Summary: Children born at or before 34 weeks of gestation tended to have lower scores in tests for mathematics, language, and IQ as teenagers compared to those born at full term.
Premature birth, before 34 weeks of pregnancy, is linked to lower scores in maths and language tests as a teenager compared with those born at 40 weeks, finds a large Danish population study published today in The BMJ.
The study, however, found no substantial difference in later brain (cognitive) function in babies born between 34-39 weeks and those born at 40 weeks. And the researchers acknowledge that cognitive outcomes are not predetermined at birth but are heavily influenced by social circumstances.
It is estimated that around 15 million infants are born preterm, before 37 weeks of pregnancy, worldwide each year. The final weeks of pregnancy are significant for fetal brain development, and preterm and early-term birth are thought to have a negative impact on later brain function.
However, previous studies have been relatively small, primarily limited to one measure, or didn’t sufficiently adjust for other factors that could have influenced the results.
To more accurately determine the impact of gestational age—duration of pregnancy in weeks—at birth on long-term cognitive function, the researchers analysed data for all full siblings born in Denmark from 1 January 1986 to 31 December 2003.
A total of 1.2 million children were born in this period, of whom 792,724 had at least one full sibling born in the same period, which allowed the researchers to take into account hereditary factors such as maternal intelligence.
Using nationwide registry information, the researchers analysed gestational age at birth, along with their exam results in written Danish language and maths at age 15-16, and separately, the results of intelligence tests taken by 227,403 brothers aged around 18, at mandatory military conscription.
Potentially influential factors, including sex, birth weight, parental age and educational level at birth, number of older siblings, and shared family factors between siblings were also taken into account in the analysis.
The researchers calculated how far an exam result was above or below the average grade, and compared this score for siblings at each gestational age to the score for siblings born at term.
Overall, 44,322 (5.6%) of the 792,724 children were born before 37 weeks. Of these, only those born before 34 weeks had significantly lower than average maths scores than those born at 40 weeks, and grades progressively decreased with increasing prematurity.
For written language, however, only children born at or less than 27 weeks showed a significantly lower than average grade.
Analysis of military conscription intelligence test scores, measured in IQ points, also showed markedly lower test scores for those born before 34 weeks.
For those born after 34 weeks, there was a less than 1 point reduction in IQ, compared with those born at 40 weeks. But there was a 2.4 point IQ reduction for those born between 32-33 weeks, a 3.8 point reduction for 28-31 weeks, and a 4.2 point reduction for those born at or before 27 weeks.
This is an observational study so can’t establish cause and the researchers also acknowledge some limitations. For instance, smoking during pregnancy was not recorded before 1991, and test results may differ from real-life outcomes such as lifetime income.
But they say the study has the advantage of a large sample size and their sibling comparison design most likely accounts for other factors such as maternal smoking. Results were also similar after further analyses, such as including children who did not take exams, suggesting that the findings withstand scrutiny.
While underlying reasons for these findings are still not clear, the researchers suggest that as low cognitive ability is linked to decreased quality of life and early death, their findings “stress the need for more research into how these adverse outcomes can be prevented.”
They add: “Cognitive outcomes are not, however, predetermined at birth but are heavily influenced by social circumstances and nurturing, and this is why early intervention is warranted for children born early preterm.”
In a linked editorial, Canadian researchers acknowledge that cognitive deficits in early life could have a lifelong influence on a person’s capacity and capabilities.
However, they say that although parents and clinicians should be aware of potential educational and cognitive difficulties associated with preterm birth, “parents should be reassured that the magnitude of these differences is not always substantial, particularly for those born at later gestations.”
And they suggest that sibling comparisons have caveats and that since the causes of preterm birth are complex and poorly understood, “efforts to identify and improve on other socio-environmental factors could be a more successful approach to mitigating any associated neurocognitive deficits.”
About this cognition and neurodevelopment research news
Original Research: Open access.
“Gestational age at birth and cognitive outcomes in adolescence: population based full sibling cohort study” by A Husby et al. BMJ
Gestational age at birth and cognitive outcomes in adolescence: population based full sibling cohort study
To investigate the association between gestational age at birth and cognitive outcomes in adolescence.
Nationwide population based full sibling cohort study.
1.2 million children born between 1 January 1986 and 31 December 2003, of whom 792 724 had one or more full siblings born in the same period.
Main outcome measures
Scores in written language (Danish) and mathematics examinations as graded by masked assessors at the end of compulsory schooling (ninth grade, ages 15-16 years), in addition to intelligence test score at military conscription (predominantly at age 18 years) for a nested sub-cohort of male adolescents. School grades were standardised as z scores according to year of examination, and intelligence test scores were standardised as z scores according to year of birth.
Among 792 724 full siblings in the cohort, 44 322 (5.6%) were born before 37+0 weeks of gestation. After adjusting for multiple confounders (sex, birth weight, malformations, parental age at birth, parental educational level, and number of older siblings) and shared family factors between siblings, only children born at <34 gestational weeks showed reduced mean grades in written language (z score difference −0.10 (95% confidence interval −0.20 to −0.01) for ≤27 gestational weeks) and mathematics (−0.05 (−0.08 to −0.01) for 32-33 gestational weeks, −0.13 (−0.17 to −0.09) for 28-31 gestational weeks, and −0.23 (−0.32 to −0.15) for ≤27 gestational weeks), compared with children born at 40 gestational weeks. In a nested sub-cohort of full brothers with intelligence test scores, those born at 32-33, 28-31, and ≤27 gestational weeks showed a reduction in IQ points of 2.4 (95% confidence interval 1.1 to 3.6), 3.8 (2.3 to 5.3), and 4.2 (0.8 to 7.5), respectively, whereas children born at 34-39 gestational weeks showed a reduction in intelligence of <1 IQ point, compared with children born at 40 gestational weeks.
Cognitive outcomes in adolescence did not differ between those born at 34-39 gestational weeks and those born at 40 gestational weeks, whereas those with a gestational age of <34 weeks showed substantial deficits in multiple cognitive domains.