Electrical Stimulation-Mediated Differentiation of Neural Cells on Conductive Carbon Nanofiller-Based Scaffold

Abstract: An important strategy in neural tissue engineering involves imparting electrical properties to the regenerative template to encourage cell proliferation and differentiation. Several clinical studies have confirmed that direct or indirect electrical stimulation therapy greatly impacts the treatment of peripheral and central nerve injury. Nerve regeneration can be accelerated by the application of electrical stimulations of different methods and with varying parameters. For a long period, electrical stimulation … Show more

“…This differentiation is mediated through multiple signaling pathways, including the MAPK/ERK pathway and the cAMPdependent pathway. 9,10 The nervous system (NS) is highly inuenced by ES, which serves as the primary means of communication. 11 Applying ES to scaffolds serves to mimic not only the electrical properties of the NS but also to reduce inammatory response aer implantation.…”

Biomimetic electrospun PVDF/self-assembling peptide piezoelectric scaffolds for neural stem cell transplantation in neural tissue engineering

“…This differentiation is mediated through multiple signaling pathways, including the MAPK/ERK pathway and the cAMPdependent pathway. 9,10 The nervous system (NS) is highly inuenced by ES, which serves as the primary means of communication. 11 Applying ES to scaffolds serves to mimic not only the electrical properties of the NS but also to reduce inammatory response aer implantation.…”

Biomimetic electrospun PVDF/self-assembling peptide piezoelectric scaffolds for neural stem cell transplantation in neural tissue engineering

Nanomedicine in Neuroprotection, Neuroregeneration, and Blood–Brain Barrier Modulation: A Narrative Review