Initial Experience Using a High-Definition 3-Dimensional Exoscope System for Microneurosurgery

Abstract BACKGROUND The operative microscope and endoscope have significantly advanced modern neurosurgery. These devices are nonetheless limited by high costs and suboptimal optics, ergonomics, and maneuverability. A recently developed extracorporeal telescope (“exoscope”) operative system combines...

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Bibliographic Details
Published in:	Operative neurosurgery (Hagerstown, Md.) Vol. 14; no. 4; pp. 395 - 401
Main Authors:	Sack, Jayson, Steinberg, Jeffrey A, Rennert, Robert C, Hatefi, Dustin, Pannell, Jeffrey S, Levy, Michael, Khalessi, Alexander A
Format:	Journal Article
Language:	English
Published:	United States Oxford University Press 01-04-2018 Wolters Kluwer Health, Inc
Subjects:	Neurosurgery Exoscope Operating microscope Stereopsis Microneurosurgery
Online Access:	Get full text
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Summary:	Abstract BACKGROUND The operative microscope and endoscope have significantly advanced modern neurosurgery. These devices are nonetheless limited by high costs and suboptimal optics, ergonomics, and maneuverability. A recently developed extracorporeal telescope (“exoscope”) operative system combines characteristics from both the operative microscope and endoscope and provides an affordable, portable, high-definition operative experience. Widespread use of exoscopes in neurosurgery has previously been limited by a lack of stereopsis with 2-dimensional(2-D) monitors. OBJECTIVE To assess the surgical potential of a novel, 3-D, high-definition (4K-HD) exoscope system. METHODS Assess dissection time and visualization of critical structures in a series of human cadaveric cranial neurosurgical approaches with the 3-D 4K-HD exoscope as compared to a standard operating microscope. RESULTS Dissection times and visualization of critical structures was comparable with the 3-D 4K-HD exoscope and a standard operating microscope. The low-profile exoscope nonetheless allowed for larger operative corridors, enhanced instrument maneuverability, and less obstruction in passing instrumentation. The large monitor also resulted in an immersive surgical experience, and gave multiple team members the same high-quality view as the primary operator. Finally, the exoscope possessed a more ergonomically favorable setup as compared to the traditional microscope, allowing the surgeon to be in a neutral position despite the operative angle. CONCLUSION The novel 3-D 4K-HD exoscope system possesses favorable optics, ergonomics, and maneuverability as compared to the traditional operating microscope, with the exoscope's shared surgical view possessing obvious educational and workflow advantages. Further clinical trials are justified to validate this initial cadaveric experience.
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
ISSN:	2332-4252 2332-4260
DOI:	10.1093/ons/opx145