Hostname: page-component-78c5997874-s2hrs Total loading time: 0 Render date: 2024-11-13T01:56:58.110Z Has data issue: false hasContentIssue false
  • English
  • Français

A study of congenital cardiac disease in a neonatal population – the validity of echocardiography undertaken by a neonatologist

Published online by Cambridge University Press:  21 January 2005

Gregory R. Samson  and
Suresh R. Kumar
Gregory R. Samson
Affiliation:
Department of Neonatal Medicine, Al Corniche Hospital, Abu Dhabi, United Arab Emirates
Suresh R. Kumar
Affiliation:
Department of Cardiology, Al Mafraq Hospital, Abu Dhabi, United Arab Emirates
Get access Rights & Permissions [Opens in a new window]

Abstract

Objectives: To estimate the incidence of, and profile the spread of, congenital cardiac defects, and to assess the accuracy of the echocardiographic diagnosis as performed by a neonatologist. Design: Hospital-based study. Methods: All neonates meeting our criterions, specifically those with a persistent murmur 48 hours after birth, underwent an echocardiographic examination to exclude an underlying congenital cardiac defect. All scans performed by the neonatologist were videotaped and reviewed by a paediatric cardiologist. We assessed concordance according to inter-rater agreement. Results: Out of 11,085 live births, there were 83 infants with a congenital cardiac defect, giving an incidence of 7.49 per 1000 live births, with 95% confidence interval from 5.88 to 9.09. Of the infants with a murmur persisting at or greater than 48 hours after birth, who had a median age of 4.5 days, 75% had a congenital heart defect, with ventricular septal defect being the commonest, encountered in 56.7% of cases. Concordance between the neonatologist and the cardiologist was good, with Cohen's Kappa coefficient being calculated at 0.68, and 95% confidence interval from 0.51 to 0.85. Conclusion: The incidence of congenital cardiac malformations as determined in our hospital-based study in the United Arab Emirates is similar to that described in the Gulf region and worldwide. A persistent murmur at or greater than 48 hours after birth is strongly suggestive of an underlying congenital cardiac malformation. Our experience shows that a neonatologist appropriately trained in echocardiography can perform as well as a paediatric cardiologist. Where specialist resources are limited, this allows for early diagnosis, earlier referral if necessary, and early institution of appropriate therapy.

Keywords

Congenital heart diseaseepidemiologynon-invasive investigation
Type
Original Article
Information
Cardiology in the Young , Volume 14 , Issue 6 , December 2004 , pp. 585 - 593
Copyright
© 2004 Cambridge University Press

