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From digital world to real life: a robotic approach to the esophagogastric junction with a 3D printed model

BACKGROUND: Three-dimensional (3D) printing may represent a useful tool to provide, in surgery, a good representation of surgical scenario before surgery, particularly in complex cases. Recently, such a technology has been utilized to plan operative interventions in spinal, neuronal, and cardiac sur...

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Main Authors: Marano, Luigi, Ricci, Alessandro, Savelli, Vinno, Verre, Luigi, Di Renzo, Luca, Biccari, Elia, Costantini, Giacomo, Marrelli, Daniele, Roviello, Franco
Format: Online Article Text
Language:English
Published: BioMed Central 2019
Subjects:
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6814977/
https://www.ncbi.nlm.nih.gov/pubmed/31653210
http://dx.doi.org/10.1186/s12893-019-0621-6
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author Marano, Luigi
Ricci, Alessandro
Savelli, Vinno
Verre, Luigi
Di Renzo, Luca
Biccari, Elia
Costantini, Giacomo
Marrelli, Daniele
Roviello, Franco
author_facet Marano, Luigi
Ricci, Alessandro
Savelli, Vinno
Verre, Luigi
Di Renzo, Luca
Biccari, Elia
Costantini, Giacomo
Marrelli, Daniele
Roviello, Franco
author_sort Marano, Luigi
collection PubMed
description BACKGROUND: Three-dimensional (3D) printing may represent a useful tool to provide, in surgery, a good representation of surgical scenario before surgery, particularly in complex cases. Recently, such a technology has been utilized to plan operative interventions in spinal, neuronal, and cardiac surgeries, but few data are available in the literature about their role in the upper gastrointestinal surgery. The feasibility of this technology has been described in a single case of gastroesophageal reflux disease with complex anatomy due to a markedly tortuous descending aorta. METHODS: A 65-year-old Caucasian woman was referred to our Department complaining heartburn and pyrosis. A chest computed tomography evidenced a tortuous thoracic aorta and consequent compression of the esophagus between the vessel and left atrium. A “dysphagia aortica” has been diagnosed. Thus, surgical treatment of anti-reflux surgery with separation of the distal esophagus from the aorta was planned. To define the strict relationship between the esophagus and the mediastinal organs, a life-size 3D printed model of the esophagus including the proximal stomach, the thoracic aorta and diaphragmatic crus, based on the patient’s CT scan, was manufactured. RESULTS: The robotic procedure was performed with the da Vinci Surgical System and lasted 175 min. The surgeons had navigational guidance during the procedure since they could consult the 3D electronically superimposed processed images, in a “picture-in-picture” mode, over the surgical field displayed on the monitor as well as on the robotic headset. There was no injury to the surrounding organs and, most importantly, the patient had an uncomplicated postoperative course. CONCLUSIONS: The present clinical report highlights the feasibility, utility and clinical effects of 3D printing technology for preoperative planning and intraoperative guidance in surgery, including the esophagogastric field. However, the lack of published data requires more evidence to assess the effectiveness and safety of this novel surgical-applied printing technology.
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spelling pubmed-68149772019-10-31 From digital world to real life: a robotic approach to the esophagogastric junction with a 3D printed model Marano, Luigi Ricci, Alessandro Savelli, Vinno Verre, Luigi Di Renzo, Luca Biccari, Elia Costantini, Giacomo Marrelli, Daniele Roviello, Franco BMC Surg Technical Advance BACKGROUND: Three-dimensional (3D) printing may represent a useful tool to provide, in surgery, a good representation of surgical scenario before surgery, particularly in complex cases. Recently, such a technology has been utilized to plan operative interventions in spinal, neuronal, and cardiac surgeries, but few data are available in the literature about their role in the upper gastrointestinal surgery. The feasibility of this technology has been described in a single case of gastroesophageal reflux disease with complex anatomy due to a markedly tortuous descending aorta. METHODS: A 65-year-old Caucasian woman was referred to our Department complaining heartburn and pyrosis. A chest computed tomography evidenced a tortuous thoracic aorta and consequent compression of the esophagus between the vessel and left atrium. A “dysphagia aortica” has been diagnosed. Thus, surgical treatment of anti-reflux surgery with separation of the distal esophagus from the aorta was planned. To define the strict relationship between the esophagus and the mediastinal organs, a life-size 3D printed model of the esophagus including the proximal stomach, the thoracic aorta and diaphragmatic crus, based on the patient’s CT scan, was manufactured. RESULTS: The robotic procedure was performed with the da Vinci Surgical System and lasted 175 min. The surgeons had navigational guidance during the procedure since they could consult the 3D electronically superimposed processed images, in a “picture-in-picture” mode, over the surgical field displayed on the monitor as well as on the robotic headset. There was no injury to the surrounding organs and, most importantly, the patient had an uncomplicated postoperative course. CONCLUSIONS: The present clinical report highlights the feasibility, utility and clinical effects of 3D printing technology for preoperative planning and intraoperative guidance in surgery, including the esophagogastric field. However, the lack of published data requires more evidence to assess the effectiveness and safety of this novel surgical-applied printing technology. BioMed Central 2019-10-25 /pmc/articles/PMC6814977/ /pubmed/31653210 http://dx.doi.org/10.1186/s12893-019-0621-6 Text en © The Author(s). 2019 Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
spellingShingle Technical Advance
Marano, Luigi
Ricci, Alessandro
Savelli, Vinno
Verre, Luigi
Di Renzo, Luca
Biccari, Elia
Costantini, Giacomo
Marrelli, Daniele
Roviello, Franco
From digital world to real life: a robotic approach to the esophagogastric junction with a 3D printed model
title From digital world to real life: a robotic approach to the esophagogastric junction with a 3D printed model
title_full From digital world to real life: a robotic approach to the esophagogastric junction with a 3D printed model
title_fullStr From digital world to real life: a robotic approach to the esophagogastric junction with a 3D printed model
title_full_unstemmed From digital world to real life: a robotic approach to the esophagogastric junction with a 3D printed model
title_short From digital world to real life: a robotic approach to the esophagogastric junction with a 3D printed model
title_sort from digital world to real life: a robotic approach to the esophagogastric junction with a 3d printed model
topic Technical Advance
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6814977/
https://www.ncbi.nlm.nih.gov/pubmed/31653210
http://dx.doi.org/10.1186/s12893-019-0621-6
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