Literature DB >> 28090512

Surgical applications of three-dimensional printing: a review of the current literature & how to get started.

Don Hoang1, David Perrault2, Milan Stevanovic3, Alidad Ghiassi3.   

Abstract

Three dimensional (3D) printing involves a number of additive manufacturing techniques that are used to build structures from the ground up. This technology has been adapted to a wide range of surgical applications at an impressive rate. It has been used to print patient-specific anatomic models, implants, prosthetics, external fixators, splints, surgical instrumentation, and surgical cutting guides. The profound utility of this technology in surgery explains the exponential growth. It is important to learn how 3D printing has been used in surgery and how to potentially apply this technology. PubMed was searched for studies that addressed the clinical application of 3D printing in all surgical fields, yielding 442 results. Data was manually extracted from the 168 included studies. We found an exponential increase in studies addressing surgical applications for 3D printing since 2011, with the largest growth in craniofacial, oromaxillofacial, and cardiothoracic specialties. The pertinent considerations for getting started with 3D printing were identified and are discussed, including, software, printing techniques, printing materials, sterilization of printing materials, and cost and time requirements. Also, the diverse and increasing applications of 3D printing were recorded and are discussed. There is large array of potential applications for 3D printing. Decreasing cost and increasing ease of use are making this technology more available. Incorporating 3D printing into a surgical practice can be a rewarding process that yields impressive results.

Entities:  

Keywords:  Three-dimensional printing; computer-aided design; review; surgery; surgical specialties

Year:  2016        PMID: 28090512      PMCID: PMC5220021          DOI: 10.21037/atm.2016.12.18

Source DB:  PubMed          Journal:  Ann Transl Med        ISSN: 2305-5839


  163 in total

1.  Rapid protyping technology in medicine--basics and applications.

Authors:  R Petzold; H F Zeilhofer; W A Kalender
Journal:  Comput Med Imaging Graph       Date:  1999 Sep-Oct       Impact factor: 4.790

2.  Evaluation of three-dimensional printing for laparoscopic partial nephrectomy of renal tumors: a preliminary report.

Authors:  Yi Zhang; Hong-wei Ge; Ning-chen Li; Cheng-fan Yu; Hong-feng Guo; Shi-hua Jin; Jin-shun Liu; Yan-qun Na
Journal:  World J Urol       Date:  2015-04-05       Impact factor: 4.226

3.  A Novel Preoperative Planning Technique Using a Combination of CT Angiography and Three-Dimensional Printing for Complex Toe-to-Hand Reconstruction.

Authors:  Haitao Tan; Keqin Yang; Pingou Wei; Guodong Zhang; Dimitris Dimitriou; Lin Xu; Wenhua Huang; Xiang Luo
Journal:  J Reconstr Microsurg       Date:  2015-03-18       Impact factor: 2.873

4.  How accurate are rapid prototyped (RP) final orthognathic surgical wafers? A pilot study.

Authors:  Abedalrahman Shqaidef; Ashraf F Ayoub; Balvinder S Khambay
Journal:  Br J Oral Maxillofac Surg       Date:  2014-06-02       Impact factor: 1.651

5.  Novel ex vivo model for hands-on teaching of and training in EUS-guided biliary drainage: creation of "Mumbai EUS" stereolithography/3D printing bile duct prototype (with videos).

Authors:  Vinay Dhir; Takao Itoi; Paul Fockens; Manuel Perez-Miranda; Mouen A Khashab; Dong Wan Seo; Ai Ming Yang; Khek Yu Lawrence; Amit Maydeo
Journal:  Gastrointest Endosc       Date:  2014-12-02       Impact factor: 9.427

6.  A Novel Method of Orbital Floor Reconstruction Using Virtual Planning, 3-Dimensional Printing, and Autologous Bone.

Authors:  Maarten Vehmeijer; Maureen van Eijnatten; Niels Liberton; Jan Wolff
Journal:  J Oral Maxillofac Surg       Date:  2016-04-07       Impact factor: 1.895

7.  Cerebral Aneurysm Clipping Surgery Simulation Using Patient-Specific 3D Printing and Silicone Casting.

Authors:  Justin R Ryan; Kaith K Almefty; Peter Nakaji; David H Frakes
Journal:  World Neurosurg       Date:  2016-01-22       Impact factor: 2.104

8.  Application of 3D rapid prototyping technology in posterior corrective surgery for Lenke 1 adolescent idiopathic scoliosis patients.

