A Plastic Surgery Application in Evolution: Three-Dimensional Printing

Background: Three-dimensional printing represents an evolving technology still in its infancy. Currently, individuals and small business entities have the ability to manufacture physical objects from digital renderings, computer-aided design, and open source files. Design modifications and improvements in extrusion methods have made this technology much more affordable. This article explores the potential uses of three-dimensional printing in plastic surgery. Methods: A review was performed detailing the known uses of three-dimensional printing in medicine. The potential applications of three-dimensional printing in plastic surgery are discussed. Results: Various applications for three-dimensional printing technology have emerged in medicine, including printing organs, printing body parts, bio-printing, and computer-aided tissue engineering. In plastic surgery, these tools offer various prospective applications for surgical planning, resident education, and the development of custom prosthetics. Conclusions: Numerous applications exist in medicine, including the printing of devices, implants, tissue replacements, and even whole organs. Plastic surgeons may likely find this technology indispensable in surgical planning, education, and prosthetic device design and development in the near future.

[1]  P. D'urso,et al.  Stereolithographic biomodelling in cranio-maxillofacial surgery: a prospective trial. , 1999, Journal of cranio-maxillo-facial surgery : official publication of the European Association for Cranio-Maxillo-Facial Surgery.

[2]  Matthew B Hoy 3D Printing: Making Things at the Library , 2013, Medical reference services quarterly.

[3]  Hidenori Ono,et al.  Rapid prototyping of temporal bone for surgical training and medical education. , 2004, Acta oto-laryngologica.

[4]  J. Faber,et al.  Rapid prototyping as a tool for diagnosis and treatment planning for maxillary canine impaction. , 2006, American journal of orthodontics and dentofacial orthopedics : official publication of the American Association of Orthodontists, its constituent societies, and the American Board of Orthodontics.

[5]  Vladimir Mironov,et al.  Towards organ printing: engineering an intra-organ branched vascular tree , 2010, Expert opinion on biological therapy.

[6]  P. D'urso,et al.  Custom cranioplasty using stereolithography and acrylic. , 2000, British journal of plastic surgery.

[7]  Michael C. McAlpine,et al.  3D Printed Bionic Ears , 2013, Nano letters.

[8]  Frederik L. Giesel,et al.  3D printing based on imaging data: review of medical applications , 2010, International Journal of Computer Assisted Radiology and Surgery.

[9]  K. Krishnan,et al.  The Application of Rapid Prototyping Techniques in Cranial Reconstruction and Preoperative Planning in Neurosurgery , 2003, The Journal of craniofacial surgery.

[10]  Adir Cohen,et al.  Mandibular reconstruction using stereolithographic 3-dimensional printing modeling technology. , 2009, Oral surgery, oral medicine, oral pathology, oral radiology, and endodontics.

[11]  H. Kauczor,et al.  3D reconstructions of the cerebral ventricles and volume quantification in children with brain malformations. , 2009, Academic radiology.

[12]  J. Carroll,et al.  Rapid Prototyping: A New Tool in Understanding and Treating Structural Heart Disease , 2008, Circulation.

[13]  Hiroyuki Hiramatsu,et al.  [Rapid prototyping of the larynx for laryngeal frame work surgery]. , 2004, Nihon Jibiinkoka Gakkai kaiho.

[14]  M. Kalējs,et al.  Rapid prototyping of compliant human aortic roots for assessment of valved stents. , 2009, Interactive cardiovascular and thoracic surgery.

[15]  B. Tomancok,et al.  Cerebrovascular stereolithographic biomodeling for aneurysm surgery. Technical note. , 2004, Journal of neurosurgery.

[16]  Bingheng Lu,et al.  Individually Prefabricated Prosthesis for Maxilla Reconstruction. , 2008, Journal of prosthodontics : official journal of the American College of Prosthodontists.

[17]  C. Kerber,et al.  Rapid prototyping to create vascular replicas from CT scan data: Making tools to teach, rehearse, and choose treatment strategies , 2005, Catheterization and cardiovascular interventions : official journal of the Society for Cardiac Angiography & Interventions.

[18]  J. Guarino,et al.  Rapid Prototyping Technology for Surgeries of the Pediatric Spine and Pelvis: Benefits Analysis , 2007, Journal of pediatric orthopedics.

[19]  W. Paiva,et al.  Aplication of the stereolithography technique in complex spine surgery. , 2007, Arquivos de neuro-psiquiatria.

[20]  Brendon M. Baker,et al.  Rapid casting of patterned vascular networks for perfusable engineered 3D tissues , 2012, Nature materials.

[21]  Vladimir Mironov,et al.  Organ printing: computer-aided jet-based 3D tissue engineering. , 2003, Trends in biotechnology.

[22]  C. Hurson,et al.  Rapid prototyping in the assessment, classification and preoperative planning of acetabular fractures. , 2007, Injury.

[23]  F. Migliavacca,et al.  Use of rapid prototyping models in the planning of percutaneous pulmonary valved stent implantation , 2007, Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine.

[24]  Karupppasamy Subburaj,et al.  Rapid development of auricular prosthesis using CAD and rapid prototyping technologies. , 2007, International journal of oral and maxillofacial surgery.