Three-Dimensional Analysis of Donor Masks for Facial Transplantation.

BACKGROUND Face transplant teams have an ethical responsibility to restore the donor's likeness after allograft procurement. This has been achieved with masks constructed from facial impressions and three-dimensional printing. The authors compare the accuracy of conventional impression and three-dimensional printing technology. METHODS For three subjects, a three-dimensionally-printed mask was created using advanced three-dimensional imaging and PolyJet technology. Three silicone masks were made using an impression technique; a mold requiring direct contact with each subject's face was reinforced by plaster bands and filled with silicone. Digital models of the face and both masks of each subject were acquired with Vectra H1 Imaging or Artec scanners. Each digital mask model was overlaid onto its corresponding digital face model using a seven-landmark coregistration; part comparison was performed. The absolute deviation between each digital mask and digital face model was compared with the Mann-Whitney U test. RESULTS The absolute deviation (in millimeters) of each digitally printed mask model relative to the digital face model was significantly smaller than that of the digital silicone mask model (subject 1, 0.61 versus 1.29, p < 0.001; subject 2, 2.59 versus 2.87, p < 0.001; subject 3, 1.77 versus 4.20, p < 0.001). Mean cost and production times were $720 and 40.2 hours for three-dimensionally printed masks, and $735 and 11 hours for silicone masks. CONCLUSIONS Surface analysis shows that three-dimensionally-printed masks offer greater surface accuracy than silicone masks. Greater donor resemblance without additional risk to the allograft may make three-dimensionally-printed masks the superior choice for face transplant teams. CLINICAL QUESTION/LEVEL OF EVIDENCE Therapeutic, V.

[1]  Thomas Maal,et al.  Three-Dimensional Imaging of the Face: A Comparison Between Three Different Imaging Modalities , 2018, Aesthetic surgery journal.

[2]  E. Rodriguez,et al.  Dental considerations and the role of prosthodontics and maxillofacial prosthetics in facial transplantation. , 2018, Journal of the American Dental Association.

[3]  S. Weinberg,et al.  Validation of the Vectra H1 portable three-dimensional photogrammetry system for facial imaging. , 2017, International journal of oral and maxillofacial surgery.

[4]  C. Sforza,et al.  An Assessment of How Facial Mimicry Can Change Facial Morphology: Implications for Identification , 2017, Journal of forensic sciences.

[5]  Chiarella Sforza,et al.  A View to the Future: A Novel Approach for 3D–3D Superimposition and Quantification of Differences for Identification from Next‐Generation Video Surveillance Systems , 2017, Journal of forensic sciences.

[6]  A. Dalal Face transplantation: Anesthetic challenges , 2016, World journal of transplantation.

[7]  Mika Salmi,et al.  Three-dimensional printing for restoration of the donor face: A new digital technique tested and used in the first facial allotransplantation patient in Finland. , 2016, Journal of plastic, reconstructive & aesthetic surgery : JPRAS.

[8]  Frank Hölzle,et al.  Evaluation of the accuracy of a mobile and a stationary system for three-dimensional facial scanning. , 2016, Journal of cranio-maxillo-facial surgery : official publication of the European Association for Cranio-Maxillo-Facial Surgery.

[9]  Roberto L. Flores,et al.  Total Face, Eyelids, Ears, Scalp, and Skeletal Subunit Transplant: A Reconstructive Solution for the Full Face and Total Scalp Burn. , 2016, Plastic and reconstructive surgery.

[10]  E. Rodriguez,et al.  The Face Transplantation Update: 2016 , 2016, Plastic and reconstructive surgery.

[11]  L. Levin,et al.  Assessment and Planning for a Pediatric Bilateral Hand Transplant Using 3-Dimensional Modeling: Case Report. , 2016, The Journal of hand surgery.

[12]  E. Caterson,et al.  Cost Analysis of Conventional Face Reconstruction versus Face Transplantation for Large Tissue Defects , 2015, Plastic and reconstructive surgery.

[13]  Mehran Armand,et al.  Restoration of the Donor Face After Facial Allotransplantation: Digital Manufacturing Techniques , 2014, Annals of plastic surgery.

[14]  Theodore L. Gerstle,et al.  A Plastic Surgery Application in Evolution: Three-Dimensional Printing , 2014, Plastic and reconstructive surgery.

[15]  Yi Sun,et al.  Validity of the 3D VECTRA photogrammetric surface imaging system for cranio-maxillofacial anthropometric measurements , 2014, Oral and Maxillofacial Surgery.

[16]  R. Bosc,et al.  Restoration of the Donor after Face Graft Procurement for Allotransplantation: Report on the Technique and Outcomes of Seven Cases , 2012, Plastic and reconstructive surgery.

[17]  Peter Liacouras,et al.  Digital image capture and rapid prototyping of the maxillofacial defect. , 2011, Journal of prosthodontics : official journal of the American College of Prosthodontists.

[18]  J. Gatherwright,et al.  Cost Analysis of Conventional Facial Reconstruction Procedures Followed by Face Transplantation , 2011, American journal of transplantation : official journal of the American Society of Transplantation and the American Society of Transplant Surgeons.

[19]  J. Meningaud,et al.  Face Transplant Graft Procurement: A Preclinical and Clinical Study , 2008, Plastic and reconstructive surgery.

[20]  F. Bellivier,et al.  Repair of the lower and middle parts of the face by composite tissue allotransplantation in a patient with massive plexiform neurofibroma: a 1-year follow-up study , 2008, The Lancet.

[21]  A. Clarke,et al.  An artificial prosthesis to reconstruct donor defects following facial transplantation , 2007, Clinical transplantation.

[22]  Bernard Devauchelle,et al.  First human face allograft: early report , 2006, The Lancet.