Design, Modeling and Control of Continuum Robots and Dexterous Wrists with Applications to Transurethral Bladder Cancer Resection
Bladder cancer is the 4th leading cancer type in 2018 in the US male population. Staging and treatment of non-muscle-invasive bladder tumors using TURBT (Transurethral Resection of Bladder Tumors) is challenging due to limitations in tool dexterity, visualization and risk of bladder wall perforation...
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| Online Access: | http://hdl.handle.net/1803/14087 https://etd.library.vanderbilt.edu/etd-09052018-113912 |
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ftvanderbilt:oai:ir.vanderbilt.edu:1803/14087 2023-05-15T18:41:09+02:00 Design, Modeling and Control of Continuum Robots and Dexterous Wrists with Applications to Transurethral Bladder Cancer Resection Sarli, Nima 2018-09-07 application/pdf http://hdl.handle.net/1803/14087 https://etd.library.vanderbilt.edu/etd-09052018-113912 unknown continuum robot snake robot bladder cancer redundancy resolution wire-actuated wrist wire-driven wrist teleoperation dissertation 2018 ftvanderbilt 2023-01-01T16:11:26Z Bladder cancer is the 4th leading cancer type in 2018 in the US male population. Staging and treatment of non-muscle-invasive bladder tumors using TURBT (Transurethral Resection of Bladder Tumors) is challenging due to limitations in tool dexterity, visualization and risk of bladder wall perforation. Currently, transurethral resection is achieved via a rigid resectoscope lacking distal dexterity necessary for a precise resection. To address these needs, an endoscopic robotic system called TURBot was developed. The first part of this dissertation addresses lack of baseline characterization of TURBT. A kinematic modeling framework is created and compared against experimental data to delineate correlations between kinematic dexterity measures and resection performance. A key outcome of this study is the identification of important dexterity measures that correlate with resection accuracy. This study presents the first quantitative benchmark for assessment of TURBT. In the second part of this dissertation, design considerations, modeling and control challenges of TURBot are addressed to enable the first robot-assisted in vivo TURBT. Successful transurethral deployment, access to the entire bladder and successful robotic ablation is verified in in vivo porcine studies. In addition, TURBot resection is compared against manual resection in a user study using a human bladder phantom. As part of this investigation, a redundancy resolution framework is proposed to mitigate the visual occlusion problem that often arises in robotic minimally invasive surgery in confined spaces. At the end, the analysis of a wrist architecture with open-ended wire routing is presented. The open-ended actuation scheme offers accuracy and robustness to wire creep thereby potentially increasing the lifespan of surgical wrists. A particular wrist with this architecture is adopted as a case study and the effects of wire forces on its characteristics are investigated. The contributions of this dissertation present fundamental steps that pave the ... Doctoral or Postdoctoral Thesis Turbot Vanderbilt University, Nashville: DiscoverArchive |
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Open Polar |
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Vanderbilt University, Nashville: DiscoverArchive |
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ftvanderbilt |
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unknown |
| topic |
continuum robot snake robot bladder cancer redundancy resolution wire-actuated wrist wire-driven wrist teleoperation |
| spellingShingle |
continuum robot snake robot bladder cancer redundancy resolution wire-actuated wrist wire-driven wrist teleoperation Sarli, Nima Design, Modeling and Control of Continuum Robots and Dexterous Wrists with Applications to Transurethral Bladder Cancer Resection |
| topic_facet |
continuum robot snake robot bladder cancer redundancy resolution wire-actuated wrist wire-driven wrist teleoperation |
| description |
Bladder cancer is the 4th leading cancer type in 2018 in the US male population. Staging and treatment of non-muscle-invasive bladder tumors using TURBT (Transurethral Resection of Bladder Tumors) is challenging due to limitations in tool dexterity, visualization and risk of bladder wall perforation. Currently, transurethral resection is achieved via a rigid resectoscope lacking distal dexterity necessary for a precise resection. To address these needs, an endoscopic robotic system called TURBot was developed. The first part of this dissertation addresses lack of baseline characterization of TURBT. A kinematic modeling framework is created and compared against experimental data to delineate correlations between kinematic dexterity measures and resection performance. A key outcome of this study is the identification of important dexterity measures that correlate with resection accuracy. This study presents the first quantitative benchmark for assessment of TURBT. In the second part of this dissertation, design considerations, modeling and control challenges of TURBot are addressed to enable the first robot-assisted in vivo TURBT. Successful transurethral deployment, access to the entire bladder and successful robotic ablation is verified in in vivo porcine studies. In addition, TURBot resection is compared against manual resection in a user study using a human bladder phantom. As part of this investigation, a redundancy resolution framework is proposed to mitigate the visual occlusion problem that often arises in robotic minimally invasive surgery in confined spaces. At the end, the analysis of a wrist architecture with open-ended wire routing is presented. The open-ended actuation scheme offers accuracy and robustness to wire creep thereby potentially increasing the lifespan of surgical wrists. A particular wrist with this architecture is adopted as a case study and the effects of wire forces on its characteristics are investigated. The contributions of this dissertation present fundamental steps that pave the ... |
| format |
Doctoral or Postdoctoral Thesis |
| author |
Sarli, Nima |
| author_facet |
Sarli, Nima |
| author_sort |
Sarli, Nima |
| title |
Design, Modeling and Control of Continuum Robots and Dexterous Wrists with Applications to Transurethral Bladder Cancer Resection |
| title_short |
Design, Modeling and Control of Continuum Robots and Dexterous Wrists with Applications to Transurethral Bladder Cancer Resection |
| title_full |
Design, Modeling and Control of Continuum Robots and Dexterous Wrists with Applications to Transurethral Bladder Cancer Resection |
| title_fullStr |
Design, Modeling and Control of Continuum Robots and Dexterous Wrists with Applications to Transurethral Bladder Cancer Resection |
| title_full_unstemmed |
Design, Modeling and Control of Continuum Robots and Dexterous Wrists with Applications to Transurethral Bladder Cancer Resection |
| title_sort |
design, modeling and control of continuum robots and dexterous wrists with applications to transurethral bladder cancer resection |
| publishDate |
2018 |
| url |
http://hdl.handle.net/1803/14087 https://etd.library.vanderbilt.edu/etd-09052018-113912 |
| genre |
Turbot |
| genre_facet |
Turbot |
| _version_ |
1766230652274868224 |