Copyright © 1997 by the European Society of Cardiology.
© 1997 The European Society of Cardiology
Prostaglandin E1—bridge to cardiac transplantation
Technique, dosage, results*
University of Vienna Department of Cardiology Vienna, Austria
Department of Cardiothoracic Surgery Vienna, Austria
revised 19 February 1996; accepted 26 February 1996.
Correspondence: Univ. Doz. Dr Brigitte Stanek, University of Vienna Department of Cardiology. Währinger Gürtel 18-20. A-1090 Vienna, Austria
Abstract
BACKGROUND: Heart transplantation candidates who remain severely symptomatic despite therapy are normally hospitalized. Continuous infusion of intravenous drugs from a portable pump may allow such patients to live a fairly active life until a donor heart is found.
AIM: To investigate in an open pilot study if heart transplantation can be safely accomplished if these patients are continuously bridged with various regimens including inotropic support with low-dose dobutamine in conjunction with dopamine and prostaglandin E1.
METHODS: We report on 5 years' experience with prostaglandin E1, a potent vasodilator with proven efficacy in severe heart failure when coupled with catecholamines. From 1990 to 1995 54 heart transplantation candidates were bridged with prostaglandin E1 in addition to dobutamine 5 µg.kg–1.min–1 and dopamine 3 µg.kg–1.min–1 (group A; n=32) or in addition to 3 µg.kg–1.min–1 dopamine alone (group B; n=22), and 11 heart transplantation candidates were bridged with dobutamine 5 µg.kg–1.min–1 and dopamine 3 µg.kg–1.min–1 only (group C; n=11). In an initial dose-ranging test, prostaglandin E1 was uptitrated to side effect limit (29±1 ng.kg–1.min–1). Haemodynamics, except for stroke volume index, were similar in all patients at baseline and a sufficient haemodynamic response (20% increase in stroke volume) was observed during the acute study. Fifty percent of the peak dose was used for initiating chronic therapy; the dose of prostaglandin E1 was further reduced if side effects recurred.
RESULTS: Twenty-nine (54%) patients in groups A and B and six in group C could be discharged home with chronic therapy via a Hickman catheter connected to a portable pump. After 4 weeks in six patients in group A and in 13 patients in group B, when prostaglandin E1 had been reduced from 15±2 ng.kg–1.min–1 to 8±1 ng.kg–1.min–1, increases in cardiac index and decreases in systemic vascular resistance were sustained, and a permanent decrease in pulmonary vascular resistance index was observed in group B. Intravenous therapy was changed in nine patients (3/1/5) because of side effects and worsening heart failure. Prostaglandin E1 was withdrawn in three of these patients because of an increase in serum creatinine (3 mg.100 ml–1), and in one because of noncompliance. In total, there were 17 cardiac deaths (9/6/2), 42 heart transplants (22/14/6) and six (1/2/3) weaned survivors (including one non-cardiac death) in this study. Overall outcome was similar in groups A and B, but distribution after 2 months appeared to be different (P<0·05) based on more transplantations in group A.
CONCLUSION: We concluded that chronic infusions with prostaglandin E1 at reduced dosages is a feasible and safe therapeutic adjunct to bridge end-stage heart failure patients and may yield desirable effects in a subset of patients in the absence of inotropic support by dobutamine.
Key Words: Heart transplantation candidates • refractory heart failure • bridging • prostaglandin E1 • dopamine • dobutamine
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