HOME HELP FEEDBACK SUBSCRIPTIONS ARCHIVE SEARCH TABLE OF CONTENTS		QUICK SEARCH:   [advanced] Author: Keyword(s): Year:  Vol:  Page:

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 Permission Requests Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Amorós, J. M. Articles by Díaz, P. Search for Related Content PubMed PubMed Citation Articles by Amorós, J. M. Articles by Díaz, P. Related Collections Anesthesia Mediastinum Trachea and bronchi Esophagus - other

Eur J Cardiothorac Surg 2006;29:35-39
© 2006 Elsevier Science NL

Tracheal and cricotracheal resection for laryngotracheal stenosis: experience in 54 consecutive cases

^a Department of Thoracic Surgery, Hospital Universitari de Bellvitge, L’Hospitalet del Llobregat, Barcelona, Spain
^b Department of Anaesthesiology and Reanimation, Hospital Universitari de Bellvitge, L’Hospitalet del Llobregat, Barcelona, Spain
^c Laser Unit, Hospital Universitari de Bellvitge, L’Hospitalet del Llobregat, Barcelona, Spain

Received 28 July 2005; received in revised form 12 October 2005; accepted 17 October 2005.

^_* Corresponding author. Present address: C/Bruc 44-46, entl°-1^a, 08950-Esplugues, Barcelona, Spain. Tel.: +34 93260770; fax: +34 932607983. (Email: jmoya{at}ub.edu).

	Abstract

Top Abstract 1. Introduction 2. Methods 3. Results 4. Discussion References

 
Objective: Partial tracheal resection (Küster operation (KO)) and cricotracheal resection (Pearson operation (PO)) are currently the standard operative techniques in the curative treatment of tracheal and cricotracheal stenosis, respectively. This study aims to analyze the outcomes of tracheal and cricotracheal resection when a specific protocol is applied. Methods: Between 1990 and 2004 we treated 54 patients with laryngotracheal stenosis. The mean age was 44.9 years with a sex ratio of 1:1. All patients were treated according to the random protocol "Lesions of the main airway (MA) protocol," which considers the following stenosis variables: stage of development (S), caliber (C), and length (L). We performed 38 Küster operations, 14 Pearson operations, and 2 combined Pearson–Küster–Rethi operations (ROs). Results: Overall mortality of the series was 1.85%, with a specific morbidity of 27.7%. A total of 96.2% of patients were cured (85.6% of Pearson operation and 100% of Küster operation). We performed 3.7% re-interventions (14.2% of Pearson operation and 0% of Küster operation), and the failure rate was 3.7% (14.4% of Pearson operation and 0% of Küster operation). We had 27.5% who had postoperative complications (28.5% of Pearson operation and 26.3% of Küster operation). The most frequent complications were restenosis (14.2%), granulation tissue (13.1%), edema (10.5%), anastomotic dehiscence (7.1%), and tracheoesophageal fistula (7.1%). In terms of the SCL variables, significant differences were only observed with respect to morbidity between the S4 group and the other cases without tracheoesophageal fistula in the Küster operation group; we found no differences in Pearson operation. Conclusions: Application of the Main Airway protocol allowed development of a strategy for the surgical treatment of main airway stenosis. This, in turn, enabled a strict selection of cases and meticulous preoperative preparation that, coupled with a highly effective surgical technique, led to excellent outcomes with minimal sequel. The presence of tracheoesophageal fistula could increase the complications.

Key Words: Laryngotracheal stenosis • Tracheal resection • Cricotracheal resection • Tracheoesophageal fistula

	1. Introduction

Top Abstract 1. Introduction 2. Methods 3. Results 4. Discussion References

 
Within the field of main airway (MA) surgery, controversy remains as to which technique should be used: conservative treatments [1] (laser and endotracheal prosthesis) or full-scale surgery. The usual pathologies requiring this type of treatment are inflammatory stenosis of the trachea and/or tracheoesophageal fistulas in critical patients on artificial ventilation [2], and less frequently in the case of traumatic lesions, tracheal and/or mediastinum tumors.

Currently, the standard techniques used in the curative treatment of tracheal and cricotracheal stenosis are the segmental resection and anastomoses of the trachea, respectively, by means of the Küster operation (KO) [3] and cricotracheal resection through the Pearson operation (PO) [4]; the Rethi operation (RO) [5] is reserved for cases of glottic and subglottic stenosis. Most of the research in this area has taken the form of retrospective studies [6–13], thus illustrating the difficulty of standard therapeutic indications.

