After spinal cord injury (SCI), regeneration of adult motor axons such as axons in the corticospinal tract (CST) is severely limited. Alongside the inhibitory lesion environment, most neuronal subtypes in the mature central nervous system (CNS) are intrinsically unrepairable. With age, expression of growth-promoting proteins in neurons, such as integrins, declines. Integrin receptors allow communication between the extracellular matrix (ECM) and cell cytoskeleton and their expression in axons facilitates growth and guidance throughout the ECM. The α9β1 integrin heterodimer binds to tenascin-C (TN-C), an ECM glycoprotein expressed during development and after injury. In the mature CST however, expression of the α9 integrin subunit is downreg...
After CNS injury, axon regeneration is blocked by an inhibitory environment consisting of the highly...
After CNS injury, axon regeneration is blocked by an inhibitory environment consisting of the highly...
This work was supported by grants from the Christopher and Dana Reeve Foundation, the Medical Resear...
After spinal cord injury (SCI), regeneration of adult motor axons such as axons in the corticospinal...
After spinal cord injury (SCI), regeneration of adult motor axons such as axons in the corticospinal...
After spinal cord injury (SCI), regeneration of adult motor axons such as axons in the corticospinal...
After spinal cord injury (SCI), regeneration of adult motor axons such as axonsin the corticospinal ...
After spinal cord injury (SCI), regeneration of adult motor axons such as axons in the corticospinal...
The regenerative ability of CNS axons decreases with age, however, this ability remains largely inta...
The regenerative ability of CNS axons decreases with age however this ability remains largely intact...
Repair of the adult mammalian spinal cord is prohibited by several extrinsic and intrinsic factors. ...
Damaged CNS axons are prevented from regenerating by an environment containing many inhibitory facto...
UNLABELLED: After CNS injury, axon regeneration is blocked by an inhibitory environment consisting o...
UNLABELLED: After CNS injury, axon regeneration is blocked by an inhibitory environment consisting o...
This work was supported by the International Foundation for Research in Paraplegia (MRA), the Bryon ...
After CNS injury, axon regeneration is blocked by an inhibitory environment consisting of the highly...
After CNS injury, axon regeneration is blocked by an inhibitory environment consisting of the highly...
This work was supported by grants from the Christopher and Dana Reeve Foundation, the Medical Resear...
After spinal cord injury (SCI), regeneration of adult motor axons such as axons in the corticospinal...
After spinal cord injury (SCI), regeneration of adult motor axons such as axons in the corticospinal...
After spinal cord injury (SCI), regeneration of adult motor axons such as axons in the corticospinal...
After spinal cord injury (SCI), regeneration of adult motor axons such as axonsin the corticospinal ...
After spinal cord injury (SCI), regeneration of adult motor axons such as axons in the corticospinal...
The regenerative ability of CNS axons decreases with age, however, this ability remains largely inta...
The regenerative ability of CNS axons decreases with age however this ability remains largely intact...
Repair of the adult mammalian spinal cord is prohibited by several extrinsic and intrinsic factors. ...
Damaged CNS axons are prevented from regenerating by an environment containing many inhibitory facto...
UNLABELLED: After CNS injury, axon regeneration is blocked by an inhibitory environment consisting o...
UNLABELLED: After CNS injury, axon regeneration is blocked by an inhibitory environment consisting o...
This work was supported by the International Foundation for Research in Paraplegia (MRA), the Bryon ...
After CNS injury, axon regeneration is blocked by an inhibitory environment consisting of the highly...
After CNS injury, axon regeneration is blocked by an inhibitory environment consisting of the highly...
This work was supported by grants from the Christopher and Dana Reeve Foundation, the Medical Resear...