X-ray irradiation reversed motor deficits after brain injury
Low dose ionising radiation reduced lesion size and reversed motor deficits in traumatic brain injury and ischemic stroke mice.
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Low dose ionising radiation reduced lesion size and reversed motor deficits in traumatic brain injury and ischemic stroke mice.
Astrocyte plasticity is correlated with upregulation of the Galectin 3 protein, which may greatly contribute to biomarker discovery.
Incannex Healthcare has completed a pre-IND meeting with the FDA for IHL-216A, a drug product for treatment of traumatic brain injury.
The researchers created a chronic skull optical clearing window where they no longer needed to remove any piece of the skull.
Using X-ray crystallography and cryo-electron microscopy, researchers have elucidated the structure of the SARM1 protein, a target for neurodegeneration.
Which immune cells contribute towards immune-induced neurodegeneration and how could this knowledge enable conditions such Alzheimer’s and multiple sclerosis to be treated?
Researchers have shown that by effectively resetting the microglia, recovery of mice after a traumatic brain injury (TBI) was improved.
A recent study has shown that transplanting new inhibitory neurons may repair damaged brain circuits.
Researchers at the University of Birmingham have identified inflammatory biomarkers which indicate whether the brain has suffered injury.
Head trauma is a common injury, and according to several scientific studies, undiagnosed concussion may lead to devastating outcomes and a premature neurodegenerative condition.
Harvard University researchers have developed a multiregional brain-on-a-chip that models the connectivity between three distinct regions of the brain.