Scientists restore brain blood flow in dementia model

New research from the University of Southern California suggests that subtle declines in brain blood flow and oxygen delivery may be early indicators of Alzheimer's disease. The study, published in Alzheimer's and Dementia, used noninvasive scans to connect vascular health with amyloid plaques and hippocampal shrinkage. These findings highlight the role of brain circulation in the disease process beyond traditional markers like amyloid and tau.

February 20, 2026 Ti AI ṣe iroyin

Researchers at the University of California, San Francisco, have discovered a mechanism by which exercise helps protect the brain from age-related damage associated with Alzheimer's disease. Physical activity prompts the liver to release an enzyme that repairs the blood-brain barrier, reducing inflammation and improving memory in older mice. The findings, published in the journal Cell, highlight a body-to-brain pathway that could lead to new therapies.

Scientists at Northern Arizona University are developing a non-invasive blood test that could help detect Alzheimer’s disease before symptoms appear by examining how the brain uses glucose through tiny blood-borne microvesicles. Led by assistant professor Travis Gibbons and supported in part by the Arizona Alzheimer’s Association, the project aims to enable earlier diagnosis and intervention, similar to how doctors manage cardiovascular disease.

January 26, 2026 Ti AI ṣe iroyin

Researchers have uncovered how amyloid beta and inflammation may both trigger synapse pruning in Alzheimer's disease through a common receptor, potentially offering new treatment avenues. The findings challenge the notion that neurons are passive in this process, showing they actively erase their own connections. Led by Stanford's Carla Shatz, the study suggests targeting this receptor could preserve memory more effectively than current amyloid-focused drugs.

Researchers at Brazil’s Federal University of ABC report a simple copper-chelating molecule that reduced beta-amyloid–linked pathology and improved memory in rats. The compound showed no detectable toxicity in preclinical tests and, based on computer modeling, is predicted to cross the blood–brain barrier. The team is seeking industry partners for clinical development.

January 16, 2026 Ti AI ṣe iroyin

A large genetic study has found that sharp rises in blood sugar after meals could significantly heighten the risk of Alzheimer’s disease. Researchers from the University of Liverpool analyzed data from over 350,000 UK Biobank participants, revealing a 69% increased risk linked to postprandial hyperglycemia. The effect appears independent of visible brain damage, pointing to subtler biological mechanisms.