Summary
Currently during a laparoscopic operation, several units of medical personnel are requested to stay in the operating room for supporting the main surgeon teleoperating the surgical robot. In particular one assistant is always present for taking care of simple surgical procedures (e.g. aspiration of dead tissue after a cut in laparoscopy, moving organs or tissue to make room for cutting or suturing) that the leading surgeon cannot perform with the laparoscopic tools s/he is teleoperating. It is common that an expert surgeon has to play the role of an assistant during an operation led by another surgeon.
Furthermore, the assistant is performing critical tasks only for the 30% of the time of the operation and s/he has to stand, waiting, most of the time. Considering the hourly cost of a surgeon, the current practice is very inefficient from an economic point of view but also from a social point of view, leading to unnecessary long waiting lists.
The goal of the project is to develop a surgical robotic platform that allows to decrease the number of surgeons necessary for one operation, increasing the social and economic efficiency of a hospital and guaranteeing the same level of safety for the patients. We will focus on laparoscopic surgery, where the surgeon is teleoperating a surgical robot for executing some procedure (e.g. nephrectomy, prostatectomy). The goal of the project is to develop a surgical robotic platform that allows only one surgeon to execute R-MIS operations. SARAS will develop:
1. two assistive robotic arms designed to implement the tasks currently done by the assistant surgeon by holding off-the shelf laparoscopic instruments,
2. a cooperative and cognitive supervisor system able to infer the actual state of the procedure by analysing the information coming from the sensing system and to act accordingly with the surgeon’s needs.
Having these technologies available we are in a position to develop a solo surgery system.
Furthermore, the assistant is performing critical tasks only for the 30% of the time of the operation and s/he has to stand, waiting, most of the time. Considering the hourly cost of a surgeon, the current practice is very inefficient from an economic point of view but also from a social point of view, leading to unnecessary long waiting lists.
The goal of the project is to develop a surgical robotic platform that allows to decrease the number of surgeons necessary for one operation, increasing the social and economic efficiency of a hospital and guaranteeing the same level of safety for the patients. We will focus on laparoscopic surgery, where the surgeon is teleoperating a surgical robot for executing some procedure (e.g. nephrectomy, prostatectomy). The goal of the project is to develop a surgical robotic platform that allows only one surgeon to execute R-MIS operations. SARAS will develop:
1. two assistive robotic arms designed to implement the tasks currently done by the assistant surgeon by holding off-the shelf laparoscopic instruments,
2. a cooperative and cognitive supervisor system able to infer the actual state of the procedure by analysing the information coming from the sensing system and to act accordingly with the surgeon’s needs.
Having these technologies available we are in a position to develop a solo surgery system.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/779813 |
| Start date: | 01-01-2018 |
| End date: | 31-12-2021 |
| Total budget - Public funding: | 4 225 831,00 Euro - 4 225 831,00 Euro |
Cordis data
Original description
Currently during a laparoscopic operation, several units of medical personnel are requested to stay in the operating room for supporting the main surgeon teleoperating the surgical robot. In particular one assistant is always present for taking care of simple surgical procedures (e.g. aspiration of dead tissue after a cut in laparoscopy, moving organs or tissue to make room for cutting or suturing) that the leading surgeon cannot perform with the laparoscopic tools s/he is teleoperating. It is common that an expert surgeon has to play the role of an assistant during an operation led by another surgeon.Furthermore, the assistant is performing critical tasks only for the 30% of the time of the operation and s/he has to stand, waiting, most of the time. Considering the hourly cost of a surgeon, the current practice is very inefficient from an economic point of view but also from a social point of view, leading to unnecessary long waiting lists.
The goal of the project is to develop a surgical robotic platform that allows to decrease the number of surgeons necessary for one operation, increasing the social and economic efficiency of a hospital and guaranteeing the same level of safety for the patients. We will focus on laparoscopic surgery, where the surgeon is teleoperating a surgical robot for executing some procedure (e.g. nephrectomy, prostatectomy). The goal of the project is to develop a surgical robotic platform that allows only one surgeon to execute R-MIS operations. SARAS will develop:
1. two assistive robotic arms designed to implement the tasks currently done by the assistant surgeon by holding off-the shelf laparoscopic instruments,
2. a cooperative and cognitive supervisor system able to infer the actual state of the procedure by analysing the information coming from the sensing system and to act accordingly with the surgeon’s needs.
Having these technologies available we are in a position to develop a solo surgery system.
Status
CLOSEDCall topic
ICT-27-2017Update Date
27-10-2022
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H2020-EU.2.1.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Information and Communication Technologies (ICT)
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Organisations
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| UNIVERSITA DEGLI STUDI DI VERONA (Coördinator)
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| ACMIT GMBH
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| BRAINLAB ROBOTICS GMBH
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| FONDAZIONE CENTRO SAN RAFFAELE
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| OSPEDALE SAN RAFFAELE SRL
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| OXFORD BROOKES UNIVERSITY
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| UNIVERSITA DEGLI STUDI DI FERRARA
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| UNIVERSITA VITA-SALUTE SAN RAFFAELE
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| UNIVERSITAT POLITECNICA DE CATALUNYA
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| UNIVERSITY OF DUNDEE
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| University of Modena and Reggio Emilia