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

This Article 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): Ing-Sh Chiu Permission Requests Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Chiu, I.-S. Articles by Wu, M.-H. Search for Related Content PubMed PubMed Citation Articles by Chiu, I.-S. Articles by Wu, M.-H. Related Collections Congenital - cyanotic

J Thorac Cardiovasc Surg 2002;124:1050-1052
© 2002 The American Association for Thoracic Surgery

Brief Communications

Spiral arterial switch operation in transposition of the great arteries

From the Departments of Surgery^a and Pediatrics,^b National Taiwan University Hospital, College of Medicine, National Taiwan University, Taipei, Taiwan.

Received for publication Feb 2, 2002. Accepted for publication March 29, 2002. Address for reprints: Ing-Sh Chiu, MD, PhD, MDiv, Department of Surgery, National Taiwan University Hospital, No.7 Chung-Shan S Rd, Taipei, Taiwan 100 (E-mail: ingsh{at}ha.mc.ntu.edu.tw).

View larger version (124K): [in this window] [in a new window]   Wu, Chiu, and Wang (left to right)

Clinical summary

A 10-day-old baby boy underwent spiral ASO (Figure 1) and repair of septal defects and coarctation. The aorta was right anterior 30° to the pulmonary trunk. A single coronary artery pierced into aortic sinus 2 closer to the facing commissure with a retropulmonic left main and anteaortic Vieussen artery. We cut back into noncoronary sinus 1 to augment the pulmonary pathway by anterior wall of the neoaortic root.

View larger version (45K): [in this window] [in a new window]   Fig. 1. Techniques of spiral arterial switch operation for single coronary artery. Semilunar valves are all omitted for clear illustration. A, Aorta is amputated obliquely. Left posterior wall of pulmonary trunk is not divided. Two J-shaped incisions are made on facing parts of great arteries. Anterior wall of pulmonary trunk is cut back along dashed line to accommodate ascending aorta. B, Anulus of facing commissure in old aorta is fixed to anterior wall of pulmonary trunk (depicted by Y stitches). Lateral edges of two J-shaped incisions facing each other are sutured together (depicted by X stitches) to form aortopulmonary window. Then semiflap of pulmonary trunk is placed into opposite aortic sinus and sutured so that it acts as posterior wall of neopulmonary trunk and as anterior wall of neoaorta. C, Suture for pulmonary trunk semiflap in sinus 2 (depicted by I stitches) is finished. Anterior lip of cut back pulmonary trunk is everted to left. Distal aorta is sutured to posterior wall of pulmonary trunk along dotted line. Aortic sinus 1 is cut back along dashed line. D, Neoaortic anastomosis is finished. Cut back edge of aortic sinus 1 is attached to anterior neoaortic root to augment pulmonary pathway. Cut edge of pulmonary trunk and caudal edge of right pulmonary artery are attached to posterior aorta from right. E, Cephalic cut edge of right pulmonary artery is attached to posterior outer wall of aorta from left. Caudal edge of anterior pulmonary trunk flap is attached to amputated edge of aortic sinus 1 to form floor of pulmonary pathway. F, Finally, attaching anterior pulmonary trunk flap to ascending aorta completes roofing of anterior pulmonary pathway.

View larger version (44K): [in this window] [in a new window]   Fig. 2. Techniques of modified arterial switch operation with neopulmonary trunk in left anterior portion. Main difference from previously published figure 1 is in part C. Cephalic edge of pulmonary semiflap is sutured to amputated edge of sinus 1 (depicted by heavy I stitches) instead of to inner wall of sinus 1 just to cover coronary sinus, thus less suture line is needed. Parts are as in Figure 1.

