Virtual surgical planning and 3D printing in prosthetic orbital reconstruction with percutaneous implants: a technical case report

Virtual surgical planning and 3D printing in prosthetic orbital reconstruction with percutaneous implants: a technical case report

Yu-Hui Huang,1,2 Rosemary Seelaus,1,2 Linping Zhao,1,2 Pravin K Patel,1,2 Mimis Cohen1,2 1The Craniofacial Center, Department of Surgery, Division of Plastic & Reconstructive Surgery, University of Illinois Hospital & Health Sciences System, 2University of Illinois College of Medicin...

Full description

Bibliographic Details
Main Authors: Huang Y, Seelaus R, Zhao L, Patel PK, Cohen M
Format: Article
Language:English
Published: Dove Medical Press 2016-10-01
Series:International Medical Case Reports Journal
Subjects:
Computer-Assisted Surgery
Virtual Surgical Planning (VSP)
3D Printing
Orbital Prosthetic Reconstruction
Craniofacial Implants
Online Access:https://www.dovepress.com/virtual-surgical-planning-and-3d-printing-in-prosthetic-orbital-recons-peer-reviewed-article-IMCRJ
id doaj-dbab901ea23d4aab84f5b7e0671722b8
record_format Article
spelling doaj-dbab901ea23d4aab84f5b7e0671722b82020-11-24T21:30:52ZengDove Medical PressInternational Medical Case Reports Journal1179-142X2016-10-01Volume 934134529745Virtual surgical planning and 3D printing in prosthetic orbital reconstruction with percutaneous implants: a technical case reportHuang YSeelaus RZhao LPatel PKCohen MYu-Hui Huang,1,2 Rosemary Seelaus,1,2 Linping Zhao,1,2 Pravin K Patel,1,2 Mimis Cohen1,2 1The Craniofacial Center, Department of Surgery, Division of Plastic & Reconstructive Surgery, University of Illinois Hospital & Health Sciences System, 2University of Illinois College of Medicine at Chicago, Chicago, IL, USA Abstract: Osseointegrated titanium implants to the cranial skeleton for retention of facial prostheses have proven to be a reliable replacement for adhesive systems. However, improper placement of the implants can jeopardize prosthetic outcomes, and long-term success of an implant-retained prosthesis. Three-dimensional (3D) computer imaging, virtual planning, and 3D printing have become accepted components of the preoperative planning and design phase of treatment. Computer-aided design and computer-assisted manufacture that employ cone-beam computed tomography data offer benefits to patient treatment by contributing to greater predictability and improved treatment efficiencies with more reliable outcomes in surgical and prosthetic reconstruction. 3D printing enables transfer of the virtual surgical plan to the operating room by fabrication of surgical guides. Previous studies have shown that accuracy improves considerably with guided implantation when compared to conventional template or freehand implant placement. This clinical case report demonstrates the use of a 3D technological pathway for preoperative virtual planning through prosthesis fabrication, utilizing 3D printing, for a patient with an acquired orbital defect that was restored with an implant-retained silicone orbital prosthesis. Keywords: computer-assisted surgery, virtual surgical planning (VSP), 3D printing, orbital prosthetic reconstruction, craniofacial implantshttps://www.dovepress.com/virtual-surgical-planning-and-3d-printing-in-prosthetic-orbital-recons-peer-reviewed-article-IMCRJComputer-Assisted SurgeryVirtual Surgical Planning (VSP)3D PrintingOrbital Prosthetic ReconstructionCraniofacial Implants
collection DOAJ
language English
format Article
sources DOAJ
author Huang Y
Seelaus R
Zhao L
Patel PK
Cohen M
spellingShingle Huang Y
Seelaus R
Zhao L
Patel PK
Cohen M
Virtual surgical planning and 3D printing in prosthetic orbital reconstruction with percutaneous implants: a technical case report
International Medical Case Reports Journal
Computer-Assisted Surgery
Virtual Surgical Planning (VSP)
3D Printing
Orbital Prosthetic Reconstruction
Craniofacial Implants
author_facet Huang Y
Seelaus R
Zhao L
Patel PK
Cohen M
author_sort Huang Y
title Virtual surgical planning and 3D printing in prosthetic orbital reconstruction with percutaneous implants: a technical case report
title_short Virtual surgical planning and 3D printing in prosthetic orbital reconstruction with percutaneous implants: a technical case report
title_full Virtual surgical planning and 3D printing in prosthetic orbital reconstruction with percutaneous implants: a technical case report
title_fullStr Virtual surgical planning and 3D printing in prosthetic orbital reconstruction with percutaneous implants: a technical case report
title_full_unstemmed Virtual surgical planning and 3D printing in prosthetic orbital reconstruction with percutaneous implants: a technical case report
title_sort virtual surgical planning and 3d printing in prosthetic orbital reconstruction with percutaneous implants: a technical case report
publisher Dove Medical Press
series International Medical Case Reports Journal
issn 1179-142X
publishDate 2016-10-01
description Yu-Hui Huang,1,2 Rosemary Seelaus,1,2 Linping Zhao,1,2 Pravin K Patel,1,2 Mimis Cohen1,2 1The Craniofacial Center, Department of Surgery, Division of Plastic & Reconstructive Surgery, University of Illinois Hospital & Health Sciences System, 2University of Illinois College of Medicine at Chicago, Chicago, IL, USA Abstract: Osseointegrated titanium implants to the cranial skeleton for retention of facial prostheses have proven to be a reliable replacement for adhesive systems. However, improper placement of the implants can jeopardize prosthetic outcomes, and long-term success of an implant-retained prosthesis. Three-dimensional (3D) computer imaging, virtual planning, and 3D printing have become accepted components of the preoperative planning and design phase of treatment. Computer-aided design and computer-assisted manufacture that employ cone-beam computed tomography data offer benefits to patient treatment by contributing to greater predictability and improved treatment efficiencies with more reliable outcomes in surgical and prosthetic reconstruction. 3D printing enables transfer of the virtual surgical plan to the operating room by fabrication of surgical guides. Previous studies have shown that accuracy improves considerably with guided implantation when compared to conventional template or freehand implant placement. This clinical case report demonstrates the use of a 3D technological pathway for preoperative virtual planning through prosthesis fabrication, utilizing 3D printing, for a patient with an acquired orbital defect that was restored with an implant-retained silicone orbital prosthesis. Keywords: computer-assisted surgery, virtual surgical planning (VSP), 3D printing, orbital prosthetic reconstruction, craniofacial implants
topic Computer-Assisted Surgery
Virtual Surgical Planning (VSP)
3D Printing
Orbital Prosthetic Reconstruction
Craniofacial Implants
url https://www.dovepress.com/virtual-surgical-planning-and-3d-printing-in-prosthetic-orbital-recons-peer-reviewed-article-IMCRJ
work_keys_str_mv AT huangy virtualsurgicalplanningand3dprintinginprostheticorbitalreconstructionwithpercutaneousimplantsatechnicalcasereport
AT seelausr virtualsurgicalplanningand3dprintinginprostheticorbitalreconstructionwithpercutaneousimplantsatechnicalcasereport
AT zhaol virtualsurgicalplanningand3dprintinginprostheticorbitalreconstructionwithpercutaneousimplantsatechnicalcasereport
AT patelpk virtualsurgicalplanningand3dprintinginprostheticorbitalreconstructionwithpercutaneousimplantsatechnicalcasereport
AT cohenm virtualsurgicalplanningand3dprintinginprostheticorbitalreconstructionwithpercutaneousimplantsatechnicalcasereport
_version_ 1725961341587423232

Similar Items