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Diagnostic utility of color flow Doppler in extracardiac causes of congestive heart failure in infants

Published online by Cambridge University Press:  19 August 2008

Carl M. Reed
Affiliation:
From the Departments of PediatricsUniversity of Tennessee, Memphis
Thomas F. Boulden
Affiliation:
From the Departments of PediatricsUniversity of Tennessee, Memphis
Judith A. Becker
Affiliation:
From the Departments of PediatricsUniversity of Tennessee, Memphis
Ina L. Tonkin
Affiliation:
Radiology, University of Tennessee, Memphis
Bruce S. Alpert
Affiliation:
From the Departments of PediatricsUniversity of Tennessee, Memphis
Thomas G. DiSessa*
Affiliation:
From the Departments of PediatricsUniversity of Tennessee, Memphis
*
Dr. Thomas G. DiSessa, Physicians Office Building, 777 Washington Avenue, Suite 215, Memphis, TN 38105, USA. Tel. (901) 522-3380.

Summary

Systemic vascular malformations are a rare cause of congestive heart failure in the infant and newborn infant. Clinical diagnosis is often problematic. Accordingly, this study presents the clinical, radiographic, ultrasound imaging, pulsed and color Doppler features of systemic vascular malformations in six infants. In all cases, color Doppler provided vital information regarding size, location, source of feeding arteries and venous drainage essential for appropriate management of these patients. Color flow Doppler ultrasonography is an accurate and sensitive modality for detecting and evaluating vascular malformations.

Type
Original Articles
Copyright
Copyright © Cambridge University Press 1993

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References

title

1.Quero-Jiménez, MGuillen, FA. Arteriovenous fistulas. In: Moss, AJ, Adams, FH, Emmanouilides, GC (eds). Heart Disease in Infants, Children, and Adolescents. Williams & Wilkins, BaIn more, 1990, pp 617626.Google Scholar
2.Musewe, NNSmalihorn, JFBurrows, PEIzukawa, TFreedom, RM. Echocardiographic and Doppler evaluation of the aortic arch and brachycephalic vessels in cerebral and systemic arterio venous fistulas. J Am Coil Cardiol 1988; 12: 15291535.CrossRefGoogle Scholar
3.Snider, ARSoifer, SJSilverman, NH. Detection of intracranial arteriovenous fistula by two-dimensional ultrasonography. Cir culation 1981; 63: 11791185.Google Scholar
4.Kangerloo, HGold, RHBenson, LDiament, MJDiSessa, TBoechat, MT. Sonography of extrathoracic left-to-right shunts in infants and children. Am J Rad 1983; 141: 923926.Google Scholar
5.Soto, GDaneman, AMellman, j. Doppler evaluation ofcerebral arteries in Galenic vein malformation. J Ultrasound Med 1985;4: 673675.CrossRefGoogle Scholar
6.Graves, VB.Duif, TA. Intracranial arteriovenous malformations:current imaging and treatment. Invest Radiol 1990; 25: 925960.Google Scholar
7.Fyler, DCBuckley, LPHellenbrand, WCohn, HE. Report of the New England Regional Infant Cardiac Program. Pediatrics 1980; 65: 376461.Google Scholar
8.Jedeikin, RRowe, RDFreedom, RMOlley, PMGillan, JE. Cerebral arteriovenous malformation in neonates. Ped Cardiol 1983; 4: 2935.Google Scholar
9.Cumming, GR. Circulation in neonates with intracranial arte riovenous fistula and cardiac failure. Am J Cardiol 1980; 45:10191045.CrossRefGoogle Scholar