Pulsed electromagnetic fields enhance BMP-2 dependent osteoblastic differentiation of human mesenchymal stem cells med./bio.

[Gepulste elektromagnetische Felder verstärken die BMP-2-abhängige Osteoblasten-Differenzierung humaner mesenchymaler Stammzellen]

Exposition

• • Niederfrequenz
• • Signale/Pulse
  • Elektrotherapie

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• Tabatabai TS et al. (2021): Synergic effects of extremely low-frequency electromagnetic field and betaine on in vitro osteogenic differentiation of human adipose tissue-derived mesenchymal stem cells
• Xie YF et al. (2016): Pulsed electromagnetic fields stimulate osteogenic differentiation and maturation of osteoblasts by upregulating the expression of BMPRII localized at the base of primary cilium
• Ledda M et al. (2015): Nonpulsed sinusoidal electromagnetic fields as a noninvasive strategy in bone repair: the effect on human mesenchymal stem cell osteogenic differentiation
• Yan JL et al. (2015): Pulsed electromagnetic fields promote osteoblast mineralization and maturation needing the existence of primary cilia
• Yu JZ et al. (2014): Osteogenic differentiation of bone mesenchymal stem cells regulated by osteoblasts under EMF exposure in a co-culture system
• Bishi DK et al. (2014): Low frequency magnetic force augments hepatic differentiation of mesenchymal stem cells on a biomagnetic nanofibrous scaffold
• Cho H et al. (2012): Neural stimulation on human bone marrow-derived mesenchymal stem cells by extremely low frequency electromagnetic fields