Are you a Knight ADRC affiliated researcher with a news article you would like us to post?
Contact Us
Gut bacteria affect brain health, mouse study shows (Links to an external site)
Gut bacteria can influence brain health, according to a study of mice genetically predisposed to develop Alzheimer’s-like brain damage. The study, by researchers at Washington University School of Medicine in St. Louis, indicates that gut bacteria produce compounds that influence the behavior of immune cells, including ones in the brain that can cause neurodegeneration. The findings suggest a new approach to treating Alzheimer’s and other neurodegenerative diseases.
Dare We Say Consensus Achieved: Lecanemab Slows the Disease (Links to an external site)
Randall Bateman of Washington University, St. Louis, presented the biomarker evidence, concluding that it indicates the treatment modified underlying biology. “These findings support the ability to change the course of Alzheimer’s disease,” he told Alzforum.
Roche Alzheimer’s antibody fails to slow cognitive decline in major test (Links to an external site)
Biogen Inc. and Eisai Co. caused a stir in September when they announced positive results in a late-stage trial for a closely watched Alzheimer’s drug, lecanemab. Doctors tempered their excitement, though, until they could scrutinize the full peer-reviewed data.
That data arrived Tuesday night. And while it is stoking enthusiasm that physicians might soon be able to offer patients a treatment that can slow the progression of the devastating disease, doctors need to carefully balance that optimism with safety concerns and the reality that the drug is far from a cure — and in fact, it’s hard to quantify how meaningful it might be for a given patient.
Diagnostic marker found for deadly brain disease marked by dementia, movement problems (Links to an external site)
Researchers at Washington University School of Medicine in St. Louis have found a biomarker that identifies, with up to 89% accuracy, people with a primary tauopathy called corticobasal degeneration (CBD). Traditional diagnostic methods for CBD are only 25% to 50% accurate, the researchers said.
Study yields clues to why Alzheimer’s disease damages certain parts of the brain (Links to an external site)
A study by researchers at Washington University School of Medicine in St. Louis yields clues to why certain parts of the brain are particularly vulnerable to Alzheimer’s damage. It comes down to the gene APOE, the greatest genetic risk factor for Alzheimer’s disease. The parts of the brain where APOE is most active are the areas that sustain the most damage, they found.