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J Thorac Cardiovasc Surg 2000;119:380-381
© 2000 Mosby, Inc.

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SURGICAL MANAGEMENT OF ACTIVE INFECTIVE ENDOCARDITIS IN A PREMATURE NEONATE WEIGHING 950 GRAMS

From the Instituto de Cardiología Infantil, Hospital Italiano Umberto 1, Montevideo, Uruguay.

Address for reprints: Dante Picarelli, MD, Instituto de Cardiología Infantil, Hospital Italiano Umberto 1, Bulevar Artigas 1632, Piso 2, Montevideo, Uruguay 11600 (E-mail: picarelli54{at}hotmail.com) .

Despite the improvement in medical treatment of patients with active infective endocarditis, surgical management remains a challenge, in particular for premature babies with very low birth weight. ^1,2 Herein we report the case of a premature neonate with active infective endocarditis refractory to antibiotic treatment, weighing 950 g, who was referred to us for surgical treatment.

Clinical summary.
As a result of premature membrane rupture, a female neonate was born at 25 weeks of gestation weighing 750 g. Delivery was normal, and the Apgar scores were 4 at 1 minute and 5 at 5 minutes. Mechanical ventilation was required because of severe respiratory distress. The electroencephalogram showed no abnormalities, but the transfontanellar echocardiogram showed a subependymal hemorrhage.

Connatal pulmonary infection was suspected and antibiotic treatment was started through a central venous line placed in the right side of the heart. After 1 week of therapy, blood culture revealed a Candida albicans infection. Antibiotic therapy was changed to fluconazole and after 10 days to amphotericin B. A cardiac murmur appeared and the cross-sectional echocardiogram demonstrated a cardiac mass localized inside the right ventricle (from the apex to the outflow tract), protruding through the pulmonary valve and causing valvular obstruction (Fig 1).

View larger version (90K): [in this window] [in a new window]   Fig. 1. Parasternal short-axis view (slightly rotated) showing the vegetation in the right ventricle protruding through the pulmonary valve. Vegetación, Vegetation; VD, right ventricle; AO, aorta; APT, pulmonary artery; Val, valve.

Discussion.
Although infective endocarditis is relatively uncommon during infancy, the disease is more prevalent in small babies because of more frequent invasive, diagnostic, and therapeutic procedures. ¹ The indications for and timing of surgery in patients with active infective endocarditis present major therapeutic problems and challenges, especially for premature babies with very low birth weight. ^1,2 Nevertheless, if active infective endocarditis is refractory to antibiotic treatment, surgery must not be delayed. The infective process can produce more extensive involvement and endocardial and myocardial destruction, necessitating more important debridement and complex reconstruction. ¹ In our case report, the operation was performed on an emergency basis because of the high risk of sudden death, owing to the location of the mycotic thrombus. Previously, we ¹ described a similar patient requiring surgery at 11 months, in whom the predisposing factor for infective endocarditis was also a central venous line placed in the right side of the heart. Intracavitary foreign materials in cardiac chambers are frequent predisposing factors for endocarditis in infancy, often associated with C albicans . ¹ However, this neonate represented a particular challenge because of her prematurity and low weight. Despite the presumption that these babies are too weak to withstand CPB, with the additional risk of intracranial bleeding, some reports suggest good results in the repair of congenital heart defects in premature low-birth-weight babies. ^2-4 The advances made in CPB procedures and the understanding of perfusion in small bodies have improved outcomes in neonatal cardiac surgery. Because of the small size of these patients and the immaturity of pulmonary and other organ systems, making fluid management difficult, some changes had to be made in the standard CPB technique. The priming volume was reduced as much as possible (an arterial line filter was not used). As the surgical procedure was simple, ultrafiltration was avoided to reduce CPB time. Whole fresh leukocyte-depleted blood was used to prime the circuit in an effort to attenuate the inflammatory response after CPB. ⁵ Venous cannulas had to be adapted to the small size and fragility of the vessels to avoid a low venous return flow.

Regarding the risk of perioperative intracerebral hemorrhage, the reports about the incidence of major neurologic complications in these patients are controversial. ^3,4 Nevertheless, our patient, who had a preoperative subependymal hemorrhage, did not have neurologic complications after CPB. Despite the relatively low incidence of infective endocarditis in pediatric patients, it is an important complication during infancy. We believe that the excellent outcome in our case validates the principle of early surgery in premature, low-weight infants with active infective endocarditis refractory to medical treatment, since surgery is potentially lifesaving.

References

1. Picarelli D, Leone R, Duhagon P, Peluffo C, Zúñiga C, Gelós S, et al. Active infective endocarditis in infants and childhood: Ten-year review of surgical therapy. J Card Surg 1997;12:406-11. [Medline]
   
2. Pawade A, Asou T, Mee RBB. Total repair of interrupted aortic arch and ventricular septal defect on cardiopulmonary bypass in a neonate weighing 900 grams—a case report. Cardiol Young 1994;4:413-4.
   
3. Rossi AF, Seiden HS, Sadeghi AM, Nguyen KH, Quintana CS, Gross RP, et al. The outcome of cardiac operations in infants weighing two kilograms or less. J Thorac Cardiovasc Surg 1998;116:28-35. [Abstract/Free Full Text]
   
4. Reddy VM, McElhinney DB, Sagrado T, Parr AJ, Teitel DF, Hanley FL. Results of 102 of complete repairs of congenital heart defects in patients weighing 700 to 2500 grams. J Thorac Cardiovasc Surg 1999;117:324-31. [Abstract/Free Full Text]
   
5. Gu YJ, de Vries AJ, Boonstra PW, van Oeveren W. Leukocyte depletion results in improved lung function and reduced inflammatory response after cardiac surgery. J Thorac Cardiovasc Surg 1996;112:494-500. [Abstract/Free Full Text]
   

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This Article Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted 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): Dante Picarelli Permission Requests Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Picarelli, D. Articles by Duhagon, P. Search for Related Content PubMed PubMed Citation Articles by Picarelli, D. Articles by Duhagon, P.