the groove-rim and shortest IR-floor distances, respectively (p < 0.001). The orbital floor below the IO muscle was significantly thicker than that below the IR muscle (p < 0.001). CONCLUSION: Although the medial margin of the infraorbital groove is the most common fracture site, the IO muscle was not located above the groove in most cases. A longer IO-floor distance and thicker orbital floor below the IO muscle may also contribute to less occurrence of IO muscle entrapment in orbital floor trapdoor fractures.
Authors: Joel M Miller; Joseph L Demer; Vadims Poukens; Dmitri S Pavlovski; Hien N Nguyen; Ethan A Rossi Journal: J Vis Date: 2003 Impact factor: 2.240
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Authors: Julia Schröder; Vitalia Schüller; Andrea May; Christian Gerges; Mario Anders; Jessica Becker; Timo Hess; Nicole Kreuser; René Thieme; Kerstin U Ludwig; Tania Noder; Marino Venerito; Lothar Veits; Thomas Schmidt; Claudia Fuchs; Jakob R Izbicki; Arnulf H Hölscher; Dani Dakkak; Boris Jansen-Winkeln; Yusef Moulla; Orestis Lyros; Stefan Niebisch; Matthias Mehdorn; Hauke Lang; Dietmar Lorenz; Brigitte Schumacher; Rupert Mayershofer; Yogesh Vashist; Katja Ott; Michael Vieth; Josef Weismüller; Elisabeth Mangold; Markus M Nöthen; Susanne Moebus; Michael Knapp; Horst Neuhaus; Thomas Rösch; Christian Ell; Ines Gockel; Johannes Schumacher; Anne C Böhmer Journal: PLoS One Date: 2019-12-31 Impact factor: 3.240