Type 2 diabetes impairs blood flow regulation in brain, study shows
A research has shown that patients with type 2 diabetes are at an increased risk of reduction in their cognitive and decision-making abilities because the diabetes impairs blood flow regulation in brain.
Researchers found that in just two years, people with type 2 diabetes experienced negative changes in their ability to regulate blood flow in the brain, which was associated with lower scores on tests of cognition skills and their ability to perform their daily activities.
Study author Vera Novak, MD, PhD, of Harvard Medical School in Boston explains that when there is normal blood flow regulation, the brain is able to redistribute blood to areas that have increased activity while performing certain tasks. However, in case of people with type 2 diabetes, the blood flow regulation is impaired and results of their study has shown that diabetes and high blood sugar impose a chronic negative effect on cognitive and decision-making skills.
The study involved 40 people with an average age of 66 of whom 19 had type 2 diabetes and 21 did not have diabetes. Those with diabetes had been treated for the disease for an average of 13 years. The participants were tested at the beginning of the study and again two years later. Tests included cognition and memory tests, MRI scans of the brain to look at brain volume and blood flow, and blood tests to measure control of blood sugar and inflammation.
After two years, the people with diabetes had decreases in their ability to regulate blood flow in the brain. They also had lower scores on several tests of memory and thinking skills. People with lower ability to regulate blood flow at the beginning of the study had greater declines in a measure of how well they could complete daily activities such as bathing and cooking.
Higher levels of inflammation were also associated with greater decreases in blood flow regulation, even if people had good control of their diabetes and blood pressure, Novak said.
On a test of learning and memory, the scores of the people with diabetes decreased by 12 percent, from 46 points to 41 points over the two years of the study, while the scores of those without diabetes stayed the same, at 55 points. Blood flow regulation in the brain was decreased by 65 percent in people with diabetes.
“Early detection and monitoring of blood flow regulation may be an important predictor of accelerated changes in cognitive and decision-making skills,” Novak said.
She said additional studies involving more people and extending for a longer time period are needed to better understand the relationship and timing with blood flow regulation and changes in thinking and memory skills.
The study is published in journal Neurology.