The aim of the present study was to analyze the outcomes of tracheal and cricotracheal resection when applying a specific protocol.

	2. Methods

Top Abstract 1. Introduction 2. Methods 3. Results 4. Discussion References

 
The sample comprised 54 patients operated on consecutively between January 1990 and October 2004. Paper information about the technique, results, and complications were given during the first consultation. This study is a review of a prospectively gathered database. It was approved by our institutional committee on human research, and all patients provided written informed consent.

The etiology of the benign stenosis (whether or not associated with a tracheoesophageal fistula) was prolonged intubation or post-tracheostomy for cardiorespiratory resuscitation; no cases of idiopathic stenosis were observed. Table 1 shows the specific baseline pathology of the patients. Systematic bronchoscopy was performed in all cases; neck and chest computerized tomography (CT) and/or nuclear magnetic resonance (NMR) were carried out in 49 patients (90.74%); and the flow/volume (F/V) curve was applied in non-tracheostomy cases. Follow-up was completed in all patients from 2 month to 12 years, with a median follow-up of 36 months; the evaluation included bronchoscopy, neck and chest CT scan, and F/V curve monthly for 3 months.

During exeresis and anastomosis, the surgical field was kept ventilated by means of a distal intubation tube. In the cricoid resection (PO), the anterior and lateral portions of the cartilage were removed, sparing the perichondrium and mucosa; with the aim of sparing the caudal laryngeal nerves, rongeur forceps were used until reaching the thyrocricoid joint, described by Couraud et al. [8].

On one occasion, the tracheobronchial bifurcation was released to reduce the tension in the anastomosis line, which was not necessary to carry out the Dedo [14] maneuver. In seven cases of PO in which the suture was placed very close to the vocal chords, a Montgomery [15] T-tube was inserted for greater safety and remained in place for 18 months. The patients were extubated in the operating room and were kept under observation for 48 h the intensive care unit.

2.2 "Lesions of the main airway (MA)" protocol
In 1990 our hospital began to apply the "Diagnostic and Therapeutic MA protocol" (Tables 2 and 3 ). This protocol classified the inflamed laryngotracheal stenosis according to a topographic and lesional criteria, incorporating three independent variables: stage of development (S), caliber (C) and length (L). This protocol was approved by the Institutional Ethics Committee.

The mean age was 44.9 years (range, 18–79) with a sex ratio of 1:1. The etiology of the stenosis was prolonged intubation and/or tracheostomy in 47 cases, with a mean intubation time of 9 days (range, 2–26); seven patients had neoplastic stenosis with tracheal invasion. In 43 cases, surgery was performed without applying a prosthesis; in seven patients a Montgomery T-tube was inserted; and in four cases an endotracheal prosthesis was fitted.

	3. Results

Top Abstract 1. Introduction 2. Methods 3. Results 4. Discussion References

 
The overall mortality of the series was 1.85%, with a specific morbidity of 27.7%. A total of 96.2% of patients were cured; the figures for re-intervention and minor procedures were 3.7% and 24%, respectively, with a failure rate of 3.7%. Below, the results are analyzed according to the type of intervention.

3.1 Küster operation
This operation was performed in 38 cases (17 stenosis, 14 tracheoesophageal fistulas, and 7 neoplastic tumors). One case (2.63%) died 5 days after surgery due to a post-traumatic aneurysm of the internal carotid artery.

The specific morbidity was 26.3%: one case showed suture dehiscence in the anterior face of the anastomosis (2.6%) with subsequent formation of granulomas, requiring the insertion of a Montgomery T-tube; four cases (10.5%) presented with edema in the anastomosis, which was resolved by endotracheal prosthesis; and five cases (13.1%) presented granuloma tissue that was treated by laser. There were no re-interventions.

In terms of the SCL variables, significant differences were only observed with respect to morbidity between the S4 group and the other cases without tracheoesophageal fistula.

In the subgroup receiving radical treatment for tracheoesophageal fistula (Table 5), the S4 variable presented a specific morbidity of 50% compared with 25% for the variables S1, S2, and S3. The S4 variable was also associated with 28.5% granulomas, 14.2% vocal chord paralysis, and 7.1% tracheal restenosis. Five minor procedures were carried out, with the evolution of one case remaining pending.

The cure rate for this type of intervention was 100%, and minor procedures were performed in 26.3% of cases but there was no re-intervention (Table 6 ).

Complications were not related to the SCL variables. The cure rate for this subgroup was 85.7%, and the failure rate was 14.2% (Table 7 ).

