Microcurrent and adipose‐derived stem cells modulate genes expression involved in the structural recovery of transected tendon of rats

Abstract: Tendon injuries are common and have a high incidence of re-rupture that can cause loss of functionality. Therapies with adipose-derived stem cells (ASC) and the microcurrent (low-intensity electrical stimulation) application present promising effects on the tissue repair. We analyzed the expression of genes and the participation of some molecules potentially involved in the structural recovery of the Achilles tendon of rats, in response to the application of both therapies, isolated and combined. The tendons w… Show more

“…[10][11][12] It has been demonstrated that the application of exogenous electrical currents at physiological levels acts on the cellular and molecular signaling pathways favoring osteogenesis. 6,13 Numerous in vitro and in vivo studies have shown that both low-intensity electrical currents (electrosimulation [ES]), [14][15][16] and electromagnetic fields (electromagnetic stimulation [EM]) [17][18][19] regulate gene expression 20 and stimulate protein synthesis, 16,21 promoting cellular responses [22][23][24] capable of positively modulating the bone repair process.…”

Electrical therapies act on the Ca²⁺/CaM signaling pathway to enhance bone regeneration with bioactive glass [S53P4] and allogeneic grafts

“…[10][11][12] It has been demonstrated that the application of exogenous electrical currents at physiological levels acts on the cellular and molecular signaling pathways favoring osteogenesis. 6,13 Numerous in vitro and in vivo studies have shown that both low-intensity electrical currents (electrosimulation [ES]), [14][15][16] and electromagnetic fields (electromagnetic stimulation [EM]) [17][18][19] regulate gene expression 20 and stimulate protein synthesis, 16,21 promoting cellular responses [22][23][24] capable of positively modulating the bone repair process.…”

Electrical therapies act on the Ca²⁺/CaM signaling pathway to enhance bone regeneration with bioactive glass [S53P4] and allogeneic grafts

Influence of microcurrent on the modulation of remodelling genes in a wound healing assay

Electrospun heparin-loaded nano-fiber sutures for the amelioration of achilles tendon rupture regeneration: in vivo evaluation