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Blood test may predict future risk of cardiovascular events

A study of 27,000 women finds that branched-chain amino acid levels in the bloodstream are as predictive of heart disease as LDL cholesterol, other risk factors…

cardiovascular

Despite heart disease and type 2 diabetes being among the leading causes of death in the US the mechanisms leading to and linking these two diseases remain incompletely understood. A new study by investigators at Brigham and Women’s Hospital may help shed light on a molecular pathway that heart disease and diabetes share, and points to a biomarker that is elevated in women at risk of cardiovascular disease and diabetes.

“We examined more than 27,000 women in the Women’s Health Study and found that a one-time measurement of branched-chain amino acids in the bloodstream – a test that now can be easily done – predicted future risk of cardiovascular events to the same extent and independent of LDL cholesterol and other risk factors,” said corresponding author Dr Samia Mora, of the Center for Lipid Metabolomics at BWH. “This was particularly so for women who developed type 2 diabetes prior to their cardiovascular disease.”

Branched-chain amino acids (BCAAs) are thought to play a causal role in the development of insulin resistance and type 2 diabetes. However, few studies have evaluated the association between BCAAs and cardiovascular disease. To investigate, the team measured BCAA levels in blood samples using NMR spectrometry. Of the more than 27,000 women studied, 2,207 experienced a cardiovascular event over the 18 years follow up period.

The team found a positive association between BCAA levels and incident of CVD events. This association was much more pronounced in women who developed diabetes before experiencing a cardiovascular event. The team adjusted for other biomarkers related to diabetes – including hbA1c – finding evidence that BCAAs may be tied to downstream biomarkers of type 2 diabetes metabolism.

“Impaired BCAA metabolism may represent a shared pathway of the metabolic pathophysiology that links the risks of T2D and CVD,” the authors conclude.

“There is little known at this time as to what leads to elevated levels of BCAAs or what can be done clinically to reduce them, and if this leads to a reduction in risk, but further research will target these important questions,” said Diedre Tobias.

The team’s results were presented at the AHA Epidemiology and Lifestyle meeting and simultaneously published in Circulation: Genomic and Precision Medicine.

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