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Eur J Cardiothorac Surg 2006;29:1056-1058
© 2006 Elsevier Science NL

How-to-do-it

Modified Damus–Kaye–Stansel procedure using aortic flap technique for systemic ventricular outflow tract obstruction in functionally univentricular heart

^a Department of Cardiovascular Surgery, Kyushu University Hospital, Maidashi 3-1-1, Higashi-ku, Fukuoka 812-8582, Japan
^b Department of Pediatrics, Kyushu University Hospital, Japan

Received 5 January 2006; received in revised form 8 March 2006; accepted 10 March 2006.

^_* Corresponding author. Tel.: +81 92 642 5557; fax: +81 92 642 5566. (Email: masudam{at}heart.med.kyushu-u.ac.jp).

	Abstract

Top Abstract 1. Introduction 2. Patients and methods 3. Results 4. Discussion References

 
Damus–Kaye–Stansel procedure is a useful method to relieve the systemic ventricular outflow tract obstruction in functionally univentricular heart. Regurgitation of pulmonary valve and recurrence of systemic ventricular outflow obstruction are the major concerns at the late phase of this procedure. Modification of original Damus–Kaye–Stansel procedure that can prevent the use of prosthetic materials is evaluated. The modified Damus–Kaye–Stansel procedure using aortic flap technique was performed in eight patients with functionally univentricular heart. Patients’ ages ranged from 3 to 28 months (mean 14 months). Follow-up period was 37 months as a mean (9–71 months), and the follow-up was complete. There was no operative mortality and no late death. In addition, there was no recurrence of systemic ventricular outflow tract obstruction throughout the follow-up period. Regurgitation of the pulmonary valve estimated by echocardiography at the latest follow-up was none to trivial in seven patients and mild in one. The modified Damus–Kaye–Stansel procedure using aortic flap technique is a safe, useful and reproducible technique to solve systemic ventricular outflow tract obstruction in functionally univentricular heart, and it can be an alternative for original technique or the so-called double-barrel modification.

Key Words: Damus–Kaye–Stansel procedure • Systemic ventricular outflow tract obstruction • Univentricular heart

	1. Introduction

Top Abstract 1. Introduction 2. Patients and methods 3. Results 4. Discussion References

 
The Damus–Kaye–Stansel (DKS) procedure, connection of the pulmonary trunk to the ascending aorta, is one of the most effective methods to relieve systemic ventricular outflow tract obstruction in functionally univentriclar heart [1–6]. The development of pulmonary valve regurgitation due to distortion of the pulmonary valve and recurrence of systemic ventricular outflow obstruction, in case of prosthetic material use for anastomosis, are considered as the two major sequelae in the original DKS procedure [1–3,7]. Modification of procedure using bivalved technique has reduced the incidence of these complications [1,3,5], while adjustment of big discrepancy of the size between the new proximal root and the distal part of the ascending aorta remains a technically demanding issue.

Mimicking the trap door technique in arterial switch operation for the transposition of the great arteries, we have introduced aortic flap technique as a modification of the original DKS procedure.

	2. Patients and methods

Top Abstract 1. Introduction 2. Patients and methods 3. Results 4. Discussion References

 
The modified DKS procedure using aortic flap technique was performed in eight patients with functionally univentricular hearts. The mean age of patients at the time of operation was 14 ± 9.6 months (ranged from 3 to 28 months). The mean body weight was 8.1 ± 2.9 kg (ranged from 4.5 to 12.6 kg). As prior procedures, pulmonary artery banding (PAB) was performed in all patients at the mean age of 1 ± 0.7 months.

All patients underwent surgery through median sternotomy using cardiopulmonary bypass. The pulmonary artery was transected at the site of PAB and was trimmed to remove the tissue with fibrous change caused by PAB (Fig. 1 ). The pulmonary artery trunk was dissected completely from the surrounded tissue to increase its mobility. A transverse incision of the ascending aorta was made at the opposite site of the transected pulmonary trunk, just above the sino-tubular junction. Meticulous attention was paid not to extend the incision into the sinus of Valsalva and not to injure the orifice of the coronary artery. Oblique longitudinal incision was added to make the triangular aortic flap like a trap door. The inferior margin of the opened aorta is then sutured to the adjacent edge of the transected pulmonary artery with continuous running suture using absorbable materials. The inferior margin of the aortic flap is then sutured to the posterior aspect of the transected pulmonary artery. As the pulmonary artery trunk is dilated after the pulmonary artery banding and is mobilized maximally, the anterior aspect of the transected pulmonary artery can be amastomosed easily to the aorta without any tension and torsion of the pulmonary trunk and valve.

View larger version (100K): [in this window] [in a new window]   Fig. 1. (a) The pulmonary trunk is divided at the site of the pulmonary artery banding. (b) Incision to the ascending aorta is made to create aortic flap which works as a trap door. Caution should be made not to extend the incision into the sinotubular junction. (c) Anastomosis is started from the corner of the aortic flap using absorbable materials. (d) Completion of the anastomosis without distension and distortion of the pulmonary trunk.

