iPSC-Derived Vesicles Enable Noninvasive Optogenetics to Halt Alzheimer's Progression
Scientists used stem cell-derived vesicles to deliver light-activated gene therapy to the brain without surgery, reversing cognitive decline in Alzheimer's mice.
20 articles
Scientists used stem cell-derived vesicles to deliver light-activated gene therapy to the brain without surgery, reversing cognitive decline in Alzheimer's mice.
Researchers develop novel immunotherapy using modified brain cells to target Alzheimer's pathology directly in the brain.
Microglia package healthy mitochondria into vesicles and deliver them to astrocytes, sharply reducing cognitive decline in tau-pathology mice.
A new oral GLP-1 receptor agonist penetrates the brain, restoring astrocyte-neuron metabolic crosstalk disrupted in Alzheimer's disease.
AAV delivery of AIBP protein restores cholesterol balance, silences inflammation, and preserves vision in glaucoma models.
Stanford-led framework defines the five core components of medical digital twins and maps how AI plus mechanistic modeling can create living patient simulations.
New study identifies KCTD20 gene suppression as a potential therapeutic target for clearing harmful tau proteins in neurodegenerative diseases.
Clinical trial explores whether resetting gut microbiome through fecal transplants can slow Parkinson's progression and reduce symptoms.
OSK gene therapy targeting engram neurons restored memory to youthful levels in aged mice and Alzheimer's models, reversing senescence hallmarks.
A brain-penetrant compound targets a key region of TDP-43, reducing motor neuron loss and extending survival in ALS mouse models.
Scientists built human amygdala-like brain organoids that model stress circuitry, uncovering a novel cortisol-driven mechanism tied to primate-specific gene regulation.
UCSF scientist reveals how engineered T-cells and CRISPR are transforming cancer treatment and prevention strategies.
Researchers turned ordinary brain cells into plaque-clearing machines, reducing Alzheimer's amyloid by half in mice with one treatment.
Scientists used red blood cells to transport healthy mitochondria into diseased brain cells, showing promise for Parkinson's treatment.
Researchers combined ultrasound with gene therapy to treat Leigh syndrome, significantly extending survival in mouse models.
Scientists use brain organoids to capture individual differences in brain development, offering new insights into neurological health.
Researchers modified astrocytes with chimeric antigen receptors to target amyloid plaques, showing promise for Alzheimer's treatment.
Breakthrough study shows complete reversal of severe Alzheimer's symptoms in mice, identifying new therapeutic targets for human treatment.
New peptide delivery system restores brain connections and memory function in Alzheimer's models, offering hope for treating cognitive decline.
UC San Diego researchers tested psilocybin's safety and potential benefits for eating disorder symptoms in 16 participants with anorexia nervosa.