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Wednesday, May 2, 2018

Physical activity helps fight genetic risk of heart disease

Woman running across grassStanford: In an observational study of almost a half-million participants, Stanford researchers discovered an association between high fitness levels and low heart disease, even among those at genetic risk
A new study found that keeping physically fit enhances heart health, even for those with a high genetic risk for heart disease.
Keeping fit, even if you’re born with a high genetic risk for heart disease, still works to keep your heart healthy, according to a study led by researchers at the Stanford University School of Medicine.

In one of the largest observational studies on fitness and heart disease, researchers examined data collected from nearly a half-million people in the UK Biobank database. They found that people with higher levels of grip strength, physical activity and cardiorespiratory fitness had reduced risks of heart attacks and stroke, even if they had a genetic predisposition for heart disease.
“People should not just give up on exercise because they have a high genetic risk for heart disease,” said Erik Ingelsson, MD, PhD, professor of cardiovascular medicine. “And vice versa: Even if you have a low genetic risk, you should still get exercise. It all ties back to what we have known all along: It’s a mix of genes and environment that influence health.”
A paper describing the research was published online April 9 in Circulation. Ingelsson is the senior author. The lead author is Emmi Tikkanen, PhD, a former postdoctoral scholar at Stanford who is now senior data scientist at Nightingale Health Ltd. in Finland.

Grip tests, accelerometers and more

To determine the fitness and activity levels of participants, researchers used data previously collected from 482,702 participants who underwent grip-strength that correlate with overall body strength; answered questions about their levels of physical activity; wore accelerometers on their wrists for seven days; and took stationary-cycling tests. Genetic data from 468,095 of the participants was also used in the study.
Erik Ingelsson
Erik Ingelsson
Researchers found across the board that higher levels of fitness and physical activity were associated with lower levels of several negative cardiovascular outcomes, including coronary artery disease, stroke and atrial fibrillation.
Among those considered at high genetic risk for heart disease, high levels of cardiorespiratory fitness were associated with a 49 percent lower risk for coronary heart disease and a 60 percent lower risk for atrial fibrillation compared with study participants with low cardiorespiratory fitness.
For participants deemed at intermediate genetic risk for cardiovascular diseases, those with the strongest grips were 36 percent less likely to develop coronary heart disease and had a 46 percent reduction in their risk for atrial fibrillation compared with study participants who had the same genetic risk and the weakest grips. Researchers determined various levels of genetic risk according to measurements based on discoveries from genomewide association studies, the most common study design to discover genetic variation associated with disease.

‘It can make a difference’

Given little has been known about the risk-modifying effects of exercise in individuals with increased genetic risk of cardiovascular disease, these results could have important ramifications for public health the study said.
“This is important because of how we advise our patients,” Ingelsson said. “It’s basically indicating that you can make some lifestyle changes, be more physically active and it can make a difference to your long-term health.”
A researcher at Uppsala University in Sweden contributed to the study.
Ingelsson is a member of the Stanford Cardiovascular Institute and of Stanford Bio-X.
The research was supported by the National Institutes of Health (grants 1R01HL135313 and 1R01DK106236), the Knut and Alice Wallenberg Foundation, the Finnish Cultural Foundation, the Finnish Foundation for Cardiovascular Research and the Emil Aaltonen Foundation.
Stanford’s Department of Medicine also supported the work.