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Khalil A, Aggarwal R, Thirupuram S, Arora R. Incidence of congenital heart disease among hospital live births in India. Indian Pediatr 1994; 31: 519527.Google Scholar
Wren C, Richmond S, Donaldson L. Presentation of congenital heart disease in infancy: implications for routine examination. Arch Dis Child Fetal Neonatal Ed 1999; 80: F44F53.Google Scholar
Fixler DE, Pastor P, Chamberlin M, Sigman E, Eifler CW. Trends in congenital heart disease in Dallas county births 1971–1984. Circulation 1990; 81: 137142.Google Scholar
Subramanyan R, Joy J, Venugopalan P, Sapru A, Al Khusaiby SM. Incidence and spectrum of congenital heart disease in Oman. Ann Trop Pediatr 2000; 20: 337341.Google Scholar
Bower C, Ramsay JM. Congenital heart disease: a 10 year cohort. J Pediatr Child Health 1994; 30: 414418.Google Scholar
Alabdulgader AAA. Congenital heart disease in 740 subjects: epidemiological aspects. Ann Trop Pediatr 2001; 21: 111118.Google Scholar
Robida A, Folger GM, Hajar HA. Incidence of congenital heart disease in Qatari children. Int J Cardiol 1997; 60: 1922.Google Scholar
Evans N. Echocardiography on neonatal intensive care units in Australia and New Zealand. J Paediatr Child Health 2000; 36: 169171.Google Scholar
Skinner J, Alverson D, Hunter S (eds). Echocardiography for the Neonatologist. Churchill Livingstone, London, 2000.
Altman DG. Practical Statistics for Medical Research. Chapman and Hall, London, 1991.
Hoffman JIE. Incidence of congenital heart disease: I. Postnatal Incidence. Pediatr Cardiol 1995; 16: 103113.Google Scholar
Freeman SB, Taft LF, Dooley KJ, et al. Population-based study of congenital heart disease in Down syndrome. Am J Med Gen 1998; 80: 213217.Google Scholar
Tubman TR, Shields MD, Craig BG, Mulholland HC, Nevin NC. Congenital heart disease in Down's syndrome: two year prospective early screening study. BMJ 1991; 302: 14251427.Google Scholar
Bhatia S, Verma IC, Shrivastava S. Congenital heart disease in Down Syndrome: an echocardiographic study. Indian Pediatr 1992; 29: 11131115.Google Scholar
Jones KL. Smith's Recognizable Patterns of Human Malformation, 5th edn. WB Saunders Co., 1997.
Al-Jawad ST, Shubbar AI, Khafaji NA, Kholeif SA, Lane SM, Moore DK. A survey of serious congenital morphological abnormalities in Abu Dhabi. Ann Trop Pediatr 1988; 8: 7679.Google Scholar
Niazi MA, Al-Mazyad AS, Al-Husain MA, et al. Down's syndrome in Saudi Arabia: incidence and cytogenetics. Hum Hered 1995; 45: 6569.Google Scholar
Verma IC, Mathews AR, Faquth A, el-Zouki AA, Malik GR, Mohammed F. Cytogenetic analysis of Down syndrome in Libya. Indian J Pediatr 1990; 57: 245248.Google Scholar
Stoll C, Alembik Y, Dott B, Roth MP. Epidemiology of Down syndrome in 118,265 consecutive births. Am J Med Gen 1990; 7: 7983.Google Scholar
Wells GL, Barker SE, Finley SC, Colvin EV, Finley WH. Congenital heart disease in infants with Down's syndrome. South Med J 1994; 87: 724727.Google Scholar
Torfs CP, Christianson RE. Maternal risk factors and major associated defects in infants with Down syndrome. Epidemiology 1999; 10: 264270.Google Scholar
Venugopalan P, Agarwal AK. Spectrum of congenital heart defects associated with Down syndrome in high consanguineous Omani population. Indian Pediatr 2003; 40: 398403.Google Scholar
Lin MH, Wang NK, Hung KL, Shen CT. Spontaneous closure of ventricular septal defects in the first year of life. J Formos Med Assoc 2001; 100: 539542.Google Scholar
McMahon CJ, Feltes TF, Fraley JK, et al. Natural history of growth of secundum atrial septal defects and implications for transcatheter closure. Heart 2002: 87; 256259.Google Scholar
Mironiuk M, Kietlinska Z, Jezierska-Kasprzyk K, Piekosz-Orzechowska B. A class of diabetes in mother, glycemic control in early pregnancy and occurrence of congenital malformations in newborn infants. Clin Exp Obstet Gynecol 1997; 24: 193197.Google Scholar
Janssen PA, Rothman I, Schwartz SM. Congenital malformations in newborns of woman with established and gestational diabetes in Washington State, 1984–91. Paediatr Perinat Epidemiol 1996; 10: 5263.Google Scholar
Loffredo CA, Wilson PD, Ferencz C. Maternal diabetes: an independent risk factor for major cardiovascular malformations with increased mortality of affected infants. Teratology 2001; 64: 98106.Google Scholar
Becerra JE, Khoury MJ, Cordero JF, Erickson JD. Diabetes mellitus during pregnancy and the risks for specific birth defects: a population-based case–control study. Pediatrics 1990; 85: 19.Google Scholar
Wren C, Birrell G, Hawthorne G. Cardiovascular malformations in infants of diabetic mothers. Heart 2003; 89: 12171220.Google Scholar
Ferencz C, Rubin JD, McCarter RJ, Clark EB. Maternal diabetes and cardiovascular malformations: predominance of double outlet right ventricle and truncus arteriosus. Teratology 1990; 41: 319326.Google Scholar
Southall DP, Johnson AM, Shinebourn EA, Johnston PG, Vulliamy DG. Frequency and outcome of disorders of cardiac rhythm and conduction in a population of newborn infants. Pediatrics 1981; 68: 5866.Google Scholar
Calvin SE, Gaziona EP, Bendel RP, Knox GE, Brandt DG. Evaluation of fetal cardiac arrythmias. Ultrasound findings and neonatal outcome. Minn Med 1992; 75: 2931.Google Scholar
Eronin M, Siren MK, Ekblad H, Tikanoja T, Julkunen H, Paavilainen T. Short- and long-term outcome of children with congenital complete heart block diagnosed in utero or as a newborn. Pediatrics 2000; 106: 8691.Google Scholar
Tanel RE, Rhodes LA. Fetal and neonatal arrhythmias. Clin Perinatol 2001; 28: 187207.Google Scholar
Rein AJJT, Omokhodion SI, Nir A. Significance of a cardiac murmur as the sole clinical sign in the newborn. Clin Pediatr 2000; 39: 511520.Google Scholar
Farrer KFM, Rennie JM. Neonatal murmurs: are senior house officers good enough? Arch Dis Child Fetal Neonatal Ed 2003; 88: F147F151.Google Scholar
Du Z-D, Roguin N, Barak M. Clinical and echocardiographic evaluation of neonates with heart murmurs. Acta Paediatr 1997; 86: 752756.Google Scholar
Ward CJB, Purdie J. Diagnostic accuracy of paediatric echocardiograms interpreted by individuals other than paediatric cardiologists. J Paediatr Child Health 2001; 37: 331336.Google Scholar
Scholler G. Echocardiography in congenital heart disease: Diagnosis, misdiagnosis and ownership. J Paediatr Child Health 2001; 37: 321322.Google Scholar
Skinner JR. Echocardiography on the neonatal unit. A job for the neonatologist or the cardiologist. Arch Dis Child 1998; 78: 401402.Google Scholar
Evans N. Echocardiography on neonatal intensive care units in Australia and New Zealand. J Paediatr Child Health 2000; 36: 169171.Google Scholar
Moss S, Kitchener DJ, Yoxall CW, Subhedar NV. Evaluation of echocardiography on the neonatal unit. Arch Dis Child Fetal Neonatal Ed 2003; 88: F287F291.Google Scholar
Whitehall J. Echocardiography by a neonatologist (Letter). Arch Dis Child 1999; 80: 579.Google Scholar
Arlettaz R, Archer N, Wilkinson AR. Natural history of innocent murmurs in newborn babies: controlled echocardiographic study. Arch Dis Child Fetal Neonatal Ed 1998; 78: F166F170.Google Scholar
Fisher DC, Fisher EA, Budd JH, Rosen ES, Goldman ME. The incidence of patent foramen ovale in 1000 consecutive patients. Chest 1995; 107: 15041509.Google Scholar
Evans N. Assessment of interatrial shunting. In: Skinner J, Alverson D, Hunter S (eds). Echocardiography for the Neonatologist. Churchill Livingstone, London, 2000.