Scientists identify new dementia affecting millions of elderly

As the population ages, more people are affected by memory diseases like Alzheimer's. However, research in the field is progressing slowly, and only about half of those affected receive the available treatment.

March 12, 2026 Ti AI ṣe iroyin

Researchers at Scripps Research have developed a blood test that detects Alzheimer's disease by analyzing structural changes in blood proteins. The method identifies differences in three specific proteins, allowing accurate distinction between healthy individuals, those with mild cognitive impairment, and Alzheimer's patients. Published in Nature Aging on February 27, 2026, the findings could enable earlier diagnosis and treatment.

Researchers at University College London have found that up to 93 percent of Alzheimer's cases may be linked to variants of the APOE gene, far more than previously estimated. The analysis, published in npj Dementia, also indicates that nearly half of all dementia cases could depend on this gene. The discovery underscores APOE as a key target for future treatments.

January 12, 2026 Ti AI ṣe iroyin

Scientists at Brown University have identified a subtle brain activity pattern that can forecast Alzheimer's disease in people with mild cognitive impairment up to two and a half years in advance. Using magnetoencephalography and a custom analysis tool, the researchers detected changes in neuronal electrical signals linked to memory processing. This noninvasive approach offers a potential new biomarker for early detection.

New research finds that blood biomarkers associated with Alzheimer’s disease increase significantly faster in people with obesity than in those without. Drawing on five years of data from 407 volunteers, the study suggests that blood tests can detect obesity‑related changes earlier than brain scans, underscoring obesity as a major modifiable risk factor for Alzheimer’s.

November 19, 2025 Ti AI ṣe iroyin Ti ṣayẹwo fun ododo

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.