A Protocol for Resection and Immediate Reconstruction of Pediatric Mandibles Using Microvascular Free Fibula Flaps.

PURPOSE: The use of a vascularized free fibula graft (FFF) for the reconstruction of a mandible in a child with a mandibular tumor is infrequent. The purpose of this study is to report our protocol for resection of mandibular jaw tumors and immediate reconstruction using FFF in pediatric patients. METHODS: This was a retrospective case series of children with a mandibular tumor, which was resected and immediately reconstructed with FFF. All patients were treated via the same staged protocol: 1) presurgical digital planning, 2) surgical intervention (resection and immediate reconstruction), 3) postoperative care in the pediatric intensive unit, and 4) prosthodontic dental rehabilitation. Outcomes were complications and recurrence. Medical records were reviewed to document demographic information, tumor details, surgical interventions, postoperative course, and prosthodontic rehabilitation. RESULTS: Fifteen patients (10 males, average age of 13.7 years) met inclusion criteria. Ten patients had mandibular ameloblastoma. All patients were treated by a dedicated pediatric team and followed the same protocol. The average tumor size was 4.87 × 3.22 × 2.03 cm. Most fibulas (n = 12) had one osteotomy to reestablish mandibular continuity and create appropriate contour. The most common microvascular anastomosis was with a facial artery (n = 13) and the external jugular vein (n = 9). At an average follow-up of 15.5 months, there were only 3 minor donor site complications. Eight implants were placed without complications. No tumors recurred. CONCLUSIONS: The results of this study suggest that pediatric mandibular tumors can be successfully treated using a specific protocol involving resection and immediate reconstruction using FFF with minimal complications and without recurrence.

Genomic strategy identifies a missense mutation in WD-repeat domain 65 (WDR65) in an individual with Van der Woude syndrome.

Genetic variation in the transcription factor interferon regulatory factor 6 (IRF6) causes and contributes risk for oral clefting disorders. We hypothesized that genes regulated by IRF6 are also involved in oral clefting disorders. We used five criteria to identify potential IRF6 target genes; differential gene expression in skin taken from wild-type and Irf6-deficient murine embryos, localization to the Van der Woude syndrome 2 (VWS2) locus at 1p36-1p32, overlapping expression with Irf6, presence of a conserved predicted-binding site in the promoter region, and a mutant murine phenotype that was similar to the Irf6 mutant mouse. Previously, we observed altered expression for 573 genes; 13 were located in the murine region syntenic to the VWS2 locus. Two of these genes, Wdr65 and Stratifin, met 4 of 5 criteria. Wdr65 was a novel gene that encoded a predicted protein of 1,250 amino acids with two WD domains. As potential targets for Irf6 regulation, we hypothesized that disease-causing mutations will be found in WDR65 and Stratifin in individuals with VWS or VWS-like syndromes. We identified a potentially etiologic missense mutation in WDR65 in a person with VWS who does not have an exonic mutation in IRF6. The expression and mutation data were consistent with the hypothesis that WDR65 was a novel gene involved in oral clefting.