Cardiothoracic Applications of 3-dimensional Printing

Medical 3-dimensional (3D) printing is emerging as a clinically relevant imaging tool in directing preoperative and intraoperative planning in many surgical specialties and will therefore likely lead to interdisciplinary collaboration between engineers, radiologists, and surgeons. Data from standard...

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Published in	Journal of thoracic imaging Vol. 31; no. 5; p. 253
Main Authors	Giannopoulos, Andreas A, Steigner, Michael L, George, Elizabeth, Barile, Maria, Hunsaker, Andetta R, Rybicki, Frank J, Mitsouras, Dimitris
Format	Journal Article
Language	English
Published	United States 01.09.2016
Subjects	Diagnostic Imaging Heart Diseases - diagnostic imaging Heart Diseases - surgery Humans Intraoperative Care - methods Models, Anatomic Preoperative Care - methods Printing, Three-Dimensional
Online Access	Get more information
ISSN	1536-0237
DOI	10.1097/RTI.0000000000000217

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Abstract	Medical 3-dimensional (3D) printing is emerging as a clinically relevant imaging tool in directing preoperative and intraoperative planning in many surgical specialties and will therefore likely lead to interdisciplinary collaboration between engineers, radiologists, and surgeons. Data from standard imaging modalities such as computed tomography, magnetic resonance imaging, echocardiography, and rotational angiography can be used to fabricate life-sized models of human anatomy and pathology, as well as patient-specific implants and surgical guides. Cardiovascular 3D-printed models can improve diagnosis and allow for advanced preoperative planning. The majority of applications reported involve congenital heart diseases and valvular and great vessels pathologies. Printed models are suitable for planning both surgical and minimally invasive procedures. Added value has been reported toward improving outcomes, minimizing perioperative risk, and developing new procedures such as transcatheter mitral valve replacements. Similarly, thoracic surgeons are using 3D printing to assess invasion of vital structures by tumors and to assist in diagnosis and treatment of upper and lower airway diseases. Anatomic models enable surgeons to assimilate information more quickly than image review, choose the optimal surgical approach, and achieve surgery in a shorter time. Patient-specific 3D-printed implants are beginning to appear and may have significant impact on cosmetic and life-saving procedures in the future. In summary, cardiothoracic 3D printing is rapidly evolving and may be a potential game-changer for surgeons. The imager who is equipped with the tools to apply this new imaging science to cardiothoracic care is thus ideally positioned to innovate in this new emerging imaging modality.
AbstractList	Medical 3-dimensional (3D) printing is emerging as a clinically relevant imaging tool in directing preoperative and intraoperative planning in many surgical specialties and will therefore likely lead to interdisciplinary collaboration between engineers, radiologists, and surgeons. Data from standard imaging modalities such as computed tomography, magnetic resonance imaging, echocardiography, and rotational angiography can be used to fabricate life-sized models of human anatomy and pathology, as well as patient-specific implants and surgical guides. Cardiovascular 3D-printed models can improve diagnosis and allow for advanced preoperative planning. The majority of applications reported involve congenital heart diseases and valvular and great vessels pathologies. Printed models are suitable for planning both surgical and minimally invasive procedures. Added value has been reported toward improving outcomes, minimizing perioperative risk, and developing new procedures such as transcatheter mitral valve replacements. Similarly, thoracic surgeons are using 3D printing to assess invasion of vital structures by tumors and to assist in diagnosis and treatment of upper and lower airway diseases. Anatomic models enable surgeons to assimilate information more quickly than image review, choose the optimal surgical approach, and achieve surgery in a shorter time. Patient-specific 3D-printed implants are beginning to appear and may have significant impact on cosmetic and life-saving procedures in the future. In summary, cardiothoracic 3D printing is rapidly evolving and may be a potential game-changer for surgeons. The imager who is equipped with the tools to apply this new imaging science to cardiothoracic care is thus ideally positioned to innovate in this new emerging imaging modality.
Author	Steigner, Michael L George, Elizabeth Mitsouras, Dimitris Giannopoulos, Andreas A Hunsaker, Andetta R Rybicki, Frank J Barile, Maria
Author_xml	– sequence: 1 givenname: Andreas A surname: Giannopoulos fullname: Giannopoulos, Andreas A organization: Applied Imaging Science Laboratory †Radiology Department, Division of Thoracic Imaging, Brigham and Women's Hospital, Boston, MA ‡Department of Radiology, The University of Ottawa Faculty of Medicine and The Ottawa Hospital Research Institute, Ottawa, ON, Canada – sequence: 2 givenname: Michael L surname: Steigner fullname: Steigner, Michael L – sequence: 3 givenname: Elizabeth surname: George fullname: George, Elizabeth – sequence: 4 givenname: Maria surname: Barile fullname: Barile, Maria – sequence: 5 givenname: Andetta R surname: Hunsaker fullname: Hunsaker, Andetta R – sequence: 6 givenname: Frank J surname: Rybicki fullname: Rybicki, Frank J – sequence: 7 givenname: Dimitris surname: Mitsouras fullname: Mitsouras, Dimitris
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SubjectTerms	Diagnostic Imaging Heart Diseases - diagnostic imaging Heart Diseases - surgery Humans Intraoperative Care - methods Models, Anatomic Preoperative Care - methods Printing, Three-Dimensional
Title	Cardiothoracic Applications of 3-dimensional Printing
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