	3. Results

Top Abstract 1. Introduction 2. Patients and methods 3. Results 4. Discussion References

No patient had systemic ventricular outflow tract obstruction estimated by follow-up catheterization and echocardiography. Regurgitation of the pulmonary valve estimated by echocardiography before the DKS procedure was observed none in seven patients and trivial in one. After the DKS procedure, regurgitation progressed from trivial to mild in one patient; however, it remained stable afterwards. In the remaining seven patients, regurgitation of the pulmonary valve remained none to trivial at the recent follow-up echocardiography.

Regurgitation of the aortic valve was also estimated by echocardiography. At the recent follow-up, five patients had no leak and three patients had trivial regurgitation.

	4. Discussion

Top Abstract 1. Introduction 2. Patients and methods 3. Results 4. Discussion References

 
The DKS procedure is now the most popular and useful method to relieve systemic ventricular outflow tract obstruction in functionally univentricular heart. As over-distension and/or torsion of the pulmonary trunk and pulmonary valve may cause future pulmonary valve regurgitation, some modifications of the original DKS procedure have been made. The hood technique facilitates the construction of a tension-free DKS anastomosis without distortion of the pulmonary valve [1], while this technique needs prosthetic materials, which might be a cause of future recurrence of systemic outflow tract obstruction. The ‘bivalved’ technique [1], which is recently called double-barrel anastomosis [5], is a choice of operation in many centers because this method might reduce the possibility of over-distention and distortion of the pulmonary trunk and pulmonary valve. However, adjustment of a big discrepancy between the new proximal stump (bivalved artery) and the ascending aorta is a technically demanding issue, especially in case of previous PAB, which is always associated with dilated pulmonary trunk. Requirement of prosthetic materials to enlarge a small ascending aorta might increase the possibility of future systemic outflow obstruction.

Although Laks et al. [8] had reported the aortic flap technique as a modification of DKS procedure, they limited its indication only to the cases with short pulmonary trunk where the pulmonary artery banding was placed proximally and they needed patch to roof the anastomosis. We had extended the indication of this technique to the cases of pulmonary artery banding, which is appropriately placed. This technique can avoid the use of prosthetic material for anastomosis without the tension of the pulmonary trunk. Our clinical mid-term results of this technique were satisfactory.

	Acknowledgments

 
We thank Dr T. Shirota for his help to make a figure.

	References

Top Abstract 1. Introduction 2. Patients and methods 3. Results 4. Discussion References

 

1. Waldman JD, Lamberti JJ, George L, Kirkpatrick SE, Mathewson JW, Spicer RL, Angell WW, Grehl TM, Goodman AH. Experience with Damus procedure. Circulation 1988;78(Suppl. III)III-32-9.
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3. Carter TL, Mainwaring RD, Lamberti JJ. Damus–Kaye–Stansel procedure. Midterm follow-up and technical considerations. Ann Thorac Surg 1994;58:1603-1608.[Abstract]
4. Brawn WJ, Sethia B, Jagtap R, Stumper OF, Wright JG, De Giovanni JV, Silove ED, Jackson M, Sreeam N. Univentricular heart with systemic outflow obstruction. Palliation by primary Damus procedure. Ann Thorac Surg 1995;59:1441-1447.[Abstract/Free Full Text]
5. Hiramatsu T, Imai Y, Kurusawa H, Takanashi Y, Aoki M, Shinoka T, Sakamoto T. Midterm results of surgical treatment of systemic ventricular outflow obstruction in Fontan patients. Ann Thorac Surg 2002;73:855-861.[Abstract/Free Full Text]
6. Miura T, Kishimoto H, Kawata H, Hata M, HoashiT, Nakajima T. Management of univentricular heart with systemic ventricular outflow obstruction by pulmonary artery banding and Damus–Kaye–Stansel operation. Ann Thorac Surg 2004;77:23-28.[Abstract/Free Full Text]
7. Bradley SM, Simsic JM, Ats AM, Dorman BH. The infant with single ventricle and excessive pulmonary blood flow. Results of a strategy of pulmonary artery division and shunt. Ann Thorac Surg 2002;74:805-810.[Abstract/Free Full Text]
8. Laks H, Gates RN, Elami A, Pearl JM. Damus–Stansel–Kaye procedure. Technical modification. Ann Thorac Surg 1992;54:169-172.[Abstract]

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): Munetaka Masuda Ryuji Tominaga Permission Requests Citing Articles Citing Articles via Google Scholar Google Scholar Articles by Masuda, M. Articles by Tominaga, R. Search for Related Content PubMed PubMed Citation Articles by Masuda, M. Articles by Tominaga, R. Related Collections Congenital - cyanotic