Literature DB >> 23775573

Different electromagnetic field waveforms have different effects on proliferation, differentiation and mineralization of osteoblasts in vitro.

Jian Zhou1, Jia-Qi Wang, Bao-Feng Ge, Xiao-Ni Ma, Hui-Ping Ma, Cory J Xian, Ke-Ming Chen.   

Abstract

Noninvasive electromagnetic fields (EMFs) have been known to be able to improve bone health; however, their optimal application parameters and action mechanisms remain unclear. This study compared the effects of different forms of EMFs (sinusoidal, triangular, square, and serrated, all set at 50 Hz frequency and 1.8 mT intensity) on proliferation, differentiation and mineralization of rat calvarial osteoblasts. Square EMFs stimulated osteoblast proliferation but sinusoidal EMFs inhibited it. Sinusoidal and triangular EMFs produced significantly greater alkaline phosphatase (ALP) activity, ALP staining areas, calcium deposition, mineralized nodule areas, and mRNA expression of Runx-2, osteoprotegerin and insulin-like growth factor-I than square and serrated EMFs (P < 0.01). Triangular EMFs had a greater effect than sinusoidal EMFs on every indices except for Runx-2 mRNA expression (P < 0.05). These results indicated that while square EMFs promoted proliferation and had no effect on the differentiation of osteoblasts, sinusoidal EMFs inhibited proliferation but enhanced osteogenic differentiation. Triangular EMFs did not affect cell proliferation but induced the strongest osteogenic activity among the four waveforms of EMFs. Thus, the effects of EMFs on proliferation and differentiation of osteoblasts in vitro were dependent on their waveforms.
Copyright © 2013 Wiley Periodicals, Inc.

Entities:  

Keywords:  differentiation; electromagnetic fields; osteoblasts; proliferation; waveforms

Mesh:

Substances:

Year:  2013        PMID: 23775573     DOI: 10.1002/bem.21794

Source DB:  PubMed          Journal:  Bioelectromagnetics        ISSN: 0197-8462            Impact factor:   2.010


  12 in total

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6.  Extremely low frequency pulsed electromagnetic fields cause antioxidative defense mechanisms in human osteoblasts via induction of •O2- and H2O2.

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Review 8.  The Use of Pulsed Electromagnetic Fields to Promote Bone Responses to Biomaterials In Vitro and In Vivo.

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9.  Biophysical stimulation of bone and cartilage: state of the art and future perspectives.

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Review 10.  Translational Insights into Extremely Low Frequency Pulsed Electromagnetic Fields (ELF-PEMFs) for Bone Regeneration after Trauma and Orthopedic Surgery.

Authors:  Sabrina Ehnert; Steffen Schröter; Romina H Aspera-Werz; Wiebke Eisler; Karsten Falldorf; Michael Ronniger; Andreas K Nussler
Journal:  J Clin Med       Date:  2019-11-20       Impact factor: 4.241
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