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Dive into the research topics where Eric Storne is active.

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Featured researches published by Eric Storne.


Surgical Endoscopy and Other Interventional Techniques | 2010

Use of a flexible robotic transgastric natural orifice translumenal endoscopic surgery (NOTES) platform in a cadaver to test access, navigation, maneuverability, and stability.

Dan Eisenberg; Eric Storne; Amir Belson

BackgroundThe advancement of natural orifice translumenal endoscopic surgery (NOTES) depends on the availability of a suitable platform. A 2008 Natural Orifice Surgery Consortium for Assessment and Research (NOSCAR) Working Group identified access, navigation, maneuverability, and stability to withstand instrument forces as the essential requirements for a successful NOTES platform [1]. No single NOTES platform can adequately achieve all four of these key capabilities. In this study, the authors tested a novel flexible endoscopic robotic platform in a cadaver to determine how it performs with respect to these specific requirements.MethodsA highly maneuverable multichannel flexible robotic endoscopic platform developed for NOTES was used transgastrically in an adult cadaver to test the platform’s ability to reach multiple intraabdominal targets. The device was under the control of the surgeon throughout the test. The surgeon was blinded to a control laparoscopic view. At each target organ, the platform was maneuvered via a joystick to provide different camera views and tool access orientation appropriate for the surgical tasks of each procedure. Standard endoscopic tools were used in the platform’s two working channels to demonstrate the platform’s ability to withstand the forces generated during tissue manipulation and clipping.ResultsThe platform reached each target organ site without difficulty, relying on the endoscopic view only. The platform’s unique ability to maintain stability in two- and three-dimensional space resisted forces exerted by tools in the tool channels used for tissue manipulation and clipping. Endoscopic visualization allowed the surgeon to reposition the platform easily to gain a different camera view or tool access orientation about an organ (see video in Supplementary material).ConclusionThe authors demonstrated that the four capabilities identified by NOSCAR can be provided by the flexible robotic endoscopic platform. These essential capabilities for the clinical implementation of NOTES were addressed specifically by this platform. The provision of these capabilities in a single device may further the advancement and adoption of NOTES.


Archive | 2011

Biopsy incision closure device

Amir Belson; Eric Storne; Brian Beckey


Archive | 2012

Surgical incision and closure apparatus with integrated force distribution

Amir Belson; Eric Storne; Eric T. Johnson; Robert Ryan Ragland; Phillip C. Burke; Luke Clauson


Archive | 2016

Surgical incision and closure apparatus

Amir Belson; Eric Storne; Alan Schaer; Pankaj Rathi; Keiichiro Ichiryu; Peter D'Aquanni; Luke W. Clauson


Archive | 2009

Method and system for steerable medical device path definition and following during insertion and retraction

Caitlin Q. Donhowe; Amir Belson; Kristoffer Donhowe; Kenneth Krieg; Eric Storne; Thomas J. Yorkey; Jun Zhang


Archive | 2016

INSTRUMENTED WOUND CLOSURE DEVICE

Amir Belson; Edward C. Driscoll; Eric Storne; Alan Schaer


Archive | 2011

Methods for biopsying tissue

Amir Belson; Eric Storne; Brian Beckey


Archive | 2016

MEANS TO PREVENT WOUND DRESSINGS FROM ADHERING TO CLOSURE DEVICE

Amir Belson; Eric Storne; Jeremy Edinger; Zachary Kimura; Alan Schaer; Keiichiro Ichiryu


Archive | 2012

Chirurgische inzisions- und verschlussvorrichtung mit integrierter kraftverteilung

Amir Belson; Eric Storne; Eric T. Johnson; Robert Ryan Ragland; Phillip C. Burke; Luke Clauson


Archive | 2011

Verschlussvorrichtung für biopsie-inzisionen

Amir Belson; Eric Storne; Brian Becky

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