Robotic Surgery in Urology: History from PROBOT® to HUGOTM

The advent of robotic surgical systems had a significant impact on every surgical area, especially urology, gynecology, and general and cardiac surgery. The aim of this article is to delineate robotic surgery, particularly focusing on its historical background, its evolution, its present status, and...

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Published inSensors (Basel, Switzerland) Vol. 23; no. 16; p. 7104
Main Authors Brassetti, Aldo, Ragusa, Alberto, Tedesco, Francesco, Prata, Francesco, Cacciatore, Loris, Iannuzzi, Andrea, Bove, Alfredo Maria, Anceschi, Umberto, Proietti, Flavia, D’Annunzio, Simone, Flammia, Rocco Simone, Chiacchio, Giuseppe, Ferriero, Mariaconsiglia, Guaglianone, Salvatore, Mastroianni, Riccardo, Misuraca, Leonardo, Tuderti, Gabriele, Simone, Giuseppe
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 11.08.2023
MDPI
Subjects
Automation
Da Vinci
Design
Hugo-RAS system
Laparoscopy
Prostate
Regulatory approval
Review
robotic platform
Robotic surgery
Surgeons
Urology
United States > US
Online AccessGet full text
ISSN1424-8220
1424-8220
DOI10.3390/s23167104

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Abstract The advent of robotic surgical systems had a significant impact on every surgical area, especially urology, gynecology, and general and cardiac surgery. The aim of this article is to delineate robotic surgery, particularly focusing on its historical background, its evolution, its present status, and its future perspectives. A comprehensive literature review was conducted upon PubMed/MEDLINE, using the keywords “robotic surgical system”, “robotic surgical device”, “robotics AND urology”. Additionally, the retrieved articles’ reference lists were investigated. Analysis concentrated on urological surgical systems for laparoscopic surgery that have been given regulatory approval for use on humans. From the late 1980s, before daVinci® Era in 2000s, ancestor platform as Probot® and PUMA 560 were described to outline historical perspective. Thus, new robotic competitors of Intuitive Surgical such as Senhance®, Revo-I®, Versius®, Avatera®, Hinotori®, and HugoTM RAS were illustrated. Although daVinci® had high level competitiveness, and for many years represented the most plausible option for robotic procedures, several modern platforms are emerging in the surgical market. Growing competition through unique features of the new robotic technologies might extend applications fields, improve diffusion, and increase cost-effectiveness procedures. More experiences are needed to identify the role of these new advancements in surgical branches and in healthcare systems.
AbstractList The advent of robotic surgical systems had a significant impact on every surgical area, especially urology, gynecology, and general and cardiac surgery. The aim of this article is to delineate robotic surgery, particularly focusing on its historical background, its evolution, its present status, and its future perspectives. A comprehensive literature review was conducted upon PubMed/MEDLINE, using the keywords “robotic surgical system”, “robotic surgical device”, “robotics AND urology”. Additionally, the retrieved articles’ reference lists were investigated. Analysis concentrated on urological surgical systems for laparoscopic surgery that have been given regulatory approval for use on humans. From the late 1980s, before daVinci ® Era in 2000s, ancestor platform as Probot ® and PUMA 560 were described to outline historical perspective. Thus, new robotic competitors of Intuitive Surgical such as Senhance ® , Revo-I ® , Versius ® , Avatera ® , Hinotori ® , and Hugo TM RAS were illustrated. Although daVinci ® had high level competitiveness, and for many years represented the most plausible option for robotic procedures, several modern platforms are emerging in the surgical market. Growing competition through unique features of the new robotic technologies might extend applications fields, improve diffusion, and increase cost-effectiveness procedures. More experiences are needed to identify the role of these new advancements in surgical branches and in healthcare systems.
The advent of robotic surgical systems had a significant impact on every surgical area, especially urology, gynecology, and general and cardiac surgery. The aim of this article is to delineate robotic surgery, particularly focusing on its historical background, its evolution, its present status, and its future perspectives. A comprehensive literature review was conducted upon PubMed/MEDLINE, using the keywords “robotic surgical system”, “robotic surgical device”, “robotics AND urology”. Additionally, the retrieved articles’ reference lists were investigated. Analysis concentrated on urological surgical systems for laparoscopic surgery that have been given regulatory approval for use on humans. From the late 1980s, before daVinci® Era in 2000s, ancestor platform as Probot® and PUMA 560 were described to outline historical perspective. Thus, new robotic competitors of Intuitive Surgical such as Senhance®, Revo-I®, Versius®, Avatera®, Hinotori®, and HugoTM RAS were illustrated. Although daVinci® had high level competitiveness, and for many years represented the most plausible option for robotic procedures, several modern platforms are emerging in the surgical market. Growing competition through unique features of the new robotic technologies might extend applications fields, improve diffusion, and increase cost-effectiveness procedures. More experiences are needed to identify the role of these new advancements in surgical branches and in healthcare systems.
