The relation of small head circumference and thinness at birth to death from cardiovascular disease in adult life.

DJ Barker, C Osmond, SJ Simmonds, GA Wield - British Medical Journal, 1993 - bmj.com
DJ Barker, C Osmond, SJ Simmonds, GA Wield
British Medical Journal, 1993bmj.com
OBJECTIVE--To determine how fetal growth is related to death from cardiovascular disease
in adult life. DESIGN--A follow up study of men born during 1907-24 whose birth weights,
head circumferences, and other body measurements were recorded at birth. SETTING--
Sheffield, England. SUBJECTS--1586 Men born in the Jessop Hospital. MAIN OUTCOME
MEASURE--Death from cardiovascular disease. RESULTS--Standardised mortality ratios for
cardiovascular disease fell from 119 in men who weighed 5.5 pounds (2495 g) or less at …
OBJECTIVE
To determine how fetal growth is related to death from cardiovascular disease in adult life.
DESIGN
A follow up study of men born during 1907-24 whose birth weights, head circumferences, and other body measurements were recorded at birth.
SETTING
Sheffield, England.
SUBJECTS
1586 Men born in the Jessop Hospital.
MAIN OUTCOME MEASURE
Death from cardiovascular disease.
RESULTS
Standardised mortality ratios for cardiovascular disease fell from 119 in men who weighed 5.5 pounds (2495 g) or less at birth to 74 in men who weighed more than 8.5 pounds (3856 g). The fall was significant for premature cardiovascular deaths up to 65 years of age (chi 2 = 5.0, p = 0.02). Standardised mortality ratios also fell with increasing head circumference (chi 2 = 4.6, p = 0.03) and increasing ponderal index (weight/length3) (chi 2 = 3.8, p = 0.05; for premature deaths chi 2 = 6.0, p = 0.01). They were not related to the duration of gestation. Among men for whom the ratio of placental weight to birth weight was in the highest fifths the standardised mortality ratio was 137.
CONCLUSION
These findings show that reduced fetal growth is followed by increased mortality from cardiovascular disease. They suggest that reduction in growth begins early in gestation. They are further evidence that cardiovascular disease originates through programming of the body's structure, physiology, and metabolism by the environment during fetal life. Maternal nutrition may have an important influence on programming.
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