Early signs of adulthood type 2 diabetes can be seen in children as young as 8 years old, decades before it is likely to be diagnosed, according to new research.
A team from the University of Bristol analysed genetic information already known to increase the chances of type 2 diabetes in adulthood, together with measures of metabolism across early life.
They found that being more susceptible to adult diabetes affected a child’s levels of high-density lipoprotein (HDL), essential amino acids, and a chronic inflammatory trait measured in the blood. Certain types of HDL lipids were among the earliest features of susceptibility to type 2 diabetes.
Commonly diagnosed
Co-lead researcher Dr Joshua Bell, from the MRC Integrative Epidemiology Unit at the university, said: “It’s remarkable that we can see signs of adult diabetes in the blood from such a young age-this is about 50 years before it’s commonly diagnosed.
“This is not a clinical study; nearly all participants were free of diabetes and most will not go on to develop it. This is about liability to disease and how genetics can tell us something about how the disease develops.”
The study tracked more than 4,000 children and the research team combined genetics with an approach called ‘metabolomics’, which involves measuring many small molecules in a blood sample to try and identify patterns that are unique to type 2 diabetes.
The effects of a genetic risk score (including 162 genetic elements) for adult type 2 diabetes were examined on over 200 metabolic traits measured four times on the same participants-once in childhood (when aged 8 years), twice in adolescence (when aged 16 years and 18 years), and once in young adulthood (when aged 25 years).
"If we want to prevent diabetes, we need to know how it starts. Genetics can help with that, but our aim here is to learn how diabetes develops, not to predict who will and will not develop it"
The study was conducted among young healthy people who were generally free of type 2 diabetes and other chronic diseases to see how early in life the effects of diabetes susceptibility become visible.
In particular, HDL cholesterol was reduced at age 8 before other types of cholesterol including LDL (bad cholesterol) were raised, and inflammatory glycoprotein acetyls and amino acids were elevated by 16 and 18 years old. These differences widened over time.
Dr Bell added: “If we want to prevent diabetes, we need to know how it starts. Genetics can help with that, but our aim here is to learn how diabetes develops, not to predict who will and will not develop it. Other methods may help with prediction but won’t necessarily tell us where to intervene.
“Knowing what early features of type 2 diabetes look like could help us to intervene much earlier to halt progression to full blown diabetes and its complications.”
The results were presented at this year’s European Association for the Study of Diabetes (EASD) Annual Meeting in Barcelona, Spain (16-20 September).
The effects of a genetic risk score (including 162 genetic elements) for adult type 2 diabetes were examined on over 200 metabolic traits measured four times on the same participants-once in childhood (when aged 8 years), twice in adolescence (when aged 16 years and 18 years), and once in young adulthood (when aged 25 years).
"If we want to prevent diabetes, we need to know how it starts. Genetics can help with that, but our aim here is to learn how diabetes develops, not to predict who will and will not develop it"
The study was conducted among young healthy people who were generally free of type 2 diabetes and other chronic diseases to see how early in life the effects of diabetes susceptibility become visible.
In particular, HDL cholesterol was reduced at age 8 before other types of cholesterol including LDL (bad cholesterol) were raised, and inflammatory glycoprotein acetyls and amino acids were elevated by 16 and 18 years old. These differences widened over time.
Dr Bell added: “If we want to prevent diabetes, we need to know how it starts. Genetics can help with that, but our aim here is to learn how diabetes develops, not to predict who will and will not develop it. Other methods may help with prediction but won’t necessarily tell us where to intervene.
“Knowing what early features of type 2 diabetes look like could help us to intervene much earlier to halt progression to full blown diabetes and its complications.”
The results were presented at this year’s European Association for the Study of Diabetes (EASD) Annual Meeting in Barcelona, Spain (16-20 September).
https://diabetestimes.co.uk/early-signs-of-adult-type-2-visible-in-children-as-young-as-8-years-old/
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