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Bayley-II Mental Developmental Index scores at 9 and 18 months for children under 1000 grams birthweight

Published online by Cambridge University Press:  29 October 2015

J.Anne Dezoete*
Affiliation:
Child Development Unit, National Women’s Hospital
Barton A. MacArthur
Affiliation:
Child Development Unit, National Women’s Hospital
*
Child Development Unit, 1st Floor, National Women’s Hospital, Private Bag 92-189, Auckland New Zealand, Phone: 09-630-9878, Fax: 09-630-9753, E-mail: [email protected]
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Abstract

This study identified selected perinatal and neonatal variables that place ELBW children at particularly high risk for cognitive delay. Forty children weighing less than 1000 grams (ELBW) at birth underwent developmentol assessment at 9 and 18 months on the Bayley II Mental Development lndex (MDI). Decline in MDI scores between these two ages was evident for infants under 26 weeks gestation at birth as well as for children categorised with an impairment (outcome categories I and II). At 9 months, MDI scores were significantly lower for children with chronic lung disease, for those who required formal developmental intervention, and for those hospitalised for respiratory problems. At 18 months, cognitive scores were significantly lower for children on four variables: gestational age less than 26 weeks; semi-skilled, unskilled, unemployed parents (levels 5 and 6); formal intervention; and admission to hospital for respiratory illness. Greater emphasis on intervention for these at-risk variables is recommended.

Type
Research Article
Copyright
Copyright © Australian Psychological Society 1999

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References

Bayley, N. (1969). Manual for the Bayley Scales of Infant Development New York: The Psychological Corporation.Google Scholar
Bayley, N. (1993). Manual for the Bayley Scales of Infant Development (2nd ed.). San Antonio: The Psychological Corporation.Google Scholar
Campbell, S. K., Siegel, E., Parr, C. A., & Ramey, C. T. (1986). Evidence for the need to renorm the Bayley Scales of Infant Development based on the performance of a population-based sample of 12-month-old-infants. Topics in Early Childhood Special Education, 6, 8396.CrossRefGoogle Scholar
Dezoete, J. A., MacArthur, B. A., & Aftimos, S. A. (1997). Developmental outcome at 18 months of children less than 1000 grams. New Zealand Medical Journal, 110, 205207.Google ScholarPubMed
Dezoete, A. J., & MacArthur, B. A. (1995). Cognitive development of children with birthweightsunder 1500 grams: Intelligence test scores and socioeconomic status. The Australian Educational and Developmental Psychologist, 12, 1824.CrossRefGoogle Scholar
Elley, W. B., & Irving, J. C. (1985). The Elley-Irving Socio-Economic Index 1981 Census Revision. New Zealand Journal of Educational Studies, 20 (2), 129139.Google Scholar
Flanagan, D. R., & Alfonso, V. C. (1995). A critical review of the technical characteristics of new and recently revised intelligence tests for preschool children. Journalof Psychoeducational Assessment, 13 (1), 6690.CrossRefGoogle Scholar
Kitchen, W., Ford, G., Orgill, A., Rickards, A., Astbury, J., Lissenden, J., Bajuk, B., Yu, V., Drew, J., & Campbell, N. (1984). Outcome in infants with birthweight 500 to 999 gm: A regional study of 1979 and 1980 births. Journal of Pediatrics, 104, 921927.CrossRefGoogle Scholar
Kitchen, W., Ford, G., Rickards, A., Lissenden, J., & Ryan, M. (1987). Children of birthweight < 1000g: Changing outcome between ages 2 and 5 years. Journal of Pediatrics, 110, 283288.CrossRefGoogle Scholar
McCormick, M. C., McCarton, C., Tonascia, J., & Brooks-Gunn, J. (1993). Early educational intervention for very low birthweight infants: Results from the Infant Health and Development Program. Journal of Pediatrics, 123(4), 527533.CrossRefGoogle ScholarPubMed
Meisels, S. J., Plunkett, J. W., Roloff, D. W., Pasick, P.L., & Stiefel, G. S. (1986). Growth and development of preterm infants with respiratory distress syndrome and bronchopulmonary dysplasia. Pediatrics, 77, 345352.CrossRefGoogle ScholarPubMed
O’Callaghan, M.J.Burns, Y.Gray, P.Harvey, J.M., Mohay, H.I., Rogers, Y., & Tudehope, D. I. (1995). Extremely low birth weight and control infants at 2 years corrected age: A comparison of intellectual abilities, motor performance, growth and health. Early Human Development, 40,115125.CrossRefGoogle ScholarPubMed
Yeo, C.L., Choo, S., & Ho, L.Y. (1997). Chronic lung disease in very low birthweight infants: A 5-year review. Journal of Paediatric and Child Health, 33 (2), 102–6.CrossRefGoogle ScholarPubMed