Blood Test Identifies Gut Metabolites That Predict Early Cognitive Decline
Researchers identified six blood metabolites from gut bacteria that can predict early cognitive decline with 79% accuracy.
20 articles
Researchers identified six blood metabolites from gut bacteria that can predict early cognitive decline with 79% accuracy.
6-methoxykaempferol from sweet cherries restored immune function by 43% and improved beneficial gut bacteria in immunocompromised mice.
Groundbreaking study identifies which gut metabolites come from microbes versus food using antibiotic depletion in humans.
Gut microbes deploy reversible DNA methylation changes to adapt to antibiotics and fecal transplants — even beneficial Akkermansia uses this strategy.
Researchers develop 22-color flow cytometry to profile unconventional T cells that protect gut health and maintain immune balance.
New research reveals how certain bacteria can rapidly switch their nutrient processing efficiency based on environmental conditions.
Scientists develop scBPS tool to identify which human cells interact with specific gut microbes, revealing new therapeutic targets.
Comprehensive review reveals how gut bacteria modify human gene expression through epigenetic mechanisms, opening new therapeutic avenues.
New genome analysis reveals how different gut microbes metabolize dietary compounds, paving the way for personalized nutrition.
Researchers found specific bacterial shifts in the eye correlate with improved dry eye symptoms, opening new treatment paths.
A modular bioelectronic sensing system uses engineered bacterial co-cultures to detect metals, molecules, and peptides across diverse real-world environments.
New research shows how beneficial gut bacteria process plant sugars, revealing pathways that could optimize digestive health.
Synthetic biology meets the microbiome: designer probiotics restore gut-liver-brain balance better than rifaximin in preclinical models.
NYU nutrition expert Marion Nestle reveals how food companies self-certify additives as safe and why petroleum-based dyes remain in US foods.
New research shows exhaled breath compounds can non-invasively detect specific gut bacteria associated with childhood asthma.
Stanford researchers develop standardized method to measure absolute bacterial abundance in stool samples, addressing key limitation in microbiome studies.
Researchers develop innovative fluorescent approach to combat chronic hepatitis E, offering new hope for treatment-resistant infections.
A mouse study shows CD38 inhibition protects colon architecture during 5-FU chemotherapy by preventing NAD+ depletion.
New research shows how a specific gut bacteria enhances anti-PD-1 therapy effectiveness in hard-to-treat colorectal cancers.
New research reveals how gut microbiota changes drug processing with age, offering insights for personalized elderly medication.