Reoperation for dilatation of the pulmonary autograft after the Ross procedure

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Reoperation for dilatation of the pulmonary autograft after the Ross procedure

Thoralf M. Sundt, MD^a, Marc R. Moon, MD^a, Haodong Xu, MD, PhD^b St Louis, Mo

From the Division of Cardiothoracic Surgery, Department of Surgery,^a and the Department of Pathology,^b Washington University, St Louis, Mo.

Received for publication Feb 28, 2001. Accepted for publication April 6, 2001. Address for reprints: Thoralf M. Sundt, MD, Mayo Clinic, 200 First St SW, Rochester, MN 55905.

The pulmonary autograft or "Ross procedure" offers hope fora durable, anticoagulant-free replacement option for a dysfunctionalaortic valve. As a viable graft, it has the potential for growth.The distinction between growth and passive dilatation, however,may be problematic. We recently encountered a case that graphicallydemonstrated dilatation of the wall of the autograft both radiologicallyand grossly.

Clinical summary

A 19-year-old man with a history of aortic regurgitation causedby a bicuspid aortic valve had undergone a Ross procedure atage 13 years. The inflow suture line of the pulmonary autografthad not been reinforced with felt. A 24-mm pulmonary allograftvalve had been placed in the pulmonic position. At recent echocardiographicfollow-up, asymptomatic dilatation of the neo-aortic root withoutvalvular regurgitation or stenosis was identified. Magneticresonance imaging demonstrated dilatation of the neo-aorticroot to 6.4 cm with a sharp transition to normal diameter (Figure1). The pulmonic allograft was functioning normally.

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Fig. 1. Magnetic resonance images of the neo-aortic root demonstrating dilatation of the pulmonary autograft and an abrupt transition to normal aortic diameter at the distal suture line(arrow) in the coronal section (A) and sagittal section (B).

At surgery, external inspection of the aorta suggested a "neck"at the transition between autograft and native aorta (Figure2, A). This was confirmed at aortotomy(Figure 2

, B and C). Theautograft leaflets and anulus appeared normal(Figure 2

, C).As suggested previously by T. E. David (personal communication,October 1999), the root was reconstructed with a scalloped graftpreserving the autograft leaflets after the manner describedby Yacoub. Transesophageal echocardiography demonstrated a competentvalve at the end of the procedure. The excised autograft tissuedemonstrated medial myxoid degenerative changes and fibrosisby hematoxylin-eosin stain and severe fragmentation of elastinfibers by Verhoeff–van Gieson stain.

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Fig. 2. Intraoperative photographs confirming the transition to normal diameter aorta at the distal suture line. A, External appearance of the neo-aortic root with a perceptible narrowing at the distal anastomosis(arrows). B and C, Internal appearance of the transition between autograft and aorta demonstrating a "neck." D, The normal appearing autograft valve cusps that were preserved.

Discussion

Inclusive of the patient presented above, we have reoperatedon 4 patients late after the Ross procedure for neo-aortic valvemalfunction (Table 1). In 1 patient, a 34-year-old woman withGoldenhar syndrome and a history of ventricular septal defectand aortic regurgitation, moderate aortic regurgitation developedas a result of a torn leaflet 7 years after the Ross procedure.No dilatation of the neo-aortic root was observed. The neo-aorticvalve was replaced with a mechanical valve within the pulmonaryautograft. Of the remaining 3 patients, all had aneurysmal dilatationof the neo-aorta and all had bicuspid aortic valves with aorticregurgitation as their original pathologic condition. One ofthese requested a mechanical valve and underwent conventionalcomposite root replacement; a second received a pericardialxenograft valve conduit because of contraindications to anticoagulation;and the third is the subject of the current clinical summary.

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Table 1. Patients undergoing reoperation after failed Ross procedure

The potential for growth makes the pulmonary autograft uniquelyappealing for the pediatric population, and the promise of durabilitywithout anticoagulation makes it attractive to the young adult.Unfortunately, the most common indication for surgery amongyoung adults is bicuspid aortic valve disease, a condition thoughtto be associated with intrinsic abnormality of the aortic wall.It has been recognized for a decade that the aortic root maybe enlarged in patients with a bicuspid aortic valve even withouthemodynamically significant functional abnormality. More recently,histochemical studies have demonstrated an increased rate ofsmooth muscle cell apoptosis in the aortic media of patientswith bicuspid aortic valves, even in the absence of gross dilatation.

¹ Biochemical analysis has also demonstrated a decrease in collagencontent strikingly similar to that observed in Marfan syndrome.

² Elastin fragmentation, alterations in smooth muscle cell orientation,and the changes characterized by the term cystic medial necrosishave been observed in both the ascending aorta and pulmonaryartery of patients undergoing the Ross operation for bicuspidaortic valve disease.

The clinical correlate of these laboratory observations hasbeen reported previously. David and colleagues ⁴ identifieda statistically significant increase over time in the diameterof the sinuses of Valsalva, the aortic anulus, and the sinotubularjunction among patients with bicuspid aortic valves undergoingthe Ross procedure. Histologic analysis of the pulmonary autograftwall from such patients showed degenerative changes of cysticmedial necrosis. ^4,5 Our case graphically demonstrates theradiologic and gross pathologic correlate of these histologicfindings.

Dilatation of the anulus after the Ross procedure has led tothe recommendation by some that the inflow suture line be reinforcedwith prosthetic material. We observed significant dilatationof the wall of the autograft, however, a complication unlikelyto be affected by annular reinforcement. David and colleagues⁴ have suggested that the root inclusion technique be consideredin cases of bicuspid aortic valve. Our observations supportthis suggestion.

Acknowledgments

Photographs were provided by Cynthia J. Camillo, RN, MS, CCSN.

References

Bonderman D, Gharehbaghi-Schnell E, Wolleneck G, Maurer G, Baumgartner H, Lang IM. Mechanisms underlying aortic dilatation in congenital aortic valve malformation. Circulation. 1999;99:2138-43.[Abstract/Free Full Text]
Curci JA, Thompson RW, Davis CR, Okamoto RJ, Moon MR, Starcher BC, et al. Heterogeneity of matrix changes in aneurysms of the thoracic and abdominal aorta. Circulation. 2000;102(Suppl):II-400.
de Sa M, Moshkovitz Y, Butany J, David TE. Histologic abnormalities of the ascending aorta and pulmonary trunk in patients with bicuspid aortic valve disease: clinical relevance to the Ross procedure. J Thorac Cardiovasc Surg. 1999;118:588-94.[Abstract/Free Full Text]
David TE, Omran A, Ivanov J, Armstrong S, de Sa MP, Sonnenberg B, et al. Dilation of the pulmonary autograft after the Ross procedure. J Thorac Cardiovasc Surg. 2000;119:210-20.[Abstract/Free Full Text]
Takkenberg JJ, Zondervan PE, van Herwerden LA. Progressive pulmonary autograft root dilatation and failure after Ross procedure. Ann Thorac Surg. 1999;67:551-3.[Abstract/Free Full Text]

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Reoperation for dilatation of the pulmonary autograft after the Ross procedure