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J Thorac Cardiovasc Surg 1996;112:1109-1111
© 1996 Mosby, Inc.

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NATIVE CARDIECTOMY IN A HETEROTOPIC HEART TRANSPLANT RECIPIENT

Pittsburgh, Pa

From the Department of Surgery, University of Pittsburgh School of Medicine, Pittsburgh, Pa.

Received for publication Feb. 1, 1996 Accepted for publication Feb. 9, 1996. Heterotopic heart transplantation is traditionally indicated when the recipient has irreversible pulmonary hypertension and when the donor heart is believed to be too small to support the recipient's circulation. In long-term follow-up, mitral and tricuspid regurgitation in the native heart are commonly observed after heterotopic heart transplantation. ^1,2 Regurgitation of the native aortic valve is rare, however, and usually mild. We report a case of severe native aortic and mitral valve regurgitation resulting in refractory congestive heart failure in a heterotopic heart transplant recipient. The heart failure resolved after a native cardiectomy.

A patient with ischemic cardiomyopathy who had previously undergone coronary artery bypass grafting in 1970 received a heterotopic heart transplant in July 1990 at the age of 60 years. During the heart transplant operation, a piece of Dacron polyester fabric graft was used to connect the donor pulmonary artery to the recipient pulmonary artery. In January 1993 this pulmonary conduit became infected, necessitating replacement with fresh homograft from the descending thoracic aorta of an organ donor. In May 1993 ventricular fibrillation of the native heart developed. Cardioversion of the ventricular fibrillation was attempted, without success. The patient continued to have ventricular fibrillation for 9 months, without symptoms. In March 1994 signs and symptoms of congestive heart failure developed. Echocardiography revealed a severe regurgitation of the native aortic and mitral valves, resulting in shunting of blood from the ascending aorta to the native left ventricle and left atrium and thence to the transplanted left atrium (Fig. 1). Symptoms of congestive heart failure developed as a result of volume overloading of the transplanted heart and left-to-left shunting. In an attempt to reduce the native aortic regurgitation, which occurred more during systole than during diastole of the transplanted heart, cardioversion of the native heart was successfully performed. The native heart was maintained in sinus rhythm with quinidine sulfate. Regurgitation of the native aortic and mitral valves persisted, however, and regurgitation of native pulmonic and tricuspid valves occurred in the ensuing month. The patient's congestive heart failure symptoms became worse, changing from New York Heart Association functional class II to class III.

View larger version (53K): [in this window] [in a new window]   Fig. 1. Incompetence of native aortic and mitral valves allows regurgitation of blood from ascending aorta into native (recipient) left ventricle (LV) and left atrium (LA) and thence into donor LA. This results in decreased systemic blood flow, volume overload of transplanted LV, and congestive heart failure. Arrows indicate flow. RA, Right atrium; RV, right ventricle; PA, pulmonary artery.

View larger version (44K): [in this window] [in a new window]   Fig. 2. Native cardiectomy at atrioventricular junction with closure of native atrial, aortic, and pulmonary arterial stumps. Arrows indicate flow. RA, Right atrium; LA, left atrium; RV, right ventricle; LV, left ventricle.

This is the first reported case of congestive heart failure resulting from left-to-left shunting in a patient with a heterotopic heart transplant. The incompetent native aortic valve allows the blood to regurgitate into the native left ventricle and thence to the native left atrium (through the incompetent native mitral valve) and to the donor left atrium and ventricle (Fig. 1). This left-to-left shunting results in volume overload of the left side of the transplanted heart, decrease in forward systemic blood flood, low cardiac output, and congestive heart failure. One of the treatment options is to close the aortic valve and remove the mitral valve. This prevents regurgitation of blood into the native left ventricle and allows emptying of the left ventricle during systole of the native heart. Thrombus formation in the native left heart and the technical difficulty of closing the aortic valve without compromising the native coronary circulation are potential disadvantages of this technique. One can also remove the left ventricle, close the aortic valve and the left atrial stump, and leave the native right ventricle to help support the venous circulation. This operation was described by Losman, Curcio, and Barnard ³ in 1978 in a patient who had an infected aortic valve prosthesis of the native heart. That patient survived 8 years with this "hybrid" heart. This option is suitable for those patients who still have pulmonary hypertension and therefore require a functional native right ventricle.

Another option is to perform a native cardiectomy, as was done in this case. This option is feasible only when the transplanted heart is able to function without the assistance of the native right ventricle. Our patient had demonstrated that the transplanted heart was able to support the entire circulation for a period of 9 months while the native heart was in ventricular fibrillation. Native cardiectomy is a more extensive operation than closure of the aortic valve; however, the potential problem of thrombus formation and endocarditis in the native heart is eliminated.

Acknowledgments

We thank David C. K. Cooper, MD, PhD, and Dimitri Novitzky, MD, for their valuable advice.

Footnotes

J THORAC CARDIOVASC SURG 1996;112:1109-11

References

1. Desruennes M, Muneretto C, Gandjbakhch I, Kawaguchi A, Pavie A, Bors V, et al. Heterotopic heart transplantation: current status in 1988. J Heart Transplant 1989;8:479-85.[Medline]
   
2. Hildebrandt A, Reichenspurner H, Gordon GD, Horak AR, Odell JA, Reichart B. Heterotopic heart transplantation: mid-term hemodynamic and echocardiographic analysis—the concern of arteriovenous-valve incompetence. J Heart Transplant 1990;9:675-82.[Medline]
   
3. Losman JG, Curcio CA, Barnard CN. Normal cardiac function with a hybrid heart. Ann Thorac Surg 1978;26:177-80.[Abstract]
   

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