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J Thorac Cardiovasc Surg 1996;112:1116-1117
© 1996 Mosby, Inc.

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CLOSURE WITH BRONCHIAL WALL FLAP AND OMENTAL PEDICLE OF DEFECT CAUSED BY DEHISCENCE OF TRACHEAL SUTURE LINE AFTER EXTENDED RIGHT UPPER SLEEVE LOBECTOMY

Yokohama, Japan

From the Department of Thoracic and Cardiovascular Surgery, Showa University Fujigaoka Hospital, Yokohama, Japan.

Received for publication March 4, 1996 Accepted for publication March 18, 1996. One of the most serious complications of tracheal and bronchial reconstruction is dehiscence involving such a large area that no method can ensure reliable repair. We encountered such a case after performing a right upper sleeve lobectomy with right tracheal lateral wall resection. We repaired the tracheal defect with the wall of the lower lobe bronchus, which we had to resect when the right completion pneumonectomy was performed. In addition, we used a pedicled omental flap. After the completion pneumonectomy with the bronchial wall patch for the tracheal defect, the patient's progress has been uneventful for 1 years.

A 71-year-old man underwent extended right upper sleeve lobectomy for lung cancer that had invaded the main bronchus and the lower trachea. The first pair of frozen-section specimens taken from the tracheal and bronchial walls at operation found to contain tumor. The tracheal wall was therefore resected from the carina up to the side wall of the fourth tracheal ring. Distally, the resection extended to the ramification of the middle and lower lobe bronchi. The difference in caliber between the two anastomotic sites was large, as was the distance between the highest portion of the tracheal opening and the proximal end of the distal bronchus. We sutured the upper portion of the tracheal defect transversely to reduce the caliber of the tracheal opening and to anastomose the upper part of the tracheal orifice to the distal bronchus. The new tracheal orifice was then anastomosed to the bronchus intermedius. After the operation, there were no clinical findings suggesting complications. Bronchoscopy performed on the seventeenth postoperative day, however, revealed dehiscence on the proximal suture lines (Fig. 1, A).

View larger version (30K): [in this window] [in a new window]   Fig. 1.A, Oblique posterior view. Dehiscence of anastomosis of lower tracheal wall and bronchus intermedius. B, Trimmed flap made from lower-lobe bronchus was preserved with a few remaining sutures to trachea. C, Bronchial flap was turned upward and sutured to defect on lower lateral wall of trachea.

Serial bronchoscopy revealed no complications of the suture line, and the grafted bronchus looked normal. The patient had an uneventful postoperative course for about 1 years.

Tracheobronchoplasty occasionally entails problems in anastomosis, especially when the area of resected tissue is quite large. If in such cases dehiscence of the suture line occurs, repair of the tracheobronchial wall becomes more difficult because of the limited tissue available. Mathisen, Grillo, and Vlahakes ¹ reported the use of omentum in complicated thoracic problems, where it induces neovascularity and healing of the infected wound. Our patient required both of these capabilities, promotion of neovascularity of the graft patched over the defect and treatment of the intrathoracic infection caused by the dehiscence. There have been reports on a number of different patches, such as skin, pericardial tissue, and perichondrium, to close tracheal or bronchial defects. Pedicled pericardial flaps were advocated by Smolle-Jüettner and colleagues ² for closure of bronchial defects. The patients in that series, however, underwent primary operations and had no coexisting inflammation. A pericardial flap alone might not control infection around a dehiscence. Because our patient had accompanying local infection, an omental flap was necessary, regardless of the type of patch chosen. The bronchial patch was considered the best choice because it has been shown that mucociliary epithelium of the graft is preserved and regenerates after autotransplantation. ³ Experimentally, tracheal autografts with omental flaps have also been proved reliable when used in pigs and dogs. ^4,5

To our knowledge, there have been no clinical reports demonstrating the efficacy of an autograft of the bronchus and an omental flap to patch a tracheal defect. The procedure described here may be applied in operations for cancer involving the trachea or the main bronchus but without tumor at the level of the lobar or segmental bronchi.

References

1. Mathisen DJ, Grillo HC, Vlahakes GJ. The omentum in the management of complicated cardiovascular problems. J Thorac Cardiovasc Surg 1988;95:677-84.[Abstract]
   
2. Smolle-Jüettner FM, Pinter H, Pongratz G, Ratzenhofer B, Popper H, Friehs G. Closure of bronchial defects using a pedicled pericardial flap. Ann Thorac Surg 1993;56:923-6.[Abstract]
   
3. Inayama Y, Tomiyama I, Akaike M, Kase M, Nakayama H, Morohosi T, et al. Morphologic alterations and cytokinetic studies of tracheal autograft epithelium in rabbits. Ann Thorac Surg 1995;60:952-7.[Abstract/Free Full Text]
   
4. Messineo A, Filler RM, Bahoric B, Smith C, Bahoric A. Successful tracheal autotransplantation with a vascularized omental flap. J Pediatr Surg 1991;26:1296-300.[Medline]
   
5. Morgan E, Lima O, Goldberg M, Ferdman A, Luk SK, Cooper JD. Successful revascularization of totally ischemic bronchial autografts with omental pedicle flaps in dogs. J Thorac Cardiovasc Surg 1982;84:204-10.[Abstract]
   

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