Axon regeneration and central nervous system repair represent critical frontiers in neuroscience research, offering promise for restoring communication and function after injury. Following trauma, ...

Effective axon regeneration is critical for restoring nerve function in patients with axon injury-related neurological diseases, yet adult mammals show limited regenerative capacity in central axonal ...

A collaborative study in neuroscience, spearheaded by a research team of the Hong Kong University of Science and Technology (HKUST), sheds light on new possibilities for treating central nervous ...

Older Americans are increasingly active, and this lifestyle shift has contributed to the rise in average age of a person experiencing a spinal cord injury. The changing demographic calls for a better ...

Capitalizing on the flexibility of tiny cells inside the body's smallest blood vessels may be a powerful spinal cord repair strategy, new research suggests. In mouse experiments, scientists introduced ...

The central nervous system (CNS) in adult mammals has limited regeneration capacity, and traumatic injuries to the CNS usually lead to permanent functional impairment.

The Immense Importance of Brain-Derived Neurotrophic Factor Crossing the Blood-Brain Barrier According to research undertaken by Iughetti et al. (2011), the central nervous system and the peripheral ...

Researchers say study findings may lead to a more promising future for cell therapy targeting stroke and other neurological disorders.