Spinal cord injury (SCI) is a major social problem with a heavy burden on patient physiology
and psychology. Glial scar formation and irreversible neuron loss are the two key points …

In recent years, GSK3 has emerged as a key regulatory kinase in the nervous system, which
is involved in diverse processes ranging from neural development to mood stabilization to …

The reparative process following spinal cord injury (SCI) is extremely complicated. Cells in
the microenvironment express multiple inhibitory factors that affect axonal regeneration over …

Functional recovery of injured peripheral neurons often remains incomplete, but the clinical
outcome can be improved by increasing the axonal growth rate. Adult transgenic …

The migratory response of astrocytes is essential for restricting inflammation and preserving
tissue function after spinal cord injury (SCI), but the mechanisms involved are poorly …

Promotion of axonal growth of injured DRG neurons improves the functional recovery
associated with peripheral nerve regeneration. Both isoforms of glycogen synthase kinase 3 …

Gaining a basic understanding of the inhibitory molecules and the intracellular signaling
involved in axon development and repulsion after neural lesions is of clear biomedical …

Background Neuropathic pain and sensory abnormalities are a debilitating secondary
consequence of spinal cord injury (SCI). Maladaptive structural plasticity is gaining …

Axonal regeneration is minimal after CNS injuries in adult mammals and medical treatments
to recover neurological deficits caused by axon disconnection are extremely limited. The …

GSK‐3β signaling is involved in regulation of both neuronal and glial cell functions, and
interference of the signaling affects central nervous system (CNS) development and …