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The MISLI-Drive, a modular sterilizable robotic driver for steerable laparoscopic instruments

Introduction: Based on the success of the former “Shaft-Actuated, Tip-Articulated” SATA-Drive, a prototype robotic instrument driver for modular, steerable, laparoscopic instruments, a new driver is designed and tested to improve previously lacking features concerning cleanability, instrument adapta...

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Autores principales: Lenssen, Tomas, Bîrjac, Radu, Dankelman, Jenny, Horeman, Tim
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10587404/
https://www.ncbi.nlm.nih.gov/pubmed/37868273
http://dx.doi.org/10.3389/frobt.2023.1227708
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author Lenssen, Tomas
Bîrjac, Radu
Dankelman, Jenny
Horeman, Tim
author_facet Lenssen, Tomas
Bîrjac, Radu
Dankelman, Jenny
Horeman, Tim
author_sort Lenssen, Tomas
collection PubMed
description Introduction: Based on the success of the former “Shaft-Actuated, Tip-Articulated” SATA-Drive, a prototype robotic instrument driver for modular, steerable, laparoscopic instruments, a new driver is designed and tested to improve previously lacking features concerning cleanability, instrument adaptation, practical application and control. The design of the driver engages these issues with a modular design aimed at re-use of both the instrument and the driver, for which a set of design requirements are established. Methods: A new modular design has been developed to improve cleanability through separation of the electro-motors and the instrument mechanism which clutches the instrument. Contamination of the driver’s robotic side is prevented though a combination of a drape and a Sterile barrier interface, while the instrument side is made sterilizable. A novel instrument clutching mechanism enables quick-release features, while a motor-axis latching mechanism enables plug-and-play assembly. Embedded sensors allow precise and fast control. A user-experiment was conducted on instrument exchange and assembly time, while mechanical and electrical tests were conducted on the driver’s responsiveness. Results: The driver has proven its ability to control the instrument, after which it can be disassembled for cleaning and inspection. The driver is designed for re-use through disassembled sterilization where all possibly contaminated surfaces are exposable for cleaning and inspection. The new standardized instrument clutches allow easy instrument (dis-)assembly. Instrument exchange is possible in two methods, the fastest of which is a median of 11 (6.3–14.6) seconds. The driver’s instrument mechanism is separated in a median of 3.7 (1.8–8.1) seconds. After assembly, the driver is operational in less than 2 s. Discussion: Instrument exchange times are similar to the semi-reusable Da Vinci systems, yet the MISLI-Drive is designed for sterilization, inspection and continual re-use. The modular build of the driver also allows easier parts replacement during maintenance, and requires minimal adaptation to different future scenarios, which is expected to reduce the overall cost of use.
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spelling pubmed-105874042023-10-21 The MISLI-Drive, a modular sterilizable robotic driver for steerable laparoscopic instruments Lenssen, Tomas Bîrjac, Radu Dankelman, Jenny Horeman, Tim Front Robot AI Robotics and AI Introduction: Based on the success of the former “Shaft-Actuated, Tip-Articulated” SATA-Drive, a prototype robotic instrument driver for modular, steerable, laparoscopic instruments, a new driver is designed and tested to improve previously lacking features concerning cleanability, instrument adaptation, practical application and control. The design of the driver engages these issues with a modular design aimed at re-use of both the instrument and the driver, for which a set of design requirements are established. Methods: A new modular design has been developed to improve cleanability through separation of the electro-motors and the instrument mechanism which clutches the instrument. Contamination of the driver’s robotic side is prevented though a combination of a drape and a Sterile barrier interface, while the instrument side is made sterilizable. A novel instrument clutching mechanism enables quick-release features, while a motor-axis latching mechanism enables plug-and-play assembly. Embedded sensors allow precise and fast control. A user-experiment was conducted on instrument exchange and assembly time, while mechanical and electrical tests were conducted on the driver’s responsiveness. Results: The driver has proven its ability to control the instrument, after which it can be disassembled for cleaning and inspection. The driver is designed for re-use through disassembled sterilization where all possibly contaminated surfaces are exposable for cleaning and inspection. The new standardized instrument clutches allow easy instrument (dis-)assembly. Instrument exchange is possible in two methods, the fastest of which is a median of 11 (6.3–14.6) seconds. The driver’s instrument mechanism is separated in a median of 3.7 (1.8–8.1) seconds. After assembly, the driver is operational in less than 2 s. Discussion: Instrument exchange times are similar to the semi-reusable Da Vinci systems, yet the MISLI-Drive is designed for sterilization, inspection and continual re-use. The modular build of the driver also allows easier parts replacement during maintenance, and requires minimal adaptation to different future scenarios, which is expected to reduce the overall cost of use. Frontiers Media S.A. 2023-10-06 /pmc/articles/PMC10587404/ /pubmed/37868273 http://dx.doi.org/10.3389/frobt.2023.1227708 Text en Copyright © 2023 Lenssen, Bîrjac, Dankelman and Horeman. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Robotics and AI
Lenssen, Tomas
Bîrjac, Radu
Dankelman, Jenny
Horeman, Tim
The MISLI-Drive, a modular sterilizable robotic driver for steerable laparoscopic instruments
title The MISLI-Drive, a modular sterilizable robotic driver for steerable laparoscopic instruments
title_full The MISLI-Drive, a modular sterilizable robotic driver for steerable laparoscopic instruments
title_fullStr The MISLI-Drive, a modular sterilizable robotic driver for steerable laparoscopic instruments
title_full_unstemmed The MISLI-Drive, a modular sterilizable robotic driver for steerable laparoscopic instruments
title_short The MISLI-Drive, a modular sterilizable robotic driver for steerable laparoscopic instruments
title_sort misli-drive, a modular sterilizable robotic driver for steerable laparoscopic instruments
topic Robotics and AI
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10587404/
https://www.ncbi.nlm.nih.gov/pubmed/37868273
http://dx.doi.org/10.3389/frobt.2023.1227708
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