Mechanochemical coupling of MGF mediates periodontal regeneration

Abstract: Clinical evidence shows that the mechanical stimulation obtained from occlusion could enhance periodontal ligament (PDL) remodeling. Mechano‐growth factor (MGF) is a growth factor produced specifically following mechanical stimulus Here, we aim to investigate the mechanical enhancement potential and mechanism of the MGF in PDL regeneration. In vivo study found that MGF produced from the PDL under occlusion force could strongly enhance PDL remodeling. In vitro experiments and mathematical modeling further confi… Show more

“…(2) MAPK is a protein kinase family and a key signaling pathway through which mechanical signals promote cell apoptosis via phosphorylation cascades involving ERK, p38, and JNK. In fibroblasts in the periodontal ligament, activation of the p38/MAPK pathway by mechanical stress has been widely reported ( 62 ). Zhu et al first reported the involvement of the p38/MAPK pathway in mechanotransduction in hUSLFs in the context of POP development ( 43 , 63 ).…”

Roles and mechanisms of biomechanical-biochemical coupling in pelvic organ prolapse

“…(2) MAPK is a protein kinase family and a key signaling pathway through which mechanical signals promote cell apoptosis via phosphorylation cascades involving ERK, p38, and JNK. In fibroblasts in the periodontal ligament, activation of the p38/MAPK pathway by mechanical stress has been widely reported ( 62 ). Zhu et al first reported the involvement of the p38/MAPK pathway in mechanotransduction in hUSLFs in the context of POP development ( 43 , 63 ).…”

Roles and mechanisms of biomechanical-biochemical coupling in pelvic organ prolapse

Mechano-growth factor regulates periodontal ligament stem cell proliferation and differentiation through Fyn–RhoA-YAP signaling

The effect of compressive force in bone tissue induced by implants of different primary stabilities on macrophage polarization and bone regeneration