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Tracheal laceration following double-lumen intubation during Ivor Lewis esophagogastrectomy

Department of Thoracic Surgery, Theagenio Cancer Hospital, A. Simeonidi 2, 54007, Thessaloniki, Greece

Received 25 November 2007; received in revised form 3 February 2008; accepted 25 March 2008

*Corresponding author. Tel.: +30 2310 898304.

E-mail address: nibarb{at}otenet.gr (N. Barbetakis).

	Abstract

Top Abstract 1. Introduction 2. Case report 3. Discussion References

 
A case of a 48-year-old man with an iatrogenic membranous tracheal wall rupture after double-lumen intubation during Ivor Lewis esophagogastrectomy is presented. Tracheal injury was successfully managed surgically with the use of a bovine pericardial patch and reinforcement with the gastric conduit which was moved toward the posterior wall of the membranous trachea sealing the wall laceration.

Key Words: Membranous trachea; Rupture; Intubation; Esophagogastrectomy

	1. Introduction

Top Abstract 1. Introduction 2. Case report 3. Discussion References

 
Iatrogenic injuries of the membranous trachea are rare but potentially lethal and can complicate procedures such as endotracheal intubation, mediastinoscopy, percutaneous tracheostomy and excision of neoplasms with mediastinal involvement. Statistically women are more predisposed to this than men [1]. Further risk factors include poor medical condition, short stature, use of steroids, previous chemotherapy and mediastinal radiotherapy. A case of a 48-year-old man with an iatrogenic membranous tracheal wall rupture after double-lumen intubation during Ivor Lewis esophagogastrectomy is presented. Tracheal injury was successfully managed surgically with the use of a bovine pericardial patch and reinforcement with the gastric conduit which was moved toward the posterior wall of the membranous trachea sealing the wall laceration.

	2. Case report

Top Abstract 1. Introduction 2. Case report 3. Discussion References

 
A 48-year-old man was admitted to our department with the diagnosis of an adenocarcinoma of the gastroesophageal junction. Preoperative staging was negative for distant metastases. Endoscopic ultrasound findings confirmed the presence of a locally advanced tumor and, as a consequence, preoperative synchronous chemoradiotherapy was proposed. Ten days later, he underwent a new preoperative staging and was eligible for an Ivor Lewis esophagogastrectomy. The patient was intubated with a left-sided 37-F double-lumen endotracheal tube. The abdominal part of the operation was uneventful. During the second phase and while the intrathoracic esophagus was being mobilized a hissing noise was heard and a careful inspection revealed part of the double-lumen tube and the inflated tracheal cuff to protrude through the ruptured membranous tracheal wall into the operating field. This resulted in an approximately 3x1 cm oval-shaped laceration of membranous trachea, extending to 1 cm above the carina (Fig. 1). The ventilation and oxygenation of the patient could now only be continued by occlusion of the tear by the surgeon's finger and subsequently by a surgical gauze swab. Our first attempt was primary interrupted suturing which failed and resulted in enlargement of the laceration, probably due to the previous chemoradiotherapy. Tracheal repair was then performed by tailoring and suturing a bovine pericardial patch, using a running Vicryl 4-0 suture. This led to control of the leakage and normal ventilation was reinstituted. The main operation was completed by performing a typical Ivor Lewis esophagogastrectomy with a 2-field lymphadenectomy. Esophagogastric continuity was restored with an end-to-end anastomosis using an EEA 25 mm circular stapling device.

View larger version (172K): [in this window] [in a new window]   Fig. 1. Oval-shaped laceration of membranous trachea extended to 1 cm above the carina (arrow).

View larger version (163K): [in this window] [in a new window]   Fig. 2. The gastric conduit (double arrow) was moved toward the posterior wall of the membranous trachea by means of single interrupted non-absorbable 3-0 Prolene sutures which were placed between the stomach and the lowest edge of the rigid tracheal rings (arrow). (Asterisk – esophagogastric anastomosis).

	3. Discussion

Top Abstract 1. Introduction 2. Case report 3. Discussion References

Several adjuncts are helpful for placing or confirming double-lumen tube position. These include dual capnography, spirometry and even obtaining a chest radiograph after tube placement. These methods are usually not practical in the routine clinical setting. The most popular means of placing or reconfirming the position of a double-lumen tube is with a fiberoptic bronchoscope. Many studies have reported that a double-lumen tube may not be an ideal position when auscultation and clinical signs alone are used to position the tube. The ideal position is usually defined in studies as viewing the blue proximal edge of the inflated bronchial cuff immediately below the carina in the appropriate bronchus [5].

