Developmental differences in late preterm babies may not emerge until after age 2

From University of Michigan Health System:

ANN ARBOR, Mich. – Developmental differences in babies born 4 to 6 weeks early may not show up until after they turn two, a new study suggests.

Researchers from C.S. Mott Children’s Hospital at the University of Michigan tracked children from infancy through kindergarten and compared developmental outcomes between late preterm infants (born between 34 and 36 weeks); those born early term (37 to 38 weeks) and term (39 to 41 weeks).

At age two, late preterm babies were developmentally on track with peers, performing equally well on tasks such as recognizing faces and objects, understanding directions and naming items. By preschool and kindergarten, however, this group showed less than optimal math and reading scores compared to children born at full term, according to the findings published in Pediatrics.

“We found small but meaningful differences in developmental outcomes between late preterm infants and full term groups, which if applied to larger populations, may have potentially significant long term public health implications,” says lead author Prachi Shah, M.D., a developmental and behavioral pediatrician at U-M’s C.S. Mott Children’s Hospital.

“We found that developmental differences began emerging between 24 months and preschool, which suggests that late preterm infants may benefit from closer developmental monitoring and interventions before starting school.”

Researchers analyzed data on 1,000 late preterm, 1,800 early term and 3,200 full term infants from the Early Childhood Longitudinal Study, Birth Cohort. The study is the first to track and compare developmental outcomes of early term and at term groups in a nationally representative, population-based U.S. sample.

Authors point to potential explanations for the pattern of development in late preterm infants from nine months to kindergarten. Compared with infants born full term, the late preterm brain has lower brain volume and less distinct patterns of neural connectivity. These structural differences, including lower gray matter volume, may have implications …

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