$Microfracture-coagulation for the real robotic liver parenchymal transection$

Microfracture-coagulation for the real robotic liver parenchymal transection

The use of the robotic approach in liver surgery is exponentially increasing. Although technically the robot introduces several innovative features, the instruments linked with the traditional laparoscopic approach for the liver parenchymal transection are not available, which may result in multiple...

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Veröffentlicht in:	Journal of robotic surgery 2024-02, Vol.18 (1), p.101, Article 101
Hauptverfasser:	Navinés-López, Jordi, Pardo Aranda, Fernando, Cremades Pérez, Manel, Espin Álvarez, Francisco, Zárate Pinedo, Alba, Cugat Andorrà, Esteban
Format:	Artikel
Sprache:	eng
Schlagworte:	Body mass index Coagulation Colorectal cancer Comorbidity Fractures, Stress Hepatectomy Humans Innovations Laparoscopy Learning curves Liver Liver - surgery Medical instruments Medicine Medicine & Public Health Metastasis Microfracture Minimally Invasive Surgery Mortality Patient positioning Robotic surgery Robotic Surgical Procedures - methods Robotics Robots Surgeons Surgery Urology
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container_title	Journal of robotic surgery
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creator	Navinés-López, Jordi Pardo Aranda, Fernando Cremades Pérez, Manel Espin Álvarez, Francisco Zárate Pinedo, Alba Cugat Andorrà, Esteban
description	The use of the robotic approach in liver surgery is exponentially increasing. Although technically the robot introduces several innovative features, the instruments linked with the traditional laparoscopic approach for the liver parenchymal transection are not available, which may result in multiple technical variants that may bias the comparative analysis between the different series worldwide. A real robotic approach, minimally efficient for the liver parenchymal transection, with no requirement of external tool, available for the already existing platforms, and applicable to any type of liver resection, counting on the selective use of the plugged bipolar forceps and the monopolar scissors, or “microfracture-coagulation” (MFC) transection method, is described in detail. The relevant aspects of the technique, its indications and methodological basis are discussed.
doi_str_mv	10.1007/s11701-024-01842-9
format	Article
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subjects	Body mass index Coagulation Colorectal cancer Comorbidity Fractures, Stress Hepatectomy Humans Innovations Laparoscopy Learning curves Liver Liver - surgery Medical instruments Medicine Medicine & Public Health Metastasis Microfracture Minimally Invasive Surgery Mortality Patient positioning Robotic surgery Robotic Surgical Procedures - methods Robotics Robots Surgeons Surgery Urology
title	Microfracture-coagulation for the real robotic liver parenchymal transection
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