The advent of robotic surgical systems had a significant impact on every surgical area, especially urology, gynecology, and general and cardiac surgery. The aim of this article is to delineate robotic surgery, particularly focusing on its historical background, its evolution, its present status, and its future perspectives. A comprehensive literature review was conducted upon PubMed/MEDLINE, using the keywords "robotic surgical system", "robotic surgical device", "robotics AND urology". Additionally, the retrieved articles' reference lists were investigated. Analysis concentrated on urological surgical systems for laparoscopic surgery that have been given regulatory approval for use on humans. From the late 1980s, before daVinci® Era in 2000s, ancestor platform as Probot® and PUMA 560 were described to outline historical perspective. Thus, new robotic competitors of Intuitive Surgical such as Senhance®, Revo-I®, Versius®, Avatera®, Hinotori®, and HugoTM RAS were illustrated. Although daVinci® had high level competitiveness, and for many years represented the most plausible option for robotic procedures, several modern platforms are emerging in the surgical market. Growing competition through unique features of the new robotic technologies might extend applications fields, improve diffusion, and increase cost-effectiveness procedures. More experiences are needed to identify the role of these new advancements in surgical branches and in healthcare systems.The advent of robotic surgical systems had a significant impact on every surgical area, especially urology, gynecology, and general and cardiac surgery. The aim of this article is to delineate robotic surgery, particularly focusing on its historical background, its evolution, its present status, and its future perspectives. A comprehensive literature review was conducted upon PubMed/MEDLINE, using the keywords "robotic surgical system", "robotic surgical device", "robotics AND urology". Additionally, the retrieved articles' reference lists were investigated. Analysis concentrated on urological surgical systems for laparoscopic surgery that have been given regulatory approval for use on humans. From the late 1980s, before daVinci® Era in 2000s, ancestor platform as Probot® and PUMA 560 were described to outline historical perspective. Thus, new robotic competitors of Intuitive Surgical such as Senhance®, Revo-I®, Versius®, Avatera®, Hinotori®, and HugoTM RAS were illustrated. Although daVinci® had high level competitiveness, and for many years represented the most plausible option for robotic procedures, several modern platforms are emerging in the surgical market. Growing competition through unique features of the new robotic technologies might extend applications fields, improve diffusion, and increase cost-effectiveness procedures. More experiences are needed to identify the role of these new advancements in surgical branches and in healthcare systems.
Author Iannuzzi, Andrea
Cacciatore, Loris
Flammia, Rocco Simone
Guaglianone, Salvatore
Chiacchio, Giuseppe
Mastroianni, Riccardo
Ragusa, Alberto
Tuderti, Gabriele
Tedesco, Francesco
Bove, Alfredo Maria
Brassetti, Aldo
Anceschi, Umberto
Simone, Giuseppe
D’Annunzio, Simone
Misuraca, Leonardo
Prata, Francesco
Proietti, Flavia
Ferriero, Mariaconsiglia
AuthorAffiliation Department of Urology, IRCCS “Regina Elena” National Cancer Institute, 00128 Rome, Italy; aldo.brassetti@ifo.it (A.B.); francesco.tedesco@unicampus.it (F.T.); francesco.prata@gmail.com (F.P.); loris.cacciatore@unicampus.it (L.C.); andrea.iannuzzi@unicampus.it (A.I.); alfredo.bove@ifo.it (A.M.B.); umberto.anceschi@ifo.it (U.A.); flavia.proietti@uniroma1.it (F.P.); simone.dannunzio@ifo.it (S.D.); simone.flammia@ifo.it (R.S.F.); gipeppo1@gmail.com (G.C.); mariaconsiglia.ferriero@ifo.it (M.F.); salvatore.guaglianone@ifo.it (S.G.); riccardo.mastroianni@ifo.it (R.M.); leonardo.misuraca@ifo.it (L.M.); gabriele.tuderti@ifo.it (G.T.); giuseppe.simone@ifo.it (G.S.)
AuthorAffiliation_xml – name: Department of Urology, IRCCS “Regina Elena” National Cancer Institute, 00128 Rome, Italy; aldo.brassetti@ifo.it (A.B.); francesco.tedesco@unicampus.it (F.T.); francesco.prata@gmail.com (F.P.); loris.cacciatore@unicampus.it (L.C.); andrea.iannuzzi@unicampus.it (A.I.); alfredo.bove@ifo.it (A.M.B.); umberto.anceschi@ifo.it (U.A.); flavia.proietti@uniroma1.it (F.P.); simone.dannunzio@ifo.it (S.D.); simone.flammia@ifo.it (R.S.F.); gipeppo1@gmail.com (G.C.); mariaconsiglia.ferriero@ifo.it (M.F.); salvatore.guaglianone@ifo.it (S.G.); riccardo.mastroianni@ifo.it (R.M.); leonardo.misuraca@ifo.it (L.M.); gabriele.tuderti@ifo.it (G.T.); giuseppe.simone@ifo.it (G.S.)
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2023 by the authors. 2023
Copyright_xml – notice: 2023 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
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Snippet The advent of robotic surgical systems had a significant impact on every surgical area, especially urology, gynecology, and general and cardiac surgery. The...
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SubjectTerms Automation
Da Vinci
Design
Hugo-RAS system
Laparoscopy
Prostate
Regulatory approval
Review
robotic platform
Robotic surgery
Surgeons
Urology
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Title Robotic Surgery in Urology: History from PROBOT® to HUGOTM
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Volume 23
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