Occlusion-Fit Three-Dimensional-Printed Zygoma Repositioner

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MeSH: Dental Occlusion ; Facial Asymmetry / surgery ; Humans ; Printing, Three-Dimensional* ; Reconstructive Surgical Procedures* / instrumentation ; Reconstructive Surgical Procedures* / methods ; Reoperation ; Surgery, Computer-Assisted* / instrumentation ; Surgery, Computer-Assisted* / methods ; Treatment Outcome ; Zygoma / surgery*

Abstract: Reduction malarplasty is utilized to reshape the facial form into an oval shape. However, complications and unfavorable results in reduction malarplasty have been reported. Reoperation of a nonunion malar complex is difficult relative to the achievement of a satisfactory outcome using the intraoral approach with a narrow surgical field because the normal anatomy has been destroyed, and previous surgery may have caused asymmetry. In this situation, computer-aided simulation surgery and surgical guides can serve as effective solutions to overcome the limitations of reoperative malarplasty using the intraoral approach.In this report, the authors present a case with successful treatment outcomes for a nonunion malar complex using a three-dimensional-printed zygoma repositioner.

Full Text: https://journals.lww.com/jcraniofacialsurgery/Fulltext/2018/05000/Occlusion_Fit_Three_Dimensional_Printed_Zygoma.44.aspx

Appears in Collections:: 2. College of Dentistry (치과대학) > Dept. of Dental Biomaterials and Bioengineering (치과생체재료공학교실) > 1. Journal Papers

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