	4. Discussion

Top Abstract 1. Introduction 2. Methods 3. Results 4. Discussion References

 
The present study concerns a group of patients who, after application of the MA protocol, were assigned either to surgery or conservative treatment, thus enabling selection of surgical stages. In a previous report [1], we described the benefits of conservative treatment with laser and/or endotracheal prostheses.

When consulting surgical reports on this issue [6–13,16], we noticed the lack of prospective protocols despite the extensive experience of the authors in question. Mortality was found to range from 0% to 24% (Table 8 ). For example, in an extensive series [13] of 503 patients, the figure was 2.4% with major complication rates of 13.9% (trachea–trachea anastomosis, KO), 15.4% (trachea–cricoid anastomosis), and 12.9% (trachea–thyroid anastomosis, PO), respectively. For the same series, the therapeutic failure rates were 2.2%, 6.0%, and 8.1% of the above-mentioned levels of anastomosis, respectively.

In the extensive series reported by Grillo et al. [13], outcomes were good in 84.9% of cases and satisfactory in 5.3%, with 3.6% having re-interventions, and 3.8% failures. Mortality in this series was 2.6% in cases of stenosis without tracheoesophageal fistula and 5% in those with such a fistula. In our study of 54 patients with stenosis (both benign and malignant), outcomes were good overall in 96.2%, with a failure rate of 3.7% (0% in KO and 13.7% in PO). In terms of the 38 cases of tracheal resection (KO), 14 presented with a fistula and the following results were found:

• In the tracheal resection (KO) without fistula group (variables S1, S2, and S3), the specific morbidity was 25% (major complications 4.1%, minor complications 20.9%), and no mortality was recorded. The cure rate for this group was 100%, and 25% required endoscopic and/or prosthetic procedures.

• In cases of tracheal resection (KO) for tracheoesophageal fistula (S4), the specific morbidity was 50.0% (major complications 21.3%, minor complications 28.5%), and no mortality was recorded. The cure rate for this group was 100% without re-intervention and 26.3% required endoscopic procedures.

We believe that the highly satisfactory nature of the outcomes was due to protocol-based selection, which enabled the specialists involved (intensive care staff, surgeons, otorhinolaringologists, and endoscopy technicians) to agree on the best approach and thus undoubtedly improve the quality of life of these patients.

Application of the MA protocol in the surgical treatment of tracheal and cricotracheal stenosis, with or without tracheoesophageal fistulas, has enabled a more objective selection of cases that may be cured at the first attempt. The outcomes obtained were excellent or good in 96.2% of cases, with an overall failure rate of 3.7% (0% in tracheal resection and 13.7% in cricotracheal resection). These highly satisfactory outcomes may be related to the protocol-based selection of cases; surgery was reserved for potentially curable states, and we chose the most suitable moment in the evolution of the process and the optimum conditions for favoring good scar-tissue formation.

Our prospective study demonstrated that evaluating and cataloguing the SCL-independent variables enabled the development of stage reference that subsequently was applied to determine and perform the most appropriate intervention for each specific case of laryngotracheal stenosis. Application of the MA protocol has resulted in excellent outcomes of surgical treatment, highlighting the benefit of standardization of the protocol for daily use in the clinic.

	References

Top Abstract 1. Introduction 2. Methods 3. Results 4. Discussion References

 

