The pathological brain changes that drive Alzheimer’s disease may begin as much as 20 years before cognitive signs become evident. However, evidence indicates that exercise can slow or prevent these changes. A recent study involving older rats found that regular aerobic exercise reduces age-related inflammation in the brain and improves the balance between nerve fibers and their protective myelin coating.

Researchers had older rats exercise on a treadmill for eight weeks. Then, they examined the rats' brain tissue and analyzed changes in tau protein, amyloid plaques, and iron levels.

They discovered that older rats engaging in regular physical exercise experienced reduced age-related inflammation and improved balance between nerve fibers and their protective myelin coating. They also learned that excessive iron in oligodendrocytes—cells that support and insulate nerve fibers—triggers a type of cell death known as ferroptosis, possibly contributing to the formation of amyloid-beta plaques linked to Alzheimer’s. They identified statistical connections between tau and amyloid proteins (hallmarks of Alzheimer’s), iron levels, and cells in the hippocampus, a brain region crucial for memory.

These findings indicate that iron plays a critical role in Alzheimer’s pathology, but exercise can mitigate some of these effects. Learn more about preventing and reversing Alzheimer’s disease in this episode featuring Dr. Dale Bredesen.