The Meningo-Orbital Band: Microsurgical Anatomy and Surgical Detachment of the Membranous Structures through a Frontotemporal Craniotomy with Removal of the Anterior Clinoid Process

Abstract Objective  To describe the microanatomy of the meningo-orbital band (MOB) and its associated membranes, and propose a stepwise method for their detachment while minimizing potential complications. Design  Cadaveric and prospective clinical. Setting  Microneurosurgery Skull Base Laboratory,...

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Bibliographic Details
Published in:Journal of neurological surgery. Part B, Skull base Skull base, 2014-04, Vol.75 (2), p.125-132
Main Authors: Fukuda, Hitoshi, Evins, Alexander I., Burrell, Justin C., Iwasaki, Koichi, Stieg, Philip E., Bernardo, Antonio
Format: Article
Language:English
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Summary:Abstract Objective  To describe the microanatomy of the meningo-orbital band (MOB) and its associated membranes, and propose a stepwise method for their detachment while minimizing potential complications. Design  Cadaveric and prospective clinical. Setting  Microneurosurgery Skull Base Laboratory, Weill Cornell Medical College (New York, NY) and Shiroyama Hospital (Osaka, Japan). Participants  Five preserved cadaveric heads (10 sides) and five patients requiring surgical detachment of the MOB in 2012. Results  MOB detachment and subsequent extradural anterior clinoidectomies were successfully performed on five clinical cases. Detachment of the MOB was accomplished using a four-step dissection based on the structure's detailed microanatomy and included (1) partial removal of the lateral wall of the superior orbital fissure, (2) incising of the lateral periosteal dura of the superior orbital fissure, (3) peeling off the dura propria of the temporal lobe from the inner cavernous membrane, and (4) fully detaching the exposed MOB from the periorbita. Conclusion  Understanding the complex microanatomy of these structures enabled a safe and effective stepwise detachment of the MOB. We recommend that surgeons possess sufficient anatomical knowledge before surgically manipulating this structure.
ISSN:2193-6331
2193-634X
DOI:10.1055/s-0033-1359302