Discussion

An article in The Lancet ² and its figure prompted us to review distal suprapulmonary stenosis complicated after an ASO. The main reasons for this stenosis were claimed to be technical, and its incidence dropped after generous patching of the pulmonary sinus and extensive hilar dissection. However, such distal stenosis inherent with the procedure itself still existed, as noted by de Leval ³ in a comment on that article. We point out that this morbidity was closely related to the so-called Lecompte maneuver, mobilization of the pulmonary bifurcation anterior to the ascending aorta. This viewpoint is well illustrated in the Figure 1 of that article. ² The transposed great arteries were switched in such a fashion (Figure 3, B) that the normal SROGA was not restored. The naturally created great arteries are normally in a spiral fashion (Figure 3, C); thus the pulmonary arteries are prevented from being compressed by the ascending aorta. After the Lecompte maneuver, however, not only is the anterior pulmonary trunk (low pressure) flattened, ⁴ resulting in branch pulmonary arterial stenosis with increased peak velocity during systole, ⁵ but also the posterior left bronchus may be compressed (airway pressure with cartilage). ^6,7 All occurs because the high-pressure ascending aorta is not restored to its natural location. Even more ironically, the high-pressure aorta may suppress itself (high pressure). That is to say, the acute angulation of the aortic arch after the Lecompte maneuver (Figure 3, B) may cause hypoplastic arch and neocoarctation that was not present at the time of ASO. ⁸ We therefore advocate modified ASO by spiral reconstruction. ¹

View larger version (47K): [in this window] [in a new window]   Fig. 3. Spiral relationship of great arteries in normal heart (C) was not restored by conventional arterial switch operation with Lecompte maneuver (B) on transposition of the great arteries (TGA; A). With spiral ASO (D), pulmonary bifurcation is free from posterior compression by high-pressure aorta. Note that acute angulation of arch that is present after nonspiral Lecompte maneuver (B) is absent in other three illustrations. Modified from Prêtre R, Tamisier D, Bonhoeffer P, Mauriat P, Pouard P, Sisi D, et al. Results of the arterial switch operation in neonates with transposed great arteries. Reprinted with permission from Elsevier Science (The Lancet, 2001;357:1826-30).

One may be concerned that the gradual "untwisting" as the child grows may cause pressure gradient at the "common wall" site in our technique. ¹ We report the follow-up data on our original 12 patients 3.20 ± 0.54 years after the operation. In patient 3, in whom an equine pericardium was used to repair the supra-aortic stenosis, the suprapulmonary gradient as great as 65 mm Hg developed 3.5 years after reoperation but dropped after balloon dilatation. In all other 11 patients, who received autologous tissue grafts, the suprapulmonary gradient estimated by Doppler ultrasonography either became smaller or did not develop on follow-up.

Some may argue that our technique adds difficulty to an already demanding operation, in part because we depicted the details of the complicated procedure in our previous article but described the simple procedure in the text only. ¹ Namely, for those with higher takeoff of the coronary artery (inadequate tissue to suture inside the sinus wall), the cephalic edge of pulmonary semiflap was sutured to the cephalic edge of sinus 1 (Figure 2). We believe that this simple technique, which was used in most cases, made life easier.

The recent modification (Figure 1) is even simpler. One can cut back into noncoronary facing sinus 1 to augment the pulmonary pathway by anterior wall of the neoaortic root. This autologous viable tissue is of course superior to the previous technique of cutting back into nonfacing anterior sinus and using a pericardial patch for augmentation (Figure 2, C). We showed that not using pericardial patch to roof the anterior pulmonary pathway is possible (Figure 1, F), like not using a patch in a Senning operation. In addition to augmenting the facing sinus 1, the first two modifications mentioned previously that can be applied to usual coronary patterns contributed to the ability to dispense with a patch. We recommend spiral reconstruction of the great arteries at least for transposition if people are used to conventional method of coronary transfer.

Addendum

After this paper was submitted, 3 babies with complete transposition and usual coronary pattern successfully underwent modified spiral ASO as above.

Acknowledgments

We are indebted to Miss Chang-Ying Lin for secretarial assistance.

