writer：Yu Wang, Haitao Cui,Zhenxu Wu,Naipeng Wu,Zongliang Wang*,Xuesi Chen,Yen Wei* and Peibiao Zhang*
keywords：pulsed electrical stimulation; frequency; osteogenesis; differentiation; osteogenesis-related genes
source：期刊
specific source：PLoS One 2016,11(5):e0154924. doi: 10.1371/journal.pone.0154924
Issue time：2016年

Electrical stimulation (ES) is therapeutic to many bone diseases, from promoting fracture regeneration to orthopedic intervention. The application of ES offers substantial therapeutic potential, while optimal ES parameters and the underlying mechanisms responsible for the positive clinical impact are poorly understood. In this study, we assembled an ES cell culture and monitoring device. Mc-3T3-E1 cells were subjected to different frequency to investigate the effect of osteogenesis. Cell proliferation, DNA synthesis, the mRNA levels of osteosis-related genes, the activity of alkaline phosphatase (ALP), and intracellular concentration of Ca²⁺ were thoroughly evaluated. We found that 100 Hz could up-regulate the mRNA levels of collagen I, collagen II and Runx2. On the contrary, ES could down-regulate the mRNA levels of osteopontin (OPN). ALP activity assay and Fast Blue RR salt stain showed that 100 Hz could accelerate cells differentiation. Compared to the control group, 100 Hz could promote cell proliferation. Furthermore, 1 Hz to 10 Hz could improve calcium deposition in the intracellular matrix. Overall, these results indicate that 100Hz ES exhibits superior potentialities in osteogenesis, which should be beneficial for the clinical applications of ES for the treatment of bone diseases.

Fulltext: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4858221/