Iatrogenic tracheal rupture involves almost exclusively the membranous trachea. Early recognition with prompt surgery is the gold standard of managing such cases, although small tears can be managed conservatively [6]. In general tracheobronchial ruptures of the middle and lower third are operated on through a right and, in rare exceptional cases, a left thoracotomy [7]. The approach to injuries in the upper third of the trachea is the left cervical side. Angelillo-Mackinlay proposes a transcervical access in the sense of a mediastinotomy for injuries to the distal trachea, which is, nevertheless, fairly controversial, due to the creation of additional trauma (longitudinal tracheotomy) [8]. For the repair, patients should be intubated using a double-lumen tube. A single lumen tube with position in the contralateral main bronchus or high-frequency jet ventilation can be used alternatively. However, disadvantages of the jet ventilation technique are the tendency to produce carbon dioxide retention and the danger of blood aspiration into the bronchial system. After limited lateral and posterior paratracheal dissection, the injury is repaired by interrupted or running absorbable suture, sometimes covered with mediastinal fat or pleural flap and/or by fibrin glue [9]. Direct suture of a tracheal rupture in a patient previously treated with chemoradiotherapy is not an option as this was proved in our case and resulted in enlargement of the laceration. Our technique adopted here, was based on the competence of the gastric wall to sustain the tension against the tracheal rings and furthermore to push the bovine pericardial patch toward the posterior wall, sealing the tear. The above-mentioned technique is proposed for surgical management of tracheal wall lacerations as it proved safe, effective and not technically demanding. The use of an endotracheal stent could be proposed but the urgent situation (almost impossible ventilation and oxygenation) led us to resolve the problem surgically. However, the employment of a covered expandable stent should be considered for the treatment of a tracheal or bronchial tear. The development of these stents represents an effective, direct and less invasive means of sealing tracheal tears [10]. Stent deployment commits the patient to continued outpatient surveillance to monitor for complications. Although uncommon these include granulation tissue formation, stent migration, halitosis and recurrent respiratory tract infections [10].

Iatrogenic tracheobronchial ruptures are mainly caused by emergency intubations [1]. Percutaneous dilational tracheostomies and double-lumen intubations do not show higher signs of complications compared with single-lumen intubations or conventional tracheotomies, if they are accompanied by verification through bronchoscopy [1]. Patients without any respiratory failure and a small tracheobronchial rupture may undergo conservative treatment. They must be checked by repeated bronchoscopies to detect granulation tissue and relevant tracheal stenosis. Early surgical treatment of the latter must be the therapy of choice.

	References

Top Abstract 1. Introduction 2. Case report 3. Discussion References

 

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5. Fitzmaurice BG, Brodsky JB. Airway rupture from double-lumen tubes. J Cardiothorac Vasc Anesth 1999;13:322–329.[CrossRef][Medline]
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7. Gabor S, Renner H, Pinter H, Sankin O, Maier A, Tomaselli F, Smolle Juttner FM. Indications for surgery in tracheobronchial ruptures. Eur J Cardiothorac Surg 2001;20:399–404.[Abstract/Free Full Text]
8. Angelillo-Mackinlay T. Transcervical repair of distal membranous tracheal laceration. Ann Thorac Surg 1995;59:531–532.[Abstract/Free Full Text]
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				C. N. Foroulis eComment: Autologous or bovine pericardial patch for the repair of membranous tracheal wall lacerations? Interactive CardioVascular and Thoracic Surgery, October 1, 2008; 7(5): 868 - 868. [Full Text] [PDF]

				N. Barbetakis, G. Samanidis, D. Paliouras, and C. Tsilikas eResponse: Should autologous irradiated pericardium be used for tracheal lacerations? Interactive CardioVascular and Thoracic Surgery, October 1, 2008; 7(5): 868 - 868. [Full Text] [PDF]

This Article Abstract Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Citation Map Services Email this article to a friend Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Add to Personal Folders Download to citation manager Author home page(s): Nikolaos Barbetakis Permission Requests Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Barbetakis, N. Articles by Tsilikas, C. Search for Related Content PubMed PubMed Citation Articles by Barbetakis, N. Articles by Tsilikas, C. Related Collections Related Articles