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CiiS Lab
Johns Hopkins University
112 Hackerman Hall
3400 N. Charles Street
Baltimore, MD 21218
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Lab Director
Russell Taylor
127 Hackerman Hall
rht@jhu.edu
Last updated: 5/10/2013
Micron is a fully handheld microsurgical tool, which provides the surgeon a method to more precisely control µ-level hand movements. However, when the micron tip goes out of its workspace, it stars moving erratically. Surgeons, while performing critical surgeries like retinal microsurgery, would want to have a visual feedback system, which helps them to stay within the range of motion.
In this project my main objective is to develop an efficient audio and visual assistance system for the surgeons to help them give a clear view of the position of the tip of the micron.
Peeling delicate retinal membranes, which are often less than five microns thick, is one of the most challenging retinal surgeries. Preventing rips and tears caused by tremor and excessive force can decrease injury and reduce the need for follow up surgeries. So to address issues in the delicate micromanipulation of retinal membranes, a fully handheld micromanipulator, Micron was developed in the lab at Carnegie Mellon University, Pittsburgh.
Significance and Importance
Microsurgical tools play a very significant role in very small and critical anatomies. Tremor compensation is a key component of many surgical robots and tries to eliminate the frequency bands dominated by tremor in order to remove unwanted motion while preserving the operators’ intended movements. Micron is one such microsurgical tool. It has been developed with actuators not on robot arm, but between the handle grip and the tool tip. Micron can move the tool tip independently of the hand motion, allowing it to perform behaviors such as tremor reduction, motion scaling and virtual fixtures.
Following are the deliverables that were discussed at the
beginning of the semester, which have been successfully
implemented and tested:-
Minimum Deliverables
Expected Deliverables
Maximum Deliverables
Phase I
Phase II
Kindly go through the final report attached below, for detailed description.
I would like to thank my mentors, Dr.Russel Taylor, Marcin Balicki and Balzs Vagvolgyi, for their support
throughout the project. Their input and guidance was immeasurable. I would specially like to thank Balazs for his valuable help and suggestions along the way.
[1] B. C. Becker, S. Voros, R. A. MacLachlan, G. D. Hager, and C. N. Riviere, “Active Guidance of a Handheld Micromanipulator using Visual Servoing”, in IEEE International Conference on Robotics and Automation, Kobe, Japan, May 12-17, 2009. pp. 339-344.
[2] B. Becker, R. MacLachlan, and C. Riviere, “State estimation and feedforward tremor suppression for a handheld micromanipulator with a Kalman filter”, in EEE RSJ Int Conf Intell Robot Syst, 2011. pp. 5160-5165. NIHMSID: 345014.
[3] B. Becker, R. MacLachlan, L. Lobes, and C. Riviere, “Vision-Based Retinal Membrane Peeling with a Handheld Robot”, in IEEE Int Conf Robot Autom, 2012. pp. 1075-1080. NIHMSID: 368417.
[4] B. Becker, S. Yang, R. MacLachlan, and C. Riviere, “Towards vision-based control of a handheld micromanipulator for retinal cannulation in an eyeball phantom”, in Proc IEEE RAS EMBS Int Conf Biomed Robot Biomechatron, 2012. p. accepted for publication. NIHMSID: 368431.
[5] B. Gonenc, M. A. Balicki, J. Handa, P. Gehlbach, C. N. Riviere, R. H. Taylor, and I. Iordachita, “Preliminary Evaluation of a Micro-Force Sensing Handheld Robot for Vitreoretinal Surgery”, in IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), Vilamoura, Algarve, Portugal, 7-12 October, 2012. pp. 4125-4130.
[6] R. MacLachlan, B. Becker, J. Cuevas-Tabarés, G. Podnar, L. Lobes, and C. Riviere, “ Micron: an actively stabilized handheld tool for microsurgery”, IEEE Trans Robot., vol. 28- 1, pp. 195-212, 2012. NIHMSID:345015.
[7] S. Yang, M. Balicki, R. A. MacLachlan, X. Liu, J. U. Kang, R. H. Taylor, and C. N. Riviere, “Optical Coherence Tomography Scanning with a Handheld Vitreoretinal Micromanipulator ”, in IEEE Engineering in Medicine and Biology Conf, San Diego, Aug 28-Sep 1, 2012. pp. 948-951. NIHMSID: 383510.
[8] S. Yang, R. MacLachlan, and C. Riviere, “Design and analysis of 6 DOF handheld micromanipulator”, in Proc IEEE Int Conf Robot Autom., St. Paul, MN, May 14-18, 2012. pp. 1946-51. NIHMSID: 368427.
[9] B. Becker, R. MacLachlan, L. Lobes, G. Hager, and C. Riviere, “Vision-Based Control of a Handheld Surgical Micromanipulator with Virtual Fixtures”, IEEE Transactions on Robotics, pp. Acepted Nov 27, 2012, 2013. NIHMSID: 429749.
[10] M. Balicki, J.-H. Han, I. Iordachita, P. Gehlbach, J. Handa, R. H. Taylor, and J. Kang, “Single Fiber Optical Coherence Tomography Microsurgical Instruments for Computer and Robot-Assisted Retinal Surgery”, in Medical Image Computing and Computer Assisted Surgery (MICCAI 2009), London, September 20-24, 2009. pp. 108-115. PMID: 20425977
CISST
Eye-BRP
My Bitbucket Repo
Username/Password Required for Eye-Brp Only Authorized users can access by repo
To download all the files regarding this project, please click on the below link