Benjamin D Schultz1, Michael Sosin, Arthur Nam, Raja Mohan, Peter Zhang, Saami Khalifian, Neil Vranis, Paul N Manson, Branko Bojovic, Eduardo D Rodriguez. 1. Baltimore, Md.; and New York, N.Y. From the Division of Plastic, Reconstructive and Maxillofacial Surgery, R Adams Cowley Shock Trauma Center; the Department of Plastic and Reconstructive Surgery, The Johns Hopkins University School of Medicine; the University of Maryland School of Medicine; and the Department of Plastic Surgery, New York University Langone Medical Center, Institute of Reconstructive Plastic Surgery.
Abstract
BACKGROUND: Composite mandibular tissue loss results in significant functional impairment and cosmetic deformity. This study classifies patterns of mandibular composite tissue loss and describes a microvascular treatment algorithm. METHODS: A retrospective review of microvascular composite mandibular reconstruction from July of 2005 to April of 2013 by the senior surgeon at the R Adams Cowley Shock Trauma Center and at The Johns Hopkins Hospital yielded 24 patients with a mean follow-up of 17.9 months. Causes of composite mandibular defects included tumors, osteoradionecrosis, trauma, infection, and congenital deformity. Patients with composite tissue loss were classified according to missing subunits. RESULTS: A treatment algorithm based on composite mandibular defects and microvascular reconstruction was developed and used to treat 24 patients. A type 1 defect is a unilateral dentoalveolar defect not crossing the midline and not extending into the angle of the mandible. A type 2 defect is a unilateral defect extending beyond the angle. A type 3 defect is a bilateral defect not involving the angles. A type 4 defect is a bilateral defect with extension into at least one angle. Type 2 defects were the predominant group. Patients had microvascular reconstruction using either fibula flaps (n = 19) or iliac crest flaps (n = 5). Complications included infection, partial necrosis, plate fracture, dehiscence, and microvascular thrombosis. CONCLUSION: This novel classification system and treatment algorithm allows for a consistent and reliable method of addressing composite mandibular defects and focuses on recipient vasculature and donor free flap characteristics.
BACKGROUND: Composite mandibular tissue loss results in significant functional impairment and cosmetic deformity. This study classifies patterns of mandibular composite tissue loss and describes a microvascular treatment algorithm. METHODS: A retrospective review of microvascular composite mandibular reconstruction from July of 2005 to April of 2013 by the senior surgeon at the R Adams Cowley Shock Trauma Center and at The Johns Hopkins Hospital yielded 24 patients with a mean follow-up of 17.9 months. Causes of composite mandibular defects included tumors, osteoradionecrosis, trauma, infection, and congenital deformity. Patients with composite tissue loss were classified according to missing subunits. RESULTS: A treatment algorithm based on composite mandibular defects and microvascular reconstruction was developed and used to treat 24 patients. A type 1 defect is a unilateral dentoalveolar defect not crossing the midline and not extending into the angle of the mandible. A type 2 defect is a unilateral defect extending beyond the angle. A type 3 defect is a bilateral defect not involving the angles. A type 4 defect is a bilateral defect with extension into at least one angle. Type 2 defects were the predominant group. Patients had microvascular reconstruction using either fibula flaps (n = 19) or iliac crest flaps (n = 5). Complications included infection, partial necrosis, plate fracture, dehiscence, and microvascular thrombosis. CONCLUSION: This novel classification system and treatment algorithm allows for a consistent and reliable method of addressing composite mandibular defects and focuses on recipient vasculature and donor free flap characteristics.
Authors: Matthew T Joy; Christopher D Liao; William P Magdycz; Albert W Parulis; James T Thompson Journal: Plast Reconstr Surg Glob Open Date: 2019-10-15
Authors: Andrée-Anne Roy; Johnny I Efanov; Geneviève Mercier-Couture; André Chollet; Daniel E Borsuk Journal: Plast Reconstr Surg Glob Open Date: 2017-02-03