1. Martinez JB, Diaz PJ, Castro M, Moya JM. Silicone stents in management of benign tracheobronchial stenosis. Tolerance and early results in 63 patients. Chest 1996;3:626-629.
2. Truchero CC, Moya JM. Estudio prospectivo de la estenosis traqueal en pacientes críticos con ventilación mecánica, mediante intubación traslaríngea y transtraqueal. Med Intensiva 1992;16(Suppl. 1):190-191.
3. Küster E. Über narbige Stenosen der Trachea. Zentralbl Chir 1886;13:759-760.
4. Pearson FG, Cooper JD, Nelems JM, Van Nostrand AWP. Primary tracheal anastomosis after resection of the cricoid cartilage with preservation of recurrent laryngeal nerves. J Thorac Cardiovasc Surg 1975;70:806-815.[Abstract]
5. Rethi A. An operation for cicatricial stenosis of the larynx. J Laryngol 1956;70:283-289.
6. Canto AA, Moya JM, Aguilo RE, Saumench JG, Villalonga RB, Pujol RR, Ferrer GR, Morera RR. Estenosis laringotraqueales postintubación. Consideraciones sobre 41 casos. Arch Bronconeumol 1988;24:3-9.
7. Couraud L, Bruneteau A, Martigne C, Meriot C. Prevention and treatment of complications and sequelae of tracheal resection and anastomosis. Int Surg 1982;67:235-239.[Medline]
8. Couraud L, Jougon J, Velly JF, Klein C. Sténoses iatrogénes de la voie espiratoire. Evolution des indication thérapeutiques. A partir de 217 cas chirurgicaux. Ann Chir Thorac Cardiovasc 1994;12:359-374.
9. Grillo HC. Circumferential resection and reconstruction of mediastinal and cervical trachea. Ann Surg 1965;162:374-388.[Medline]
10. Grillo HC. Reconstruction of the trachea. Experience in 100 consecutive cases. Thorax 1973;28:667-679.[Abstract/Free Full Text]
11. Grillo HC, Zannini P, Michelassi F. Complications of tracheal reconstruction: incidence, treatment and prevention. J Thorac Cardiovasc Surg 1986;91:322-328.[Abstract]
12. Grillo HC, Mathisen DJ, Wain JC. Laryngotracheal resection and reconstruction for subglottic stenosis. Ann Thorac Surg 1992;53:54-63.[Abstract]
13. Grillo HC, Donahue DM, Mathisen DJ, Wain JC, Wright CD. Postintubation tracheal stenosis. Treatment and results. J Thorac Cardiovasc Surg 1995;109:486-493.[Abstract/Free Full Text]
14. Dedo HH. Surgery of the larynx and trachea. Philadelphia: BC Decker; 1990p. 182.
15. Montgomery WW. T-tube tracheal stent. Arch Otolaryngol 1965;82:320-321.[Abstract/Free Full Text]
16. Rea F, Callegaro D, Loy M, Zuin A, Narne S, Gobbi T, Grapeggia M, Sartori F. Benign tracheal and laryngotracheal stenosis: surgical treatment and results. Eur J Cardiothorac Surg 2002;22:352-356.[Abstract/Free Full Text]
17. Donahue DM, Grillo HC, Wain JC, Wright CD, Mathisen DJ. Reoperative tracheal resection and reconstruction for unsuccessful repair of postintubation stenosis. J Thorac Cardiovasc Surg 1997;114:934-939.[Abstract/Free Full Text]
18. Rehbar R, Valdez TA, Shapshay SM. Preliminary results of intraoperative mitomycin-C in the treatment and prevention of glottic and subglottic stenosis. J Voice 2000;14:282-286.[CrossRef][Medline]
19. Hartnick CJ, Hartley BEJ, Lacy PD, Liu J, Bean JA, Willging JP, Myer III M, Cotton RT. Topical mitomycin application after laryngotracheal reconstruction: a randomized, double-blind, placebo-controlled trial. Arch Otolaryngol Head Neck Surg 2001;127:1250-1254.
20. Tarazona VH. Límites de la cirugia de resección traqueal. Rev Patol Respir 2001;4(Suppl. 1):11-12.

This article has been cited by other articles:

				T. Krajc, M. Janik, R. Benej, M. Lucenic, I. Majer, J. Demian, and S. Harustiak Urgent segmental resection as the primary strategy in management of benign tracheal stenosis. A single center experience in 164 consecutive cases Interactive CardioVascular and Thoracic Surgery, December 1, 2009; 9(6): 983 - 989. [Abstract] [Full Text] [PDF]

				I. Cordos, C. Bolca, C. Paleru, R. Posea, and R. Stoica Sixty tracheal resections - single center experience Interactive CardioVascular and Thoracic Surgery, January 1, 2009; 8(1): 62 - 65. [Abstract] [Full Text] [PDF]

				G. Marulli, G. Rizzardi, L. Bortolotti, M. Loy, C. Breda, A.-M. Hamad, F. Sartori, and F. Rea Single-staged laryngotracheal resection and reconstruction for benign strictures in adults Interactive CardioVascular and Thoracic Surgery, April 1, 2008; 7(2): 227 - 230. [Abstract] [Full Text] [PDF]

				A. D'Andrilli, A. M. Ciccone, F. Venuta, M. Ibrahim, C. Andreetti, D. Massullo, R. Formisano, and E. A. Rendina Long-term results of laryngotracheal resection for benign stenosis Eur. J. Cardiothorac. Surg., March 1, 2008; 33(3): 440 - 443. [Abstract] [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 Permission Requests Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Amorós, J. M. Articles by Díaz, P. Search for Related Content PubMed PubMed Citation Articles by Amorós, J. M. Articles by Díaz, P. Related Collections Anesthesia Mediastinum Trachea and bronchi Esophagus - other