References

1. Chiu IS, Wu SJ, Chen MR, Lee ML, Wu MH, Wang JK, et al. Modified arterial switch operation by spiral reconstruction of the great arteries in transposition. Ann Thorac Surg. 2000;69:1887-92.[Abstract/Free Full Text]
   
2. Prêtre R, Tamisier D, Bonhoeffer P, Mauriat P, Pouard P, Sisi D, et al. Results of the arterial switch operation in neonates with transposed great arteries. Lancet. 2001;357:1826-30.[Medline]
   
3. de Leval MR. Lessons from the arterial-switch operation. Lancet. 2001;357:1814.[Medline]
   
4. Massin MM, Nitsch GB, Däbritz S, Seghaye MC, Messmer BJ, von Bernuth G. Growth of pulmonary artery after arterial switch operation for simple transposition of the great arteries. Eur J Pediatr. 1998;157:95-100.[Medline]
   
5. Gutberlet M, Boeckel T, Hosten N, Vogel M, Kuhne T, Oellinger H, et al. Arterial switch procedure for d-transposition of the great arteries: quantitative midterm evaluation of hemodynamic changes with cine MR imaging and phase-shift velocity mapping-initial experience. Radiology. 2000;214:467-75.[Abstract/Free Full Text]
   
6. Robotin MC, Bruniaux J, Serraf A, Uva MS, Roussin R, Lacour-Gayet F, et al. Unusual forms of tracheobronchial compression in infants with congenital heart disease. J Thorac Cardiovasc Surg. 1996;112:415-23.[Abstract/Free Full Text]
   
7. Toker A, Tireli E, Bostanci K, Ozcan V, Dayioglu E. Uncommon complication of arterial switch operation: tracheobronchial compression. Ann Thorac Surg. 2000;69:927-9.[Abstract/Free Full Text]
   
8. Muster AJ, Berry TE, Ilbawi MN, DeLeon SY, Idriss FS. Development of neo-coarctation in patients with transposed great arteries and hypoplastic aortic arch after Lecompte modification of anatomical correction. J Thorac Cardiovasc Surg. 1987;93:276-80.[Abstract]
   
9. Tang T, Chiu IS, Chen HC, Cheng KY, Chen SJ. Comparison of pulmonary arterial flow phenomena in spiral and Lecompte models by computational fluid dynamics. J Thorac Cardiovasc Surg. 2001;122:529-34.[Abstract/Free Full Text]
   

This article has been cited by other articles:

				I.-S. Chiu, M.-R. Chen, S.-C. Huang, M.-L. Lee, H.-E. Tsai, S.-J. Chen, and H.-C. Lue Restoration of Transposed Great Arteries to Nature World Journal for Pediatric and Congenital Heart Surgery, April 1, 2011; 2(2): 287 - 295. [Abstract] [Full Text] [PDF]

				I.-S. Chiu, S.-C. Huang, Y.-S. Chen, C.-I. Chang, M.-L. Lee, S.-J. Chen, M.-R. Chen, and M.-H. Wu Restoring the spiral flow of nature in transposed great arteries, Eur J Cardiothorac Surg, June 1, 2010; 37(6): 1239 - 1245. [Abstract] [Full Text] [PDF]

				I.-S. Chiu, M. Div, S.-C. Huang, S.-J. Wu, M.-L. Lee, E.-T. Wu, S.-J. Chen, and M.-R. Chen Surgical Treatment of Anomalies With Discontinuity Between the Right Ventricle and the Pulmonary Arteries Without Use of an Extracardiac Conduit Ann. Thorac. Surg., April 1, 2009; 87(4): 1220 - 1226. [Abstract] [Full Text] [PDF]

				A. F. Corno, M. J. Kocica, and F. Torrent-Guasp The helical ventricular myocardial band of Torrent-Guasp: potential implications in congenital heart defects Eur J Cardiothorac Surg, April 1, 2006; 29(Supplement_1): S61 - S68. [Abstract] [Full Text] [PDF]

				M. Pocar, E. Villa, A. Degandt, P. Mauriat, P. Pouard, and P. R. Vouhe Long-Term Results After Primary One-Stage Repair of Transposition of the Great Arteries and Aortic Arch Obstruction J. Am. Coll. Cardiol., October 4, 2005; 46(7): 1331 - 1338. [Abstract] [Full Text] [PDF]

This Article 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): Ing-Sh Chiu Permission Requests Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Chiu, I.-S. Articles by Wu, M.-H. Search for Related Content PubMed PubMed Citation Articles by Chiu, I.-S. Articles by Wu, M.-H. Related Collections Congenital - cyanotic