Enhancing mitochondrial transportation and cellular energetics could help promote regeneration and function following spinal cord injury.
Converting skin cells to functional brain cells relies on precise insertion of Line-1 retrotransposons.
A new drug can lure stem cells to damaged tissue and locations, improving treatment efficacy. The drug could be used to help recruit stem cells to sites damaged by neurodegenerative diseases.
A new 3-D printed biomaterial is able to mimic the properties of living brain tissue. The new material could be used to enhance regenerative medicine therapies.
Study identified a complete series of ten factors that regulate the development of neurons in a fly's visual system, shedding light on the order in which these neurons develop.
Stem cells in human urine have the potential to regenerate tissue.
A brain-penetrating experimental drug in development as a cancer treatment can foster the regeneration of damaged nerves following spinal cord injury, researchers report.
Hair follicle transplantation promotes skin rejuvenation and scar reduction by expressing genes found in healthy, undamaged skin.
