Neuroscience
Breakthrough Pill Boosts Stroke Brain Recovery
15 settembre 2025 Riportato dall'IA
Researchers have developed a pill that stimulates brain regeneration for stroke recovery by promoting neurogenesis and repairing damage. Tested in preclinical models, the drug replicates rehabilitation effects without extensive therapy. This innovation offers new hope for stroke patients worldwide.
Researchers identify gut bacterium linked to brain health
A new study uncovers a specific gut bacterium that produces a molecule capable of influencing brain function in mice. Led by scientists at the University of California, Berkeley, the research highlights potential new avenues for treating neurological disorders. The findings were published on September 29, 2025, in the journal Nature.
Glioblastoma erodes skull and disrupts immune system, study reveals
Researchers have discovered that glioblastoma, the most aggressive form of brain cancer, extends beyond the brain by eroding the skull and altering the immune cells in skull marrow. This interaction fuels the cancer's progression and explains why current treatments often fail. The findings, published in Nature Neuroscience, suggest new strategies targeting both brain and bone.
Scientists identify new protein role in brain development
A recent study has revealed how a specific protein influences neural connections during early brain growth. Researchers from the University of California found that disrupting this protein leads to impaired synapse formation in animal models. The discovery could pave the way for better understanding neurodevelopmental disorders.
New method detects Alzheimer's early using AI brain scans
Scientists have developed an innovative AI-based imaging technique that identifies Alzheimer's disease up to a decade before symptoms emerge. The approach analyzes subtle changes in brain structure from routine MRI scans. This breakthrough, published on October 2, 2025, could transform early intervention strategies.
DMT reduces stroke damage in animal and cell studies
Researchers in Hungary have found that DMT, a natural psychoactive compound, significantly mitigates brain damage from stroke in animal models and cell cultures. The molecule restores the blood-brain barrier and curbs inflammation, potentially complementing current treatments. These discoveries, published in Science Advances, highlight DMT's therapeutic promise amid limited stroke options.
Scientists uncover brain circuit that overrides chronic pain
Researchers at the University of Pennsylvania have identified a group of brainstem neurons that can suppress chronic pain signals when survival needs like hunger or fear arise. These Y1 receptor neurons in the lateral parabrachial nucleus act as a neural switchboard, prioritizing urgent biological demands over persistent discomfort. The discovery, published in Nature, offers potential new avenues for pain treatments.
Playing musical instruments boosts children's reading skills
A new study reveals that children who learn to play musical instruments show significant improvements in reading abilities. The research highlights how musical training enhances phonological awareness, a key component of literacy development. These findings suggest potential benefits for integrating music education in schools.
CRISPR Tool Targets Neuron Gene Repair
15 settembre 2025 Riportato dall'IA
Stanford researchers have created a CRISPR-based technology to target RNA in neurons, enabling repair processes for genetic diseases. The method addresses key challenges in Cas9 delivery and DNA repair. It reveals unique genome editing rules in neurons, paving the way for targeted therapies.
Stanford Breakthrough Alleviates Autism Symptoms in Mice
Scientists at Stanford University have discovered that hyperactivity in the brain's reticular thalamic nucleus may cause autism-like behaviors in mice. By suppressing this overactivity with drugs or neuromodulation, symptoms were reversed in mouse models. This finding suggests potential new therapeutic approaches overlapping with epilepsy treatments.