Acute Effects of Added Sugar Intake on Cerebrovascular Function and Brain Integrity

Cardiometabolic risk factors are strongly influenced by lifestyle-related environmental factors including the consumption of an unhealthy Western diet (WD). Added sugars (i.e., caloric sweeteners added to food during processing or preparation) have become a major component of the WD that are especially high in added fructose. Americans currently consume more calories from added sugars than is recommended by the American Heart Association (AHA), leading to an increased risk of cardiovascular disease (CVD), which in turn shares common risk factors with age-related memory loss and dementia. Whereas glucose is used as an immediate energy source or stored as glycogen, fructose is associated with the delayed production of triglycerides (TGs) and uric acid. Previous studies have shown that a single high-sugar meal can increase TGs in the blood 150-180 minutes after meal consumption. Increased blood TGs promote release of harmful substances that contribute to the reduction in blood vessel function and may also impact brain blood vessel function; however, these effects are not well established in humans. Our preliminary data has shown a positive association between high added sugars and plasma TG and uric acid concentration, which has been associated with reduced blood vessel function. However, the direct effects of acute added sugar intake on brain blood vessel function is currently unknown. We have also observed that high blood TGs are associated with reduced microstructural integrity of the hippocampus, a brain structure important for memory and other thinking abilities. Therefore, the purpose of this study is to establish a causal link between high added sugar consumption and reduced brain blood vessel function and microstructural integrity. We propose to examine the acute effects of high TGs and uric acid from a single high-sugar meal on brain blood vessel function and brain integrity. To test this hypothesis, we will conduct a randomized-controlled crossover trial of a high-sugar meal vs. a low-sugar meal. This project has the potential to identify future risk of dementia and other memory-related brain diseases caused from repetitive acute insults from high added sugar consumption and will help us inform the public to make better dietary choices.