Growth patterns during a child's first two years of life may shape pubertal growth and adult height, but have little effect on pubertal timing, according to research presented at the first Joint Congress of the European Society of Paediatric Endocrinology (ESPE) and the European Society of Endocrinology (ESE).
The
findings emphasise the significance of early-life growth, which could be used
to forecast future growth, development, and health.
It is well established that the early-life growth period -- from conception to
approximately two years of age -- is crucial in determining long-term health
outcomes later in life. However, previous research has mainly focused on weight
due to its widespread data availability, and the differences in pubertal
growth, pubertal timing and adult height between individuals have not yet been
explained by early growth.
Now, in this study, researchers from
Sweden analysed data on the height measurements, birth characteristics and
parental heights of 4,700 individuals with Nordic ethnicity, born in 1974 and
1990, from the GrowUp Gothenburg cohorts.
Using the
Quadratic-Exponential-Pubertal-Stop (QEPS) model to assess growth patterns, the
researchers found that early-life growth accounted for about 38 per cent of the
variation in pubertal growth, but the height changes during puberty explained
only about 9 per cent of the variation in adult height.
About 67 per cent of the difference in
adult height between individuals was determined by early life, about 67 per
cent was by childhood growth, whereas about 60 per cent was attributed to birth
size and 37 per cent to the average height of both parents.
"Surprisingly,
the timing of puberty was not significantly influenced by early-life growth
which suggests that, while early-life growth plays a significant role in growth
during puberty and in determining final adult height, other factors such as
genetics and the environment may be stronger determinants of pubertal
timing," said first author Dr Carin Skogastierna from the University of
Gothenburg and Sahlgrenska University Hospital in Sweden.
Previous
studies have also shown similar associations between early-life growth and
adult height. However, these associations have never been studied using the
QEPS growth model -- a model that allowed the researchers to examine specific
growth stages separately. "With the QEPS growth model, we were able to
study specific early growth and specific pubertal growth, separately from the
ongoing 'basic' growth for the first time," said Dr Skogastierna.
Dr
Skogastierna said, "We are continuing to work to understand how early-life
growth relates to wellbeing, health and socio-economic status later in life,
and how this information may be used alongside efforts to support early-life
monitoring and healthy lifestyle changes to prevent disease."
"It is important to note that if poor
early growth is associated with reduced wellbeing in adolescents and a higher
risk of disease and death in adulthood, such findings could further emphasise
that healthcare aimed at young children is a good socio-economic investment for
society," she added. (ANI)
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