From restoring brain–muscle communication after stroke to guiding immune cells in Alzheimer’s and rebuilding damaged spinal tissue, neuroscience is finding fresh ways to repair the nervous system from within. Recent studies highlight how activating protective microglia, training neural circuits through feedback-based learning, and engineering conductive hydrogels can each promote recovery across different levels of the brain and body.

Together, these discoveries illustrate a shift toward therapies that don’t just target single pathways but instead harness the nervous system’s own capacity for adaptation, regeneration, and self-repair.

1.  G-protein-coupled receptor ADGRG1 drives a protective microglial state in Alzheimer’s disease through MYC activation

Researchers identified ADGRG1, a G-protein-coupled receptor, as a key driver of a protective microglial state in Alzheimer’s disease. By activating the MYC pathway, ADGRG1 helps microglia clear harmful proteins and reduce inflammation—offering a promising target for future neuroprotective therapies.

2. Advancing Stroke Recovery Through Operant Conditioning of Corticomuscular Coherence

Researchers propose a new rehabilitation approach that strengthens communication between the brain and muscles through operant conditioning. By reinforcing corticomuscular coherence—a measure of how brain signals align with muscle activity—this strategy could enhance neuroplasticity and motor recovery, offering a more integrated path to restoring movement after stroke.

3. Advancing Spinal Cord Injury Repair: The Role of Conductive Hydrogels in Neurotissue Engineering

Conductive hydrogels are transforming spinal cord injury repair by bridging damaged neural tissue with materials that conduct electrical signals and support cell growth. Acting as both scaffolds and stimulators, these bioengineered gels promote axonal regeneration, reduce inflammation, and restore nerve communication—paving the way for more effective spinal cord recovery strategies.

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