Miniaturized Cutting Tool With Triaxial Force Sensing Capabilities for Minimally Invasive SurgerySource: Journal of Medical Devices:;2007:;volume( 001 ):;issue: 003::page 206Author:Pietro Valdastri
,
Arne Sieber
,
Masaru Yanagihara
,
Masakatsu Fujie
,
Keith Houston
,
Arianna Menciassi
,
Paolo Dario
DOI: 10.1115/1.2778700Publisher: The American Society of Mechanical Engineers (ASME)
Abstract: This paper reports a miniaturized triaxial force sensorized cutting tool for minimally invasive robotic surgery. This device exploits a silicon-based microelectromechanical system triaxial force sensor that acts as the core component of the system. The outer diameter of the proposed device is less than 3mm, thus enabling the insertion through a 9 French catheter guide. Characterization tests are performed for both normal and tangential loadings. A linear transformation relating the sensor output to the external applied force is introduced in order to have a triaxial force output in real time. Normal force resolution is 8.2bits over a force range between 0N and 30N, while tangential resolution is 7 bits over a range of 5N. Force signals with frequencies up to 250Hz can successfully be detected, enabling haptic feedback and tissue mechanical properties investigation. Preliminary ex vivo muscular tissue cutting experiments are introduced and discussed in order to evaluate the device overall performances.
keyword(s): Force , Sensors , Cutting tools , Cutting , Surgery , Calibration , Muscle , Signals , Design , Manufacturing , Biological tissues , Silicon AND Catheters ,
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| contributor author | Pietro Valdastri | |
| contributor author | Arne Sieber | |
| contributor author | Masaru Yanagihara | |
| contributor author | Masakatsu Fujie | |
| contributor author | Keith Houston | |
| contributor author | Arianna Menciassi | |
| contributor author | Paolo Dario | |
| date accessioned | 2017-05-09T00:25:16Z | |
| date available | 2017-05-09T00:25:16Z | |
| date copyright | September, 2007 | |
| date issued | 2007 | |
| identifier issn | 1932-6181 | |
| identifier other | JMDOA4-27985#206_1.pdf | |
| identifier uri | http://yetl.yabesh.ir/yetl/handle/yetl/136574 | |
| description abstract | This paper reports a miniaturized triaxial force sensorized cutting tool for minimally invasive robotic surgery. This device exploits a silicon-based microelectromechanical system triaxial force sensor that acts as the core component of the system. The outer diameter of the proposed device is less than 3mm, thus enabling the insertion through a 9 French catheter guide. Characterization tests are performed for both normal and tangential loadings. A linear transformation relating the sensor output to the external applied force is introduced in order to have a triaxial force output in real time. Normal force resolution is 8.2bits over a force range between 0N and 30N, while tangential resolution is 7 bits over a range of 5N. Force signals with frequencies up to 250Hz can successfully be detected, enabling haptic feedback and tissue mechanical properties investigation. Preliminary ex vivo muscular tissue cutting experiments are introduced and discussed in order to evaluate the device overall performances. | |
| publisher | The American Society of Mechanical Engineers (ASME) | |
| title | Miniaturized Cutting Tool With Triaxial Force Sensing Capabilities for Minimally Invasive Surgery | |
| type | Journal Paper | |
| journal volume | 1 | |
| journal issue | 3 | |
| journal title | Journal of Medical Devices | |
| identifier doi | 10.1115/1.2778700 | |
| journal fristpage | 206 | |
| journal lastpage | 211 | |
| identifier eissn | 1932-619X | |
| keywords | Force | |
| keywords | Sensors | |
| keywords | Cutting tools | |
| keywords | Cutting | |
| keywords | Surgery | |
| keywords | Calibration | |
| keywords | Muscle | |
| keywords | Signals | |
| keywords | Design | |
| keywords | Manufacturing | |
| keywords | Biological tissues | |
| keywords | Silicon AND Catheters | |
| tree | Journal of Medical Devices:;2007:;volume( 001 ):;issue: 003 | |
| contenttype | Fulltext |