Scientists explain how exercise shields brain from Alzheimer's

New research reveals that blood from younger mice can protect against Alzheimer's-like brain damage, while older blood accelerates it. Scientists conducted experiments infusing mouse blood over 30 weeks to observe effects on memory and protein buildup. The findings highlight blood's role in brain health and potential new treatments.

24. Dezember 2025 Von KI berichtet

Researchers have demonstrated that restoring levels of a key brain energy molecule can reverse advanced Alzheimer's disease in mouse models, repairing damage and restoring cognitive function. The study, published on December 22, challenges the long-held view that the condition is irreversible. Findings from human brain tissue support the approach's potential relevance to patients.

A new study links temporal lobe epilepsy to early aging in brain support cells, showing that clearing these cells in mice reduces seizures and improves memory. Researchers at Georgetown University Medical Center used existing drugs to achieve these results, offering potential for faster treatments in humans. The findings, published on December 22, highlight hope for patients resistant to current medications.

22. Januar 2026 Von KI berichtet

A new study finds that people over 80 who maintain sharp mental abilities, known as super agers, carry fewer copies of the main Alzheimer's risk gene and more of a protective variant. This genetic profile sets them apart even from other healthy seniors in the same age group. The research, led by Vanderbilt University Medical Center, highlights potential resilience factors against dementia.

Washington University scientists report that inhibiting the circadian regulator REV-ERBα raised brain NAD+ and reduced tau pathology in mouse models, pointing to a clock-focused strategy worth exploring for Alzheimer’s disease.

25. Januar 2026 Von KI berichtet

Researchers at the National University of Singapore have discovered that calcium alpha-ketoglutarate, a naturally occurring molecule, can repair key memory processes disrupted by Alzheimer's disease. The compound improves communication between brain cells and restores early memory abilities that fade first in the condition. Since it already exists in the body and declines with age, boosting it could offer a safer approach to protecting brain health.