Literature DB >> 29607442

Admittance Control for Robot Assisted Retinal Vein Micro-Cannulation under Human-Robot Collaborative Mode.

He Zhang1,2, Berk Gonenc2, Iulian Iordachita2.   

Abstract

Retinal vein occlusion is one of the most common retinovascular diseases. Retinal vein cannulation is a potentially effective treatment method for this condition that currently lies, however, at the limits of human capabilities. In this work, the aim is to use robotic systems and advanced instrumentation to alleviate these challenges, and assist the procedure via a human-robot collaborative mode based on our earlier work on the Steady-Hand Eye Robot and force-sensing instruments. An admittance control method is employed to stabilize the cannula relative to the vein and maintain it inside the lumen during the injection process. A pre-stress strategy is used to prevent the tip of microneedle from getting out of vein in in prolonged infusions, and the performance is verified through simulations.

Entities:  

Keywords:  admittance control; human-robot collaboration; performance constraint; retinal vein cannulation

Year:  2017        PMID: 29607442      PMCID: PMC5875924          DOI: 10.23919/ICCAS.2017.8204346

Source DB:  PubMed          Journal:  ICCAS


  8 in total

1.  Quantitative assessment of manual and robotic microcannulation for eye surgery using new eye model.

Authors:  Shinichi Tanaka; Kanako Harada; Yoshiki Ida; Kyohei Tomita; Ippei Kato; Fumihito Arai; Takashi Ueta; Yasuo Noda; Naohiko Sugita; Mamoru Mitsuishi
Journal:  Int J Med Robot       Date:  2014-04-16       Impact factor: 2.547

2.  Force-Sensing Microneedle for Assisted Retinal Vein Cannulation*

Authors:  Berk Gonenc; Peter Gehlbach; James Handa; Russell H Taylor; Iulian Iordachita
Journal:  Proc IEEE Sens       Date:  2014-11

3.  Injection of tissue plasminogen activator into a branch retinal vein in eyes with central retinal vein occlusion.

Authors:  J N Weiss; L A Bynoe
Journal:  Ophthalmology       Date:  2001-12       Impact factor: 12.079

4.  The prevalence of retinal vein occlusion: pooled data from population studies from the United States, Europe, Asia, and Australia.

Authors:  Sophie Rogers; Rachel L McIntosh; Ning Cheung; Lyndell Lim; Jie Jin Wang; Paul Mitchell; Jonathan W Kowalski; Hiep Nguyen; Tien Y Wong
Journal:  Ophthalmology       Date:  2010-02       Impact factor: 12.079

5.  New Steady-Hand Eye Robot with Micro-Force Sensing for Vitreoretinal Surgery.

Authors:  Ali Uneri; Marcin A Balicki; James Handa; Peter Gehlbach; Russell H Taylor; Iulian Iordachita
Journal:  Proc IEEE RAS EMBS Int Conf Biomed Robot Biomechatron       Date:  2010-09-01

6.  Force-Based Puncture Detection and Active Position Holding for Assisted Retinal Vein Cannulation.

Authors:  Berk Gonenc; Nhat Tran; Cameron N Riviere; Peter Gehlbach; Russell H Taylor; Iulian Iordachita
Journal:  IEEE SICE RSJ Int Conf Multisens Fusion Integr Intell Syst       Date:  2015-09

7.  Towards Vision-Based Control of a Handheld Micromanipulator for Retinal Cannulation in an Eyeball Phantom.

Authors:  Brian C Becker; Sungwook Yang; Robert A Maclachlan; Cameron N Riviere
Journal:  Proc IEEE RAS EMBS Int Conf Biomed Robot Biomechatron       Date:  2012-12-31

8.  Robotic Assisted Cannulation of Occluded Retinal Veins.

Authors:  Marc D de Smet; Thijs C M Meenink; Tom Janssens; Valerie Vanheukelom; Gerrit J L Naus; Maarten J Beelen; Caroline Meers; Bart Jonckx; Jean-Marie Stassen
Journal:  PLoS One       Date:  2016-09-27       Impact factor: 3.240
  8 in total

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