This review looks at the implementation of magnetic-based approaches in surgical instruments for abdominal surgeries. As abdominal surgical techniques advance toward minimizing surgical trauma, surgical instruments are enhanced to support such an objective through the exploration of magnetic-based systems. With this design approach, surgical devices are given the capabilities to be fully inserted intraabdominally to achieve access to all abdominal quadrants, without the conventional rigid link connection with the external unit. The variety of intraabdominal surgical devices are anchored, guided, and actuated by external units, with power and torque transmitted across the abdominal wall through magnetic linkage. This addresses many constraints encountered by conventional laparoscopic tools, such as loss of triangulation, fulcrum effect, and loss/lack of dexterity for surgical tasks. Design requirements of clinical considerations to aid the successful development of magnetic surgical instruments, are also discussed.
%0 Journal Article
%1 leong2016magnetic
%A Leong, Florence
%A Garbin, Nicolo
%A Natali, Christian Di
%A Mohammadi, Alireza
%A Thiruchelvam, Dhan
%A Oetomo, Denny
%A Valdastri, Pietro
%D 2016
%J IEEE Reviews in Biomedical Engineering
%K Magnetic actuation,minimally invasive robots surgery,surgical
%P 66--78
%R 10.1109/RBME.2016.2521818
%T Magnetic surgical instruments for robotic abdominal surgery
%V 9
%X This review looks at the implementation of magnetic-based approaches in surgical instruments for abdominal surgeries. As abdominal surgical techniques advance toward minimizing surgical trauma, surgical instruments are enhanced to support such an objective through the exploration of magnetic-based systems. With this design approach, surgical devices are given the capabilities to be fully inserted intraabdominally to achieve access to all abdominal quadrants, without the conventional rigid link connection with the external unit. The variety of intraabdominal surgical devices are anchored, guided, and actuated by external units, with power and torque transmitted across the abdominal wall through magnetic linkage. This addresses many constraints encountered by conventional laparoscopic tools, such as loss of triangulation, fulcrum effect, and loss/lack of dexterity for surgical tasks. Design requirements of clinical considerations to aid the successful development of magnetic surgical instruments, are also discussed.
@article{leong2016magnetic,
abstract = {This review looks at the implementation of magnetic-based approaches in surgical instruments for abdominal surgeries. As abdominal surgical techniques advance toward minimizing surgical trauma, surgical instruments are enhanced to support such an objective through the exploration of magnetic-based systems. With this design approach, surgical devices are given the capabilities to be fully inserted intraabdominally to achieve access to all abdominal quadrants, without the conventional rigid link connection with the external unit. The variety of intraabdominal surgical devices are anchored, guided, and actuated by external units, with power and torque transmitted across the abdominal wall through magnetic linkage. This addresses many constraints encountered by conventional laparoscopic tools, such as loss of triangulation, fulcrum effect, and loss/lack of dexterity for surgical tasks. Design requirements of clinical considerations to aid the successful development of magnetic surgical instruments, are also discussed.},
added-at = {2023-05-10T16:23:27.000+0200},
author = {Leong, Florence and Garbin, Nicolo and Natali, Christian Di and Mohammadi, Alireza and Thiruchelvam, Dhan and Oetomo, Denny and Valdastri, Pietro},
biburl = {https://www.bibsonomy.org/bibtex/29c11d24dd13a54dde5fd7ff432df338d/sassw},
doi = {10.1109/RBME.2016.2521818},
interhash = {07a508229aee3f1953c10e9c315017c3},
intrahash = {9c11d24dd13a54dde5fd7ff432df338d},
issn = {19411189},
journal = {IEEE Reviews in Biomedical Engineering},
keywords = {Magnetic actuation,minimally invasive robots surgery,surgical},
pages = {66--78},
pmid = {26829803},
timestamp = {2023-05-10T16:23:27.000+0200},
title = {{Magnetic surgical instruments for robotic abdominal surgery}},
volume = 9,
year = 2016
}