1. Thermo-sensitive electroactive hydrogel combined with electrical stimulation for repair of spinal cord injury.
- Author
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Liu W, Luo Y, Ning C, Zhang W, Zhang Q, Zou H, and Fu C
- Subjects
- Animals, Cell Differentiation drug effects, Cells, Cultured, Hydrogels chemistry, Nerve Growth Factor, Neural Stem Cells drug effects, Neurogenesis drug effects, Rats, Rats, Sprague-Dawley, Tissue Scaffolds, Electric Stimulation methods, Hydrogels therapeutic use, Spinal Cord Injuries therapy, Spinal Cord Regeneration drug effects
- Abstract
The strategy of using a combination of scaffold-based physical and biochemical cues to repair spinal cord injury (SCI) has shown promising results. However, integrating conductivity and neurotrophins into a scaffold that recreates the electrophysiologic and nutritional microenvironment of the spinal cord (SC) remains challenging. In this study we investigated the therapeutic potential of a soft thermo-sensitive polymer electroactive hydrogel (TPEH) loaded with nerve growth factor (NGF) combined with functional electrical stimulation (ES) for the treatment of SCI. The developed hydrogel exhibits outstanding electrical conductance upon ES, with continuous release of NGF for at least 24 days. In cultured nerve cells, TPEH loaded with NGF promoted the neuronal differentiation of neural stem cells and axonal growth, an effect that was potentiated by ES. In a rat model of SCI, TPEH combined with NGF and ES stimulated endogenous neurogenesis and improved motor function. These results indicate that the TPEH scaffold that combines ES and biochemical cues can effectively promote SC tissue repair., (© 2021. The Author(s).)
- Published
- 2021
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