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Main article for Fracture-directed Waterjet Needle Steering: Design, Modeling, and Path PlanningRights Statements InC/1.0 , Open Access
Conference proceeding
Fracture-directed Waterjet Needle Steering: Design, Modeling, and Path Planning
IEEE RAS/EMBS International Conference for Biomedical Robotics and Biomechatronics (BioRob), 8 (11/29/2020 - 12/01/2020)
05/2020
Handle:
https://hdl.handle.net/2376/17729
Abstract
Steerable needle technology has the promise of improving outcomes by enhancing the accuracy of different therapies and biopsies, as they can be steered to a target location around obstacles. Achieving small radius of curvature and being able to control both radius of curvature and tip travel are of paramount importance in steerable needles to accomplish the increase in efficacy of the medical procedures. In this paper, we present a new class of the steerable needles, which we call waterjet-directed steerable needles, where the underlying principle is to first control the direction of tissue fracture with waterjet, after which the needle will follow during subsequent insertion. In this paper, the direction of the tissue fracture is controlled by an angled waterjet nozzle and control of the water velocity, and then the flexible Nitinol needle follows. It is shown that by changing the velocity of waterjet and thus depth of cut, radius of curvature can be controlled. A discrete-step kinematic model is used to model the motion of the waterjet steerable needle. This model consist of two parts: (1) the mechanics- based model predicts the cut-depth of waterjet in soft tissue based on soft tissue properties, waterjet diameter, and water exit velocity, and (2) a discrete-step kinematic unicycle model of the steerable needle travel. Path planning is accomplished through a genetic algorithm, and the efficacy of waterjet steerable needle is tested for different paths. The key finding of the paper is that the radius of curvature of the waterjet steerable needle can be controlled by a fixed waterjet tip angle and varying water exit velocity to control the depth of cut.
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Details
- Title
- Fracture-directed Waterjet Needle Steering: Design, Modeling, and Path Planning
- Creators
- Mahdieh Babaiasl (Author)Fan Yang (Author)Stefano Boccelli (Author)John P. Swensen (Author)
- Conference
- IEEE RAS/EMBS International Conference for Biomedical Robotics and Biomechatronics (BioRob), 8 (11/29/2020 - 12/01/2020)
- Academic Unit
- Mechanical and Materials Engineering, School of
- Identifiers
- 99900502067201842
- Copyright
- In copyright ; openAccess ; http://rightsstatements.org/vocab/InC/1.0/ ; http://purl.org/eprint/accessRights/OpenAccess
- Language
- English
- Resource Type
- Conference proceeding