Authors:  Mingyuan Yang; Chao Li; Yanming Li; Yingchuan Zhao; Xianzhao Wei; Guoyou Zhang; Jianping Fan; Haijian Ni; Ziqiang Chen; Yushu Bai; Ming Li
Journal:  Medicine (Baltimore)       Date:  2015-02       Impact factor: 1.889

9.  Printed three-dimensional anatomic templates for virtual preoperative planning before reconstruction of old pelvic injuries: initial results.

Authors:  Xin-Bao Wu; Jun-Qiang Wang; Chun-Peng Zhao; Xu Sun; Yin Shi; Zi-An Zhang; Yu-Neng Li; Man-Yi Wang
Journal:  Chin Med J (Engl)       Date:  2015-02-20       Impact factor: 2.628

10.  Use of a real-size 3D-printed model as a preoperative and intraoperative tool for minimally invasive plating of comminuted midshaft clavicle fractures.

Authors:  Hyong Nyun Kim; Xiao Ning Liu; Kyu Cheol Noh
Journal:  J Orthop Surg Res       Date:  2015-06-10       Impact factor: 2.359
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  60 in total

1.  Customized virtual surgical planning in bimaxillary orthognathic surgery: a prospective randomized trial.

Authors:  Daniel Schneider; Peer W Kämmerer; Matthias Hennig; Gerhard Schön; Daniel G E Thiem; Reinhard Bschorer
Journal:  Clin Oral Investig       Date:  2018-11-15       Impact factor: 3.573

2.  Implementation of 3D printed superior mesenteric vascular models for surgical planning and/or navigation in right colectomy with extended D3 mesenterectomy: comparison of virtual and physical models to the anatomy found at surgery.

Authors:  Javier A Luzon; Bjarte T Andersen; Bojan V Stimec; Jean H D Fasel; Arne O Bakka; Airazat M Kazaryan; Dejan Ignjatovic
Journal:  Surg Endosc       Date:  2018-07-16       Impact factor: 4.584

Review 3.  Additive manufacturing applications in orthopaedics: A review.

Authors:  Mohd Javaid; Abid Haleem
Journal:  J Clin Orthop Trauma       Date:  2018-04-21

4.  Multidisciplinary Assessment of Planning and Resection of Complex Bone Tumor Using Patient-Specific 3D Model.

Authors:  Anil Murat Ozturk; Suzan Sirinturk; Levent Kucuk; Fulya Yaprak; Figen Govsa; Mehmet Asim Ozer; Ufuk Cagirici; Dundar Sabah
Journal:  Indian J Surg Oncol       Date:  2018-12-05

5.  Three-Dimensional Printing-based Reconstruction of a Maxillary Bone Defect in a Dog Following Tumor Removal.

Authors:  Se Eun Kim; Kyung Mi Shim; Kwangsik Jang; Jin-Hyung Shim; Seong Soo Kang
Journal:  In Vivo       Date:  2018 Jan-Feb       Impact factor: 2.155

6.  Virtual surgical planning, flow simulation, and 3-dimensional electrospinning of patient-specific grafts to optimize Fontan hemodynamics.

Authors:  Dominik Siallagan; Yue-Hin Loke; Laura Olivieri; Justin Opfermann; Chin Siang Ong; Diane de Zélicourt; Anastasios Petrou; Marianne Schmid Daners; Vartan Kurtcuoglu; Mirko Meboldt; Kevin Nelson; Luca Vricella; Jed Johnson; Narutoshi Hibino; Axel Krieger
Journal:  J Thorac Cardiovasc Surg       Date:  2017-12-05       Impact factor: 5.209

7.  On-Demand Intraoperative 3-Dimensional Printing of Custom Cranioplastic Prostheses.

Authors:  Alexander I Evins; John Dutton; Sayem S Imam; Amal O Dadi; Tao Xu; Du Cheng; Philip E Stieg; Antonio Bernardo
Journal:  Oper Neurosurg (Hagerstown)       Date:  2018-09-01       Impact factor: 2.703

Review 8.  3D printing in spine surgery.

Authors:  Evan D Sheha; Sapan D Gandhi; Matthew W Colman
Journal:  Ann Transl Med       Date:  2019-09

9.  Planning and marking for thoracoscopic anatomical segmentectomies.

Authors:  Agathe Seguin-Givelet; Madalina Grigoroiu; Emmanuel Brian; Dominique Gossot
Journal:  J Thorac Dis       Date:  2018-04       Impact factor: 2.895

10.  Current status and challenges of Additive manufacturing in orthopaedics: An overview.

Authors:  Mohd Javaid; Abid Haleem
Journal:  J Clin Orthop Trauma       Date:  2018-05-21
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