OBJECTIVE: Patients with complicated airway defects that exceed the limits of primary repair represent a challenging clinical problem and require alternative techniques for repair. The aim of this study was to evaluate bioprosthetic reconstruction of large tracheal and bronchial defects. METHODS: Retrospective chart review of patients treated at a single tertiary center from 2008 to 2015 who underwent repair of tracheal or bronchial defects with a bioprosthetic device, namely aortic homograft or acellular dermal matrix. RESULTS: Eight patients, 3 men and 5 women with a mean age of 54 ± 13 years, underwent closure of complex central airway defects with bioprosthetic material. All but 1 patient underwent prior operative or stenting procedures. Three patients had isolated airway defects, whereas 5 had fistulas between the airway and enteric tract. Defects involved the membranous wall of the trachea (n = 5), the anterior wall of the trachea (n = 1), or the main stem bronchus (n = 2). Five reconstructions were with aortic homograft and 3 with acellular dermal matrix. Bioprosthetic material was buttressed with muscle flap (n = 4), omentum (n = 2), or left unbuttressed (n = 2). The airway defect was successfully closed in all patients. There was no postoperative mortality or recurrence of the airway defect in short-term follow-up. Two patients required debridement of granulation tissue and 1 additional patient required airway balloon dilation. Progression of underlying metastatic disease explained the majority of long-term mortality (75%). CONCLUSIONS: Bioprosthetic materials represent a viable option for management of large airway defects, including airway-enteric fistulae, that exceed the limits of primary repair.
OBJECTIVE:Patients with complicated airway defects that exceed the limits of primary repair represent a challenging clinical problem and require alternative techniques for repair. The aim of this study was to evaluate bioprosthetic reconstruction of large tracheal and bronchial defects. METHODS: Retrospective chart review of patients treated at a single tertiary center from 2008 to 2015 who underwent repair of tracheal or bronchial defects with a bioprosthetic device, namely aortic homograft or acellular dermal matrix. RESULTS: Eight patients, 3 men and 5 women with a mean age of 54 ± 13 years, underwent closure of complex central airway defects with bioprosthetic material. All but 1 patient underwent prior operative or stenting procedures. Three patients had isolated airway defects, whereas 5 had fistulas between the airway and enteric tract. Defects involved the membranous wall of the trachea (n = 5), the anterior wall of the trachea (n = 1), or the main stem bronchus (n = 2). Five reconstructions were with aortic homograft and 3 with acellular dermal matrix. Bioprosthetic material was buttressed with muscle flap (n = 4), omentum (n = 2), or left unbuttressed (n = 2). The airway defect was successfully closed in all patients. There was no postoperative mortality or recurrence of the airway defect in short-term follow-up. Two patients required debridement of granulation tissue and 1 additional patient required airway balloon dilation. Progression of underlying metastatic disease explained the majority of long-term mortality (75%). CONCLUSIONS: Bioprosthetic materials represent a viable option for management of large airway defects, including airway-enteric fistulae, that exceed the limits of primary repair.