Neural Repair and Regeneration
Neural repair and regeneration encompass biological and technological strategies aimed at restoring the structure and function of damaged neural tissue after injury or disease. Since neurons in the central nervous system have limited regenerative capacity, understanding how to stimulate repair remains one of neuroscience’s greatest challenges.
The Neural Repair and Regeneration session explores molecular, cellular, and clinical approaches to promote neuronal survival, axonal growth, and synaptic reconnection. Researchers highlight advances in neurotrophic signaling, stem-cell transplantation, biomaterials, and gene-editing technologies that facilitate recovery after trauma or stroke.
At the Neural Repair and Regeneration Conference, experts in regenerative medicine, molecular neuroscience, and rehabilitation discuss breakthrough discoveries driving functional recovery. Topics include neural stem-cell therapy, neurogenesis in the adult brain, bioengineered scaffolds for spinal-cord repair, and neuroplasticity-based training.
This session offers a comprehensive view of how biology and bioengineering converge to restore brain and spinal function. It emphasizes translational research linking benchside innovation to bedside therapy, ultimately aiming to rebuild damaged circuits and improve patient outcomes.
Exciting work in Neurorehabilitation and Neuroplasticity continues to demonstrate how rehabilitation strategies enhance intrinsic repair mechanisms through targeted stimulation, physical activity, and cognitive engagement.
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Submit Your Abstract Here →Key Research and Therapeutic Insights
Molecular Mechanisms of Repair
• Growth factors and signaling cascades promoting axon regeneration
• Regulation of apoptosis and inflammation after neural injury
Stem-Cell and Gene Therapies
• Neural stem cells, iPSCs, and progenitor transplantation models
• CRISPR-based gene correction for neurodegenerative diseases
Biomaterials and Scaffolding Technologies
• Hydrogel and polymer systems supporting tissue regrowth
• Nano-engineered matrices guiding axonal alignment
Neuroplasticity and Functional Recovery
• Synaptic remodeling and compensatory reorganization
• Neurostimulation and rehabilitation enhancing recovery
Clinical Applications and Challenges
• Translating lab discoveries into human therapies
• Ethical and safety considerations in regenerative trials
Why Attend
Gain a Complete Perspective on Regenerative Neuroscience
Understand how molecular biology, biomaterials, and therapy unite for recovery.
Explore Translational Pathways to Healing
Learn how preclinical breakthroughs evolve into clinical restoration.
Network with Pioneers of Neural Engineering
Collaborate with experts driving neurorestorative innovation.
Shape the Future of Brain and Spinal Repair
Participate in discussions advancing neuroregeneration science globally.
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