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W2767090907 abstract "Many studies have indicated that static magnetic fields (SMFs) have positive effects on bone tissue, including bone formation and bone healing process. Evaluating the effects of SMFs on bone cell (especially osteoblast) function and exploring the mechanism, which is critical for understanding the possible risks or benefits from SMFs to the balance of bone remodeling. Iron and magnetic fields have the natural relationship, and iron is an essential element for normal bone metabolism. Iron overload or deficiency can cause severe bone disorders including osteoporosis. However, there are few reports regarding the role of iron in the regulation of bone formation under SMFs. In this study, hypomagnetic field (HyMF) of 500 nT, moderate SMF (MMF) of 0.2 T, and high SMF (HiMF) of 16 T were used to investigate how osteoblast (MC3T3-E1) responses to SMFs and iron metabolism of osteoblast under SMFs. The results showed that SMFs did not pose severe toxic effects on osteoblast growth. During cell proliferation, iron content of osteoblast MC3T3-E1 cells was decreased in HyMF, but was increased in MMF and HiMF after exposure for 48 h. Compared to untreated control (i.e., geomagnetic field, GMF), HyMF and MMF exerted deleterious effects on osteoblast differentiation by simultaneously retarding alkaline phosphatase (ALP) activity, mineralization and calcium deposition. However, when exposed to HiMF of 16 T, the differentiation potential showed the opposite tendency with enhanced mineralization. Iron level was increased in HyMF, constant in MMF and decreased in HiMF during cell differentiation. In addition, the mRNA expression of transferrin receptor 1 (TFR1) was promoted by HyMF but was inhibited by HiMF. At the same time, HiMF of 16 T and MMF of 0.2 T increased the expression of ferroportin 1 (FPN1). In conclusion, these results indicated that osteoblast differentiation can be regulated by altering the strength of the SMF, and iron is possibly involved in this process." @default.
W2767090907 created "2017-11-10" @default.
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W2767090907 date "2017-10-19" @default.
W2767090907 modified "2023-10-06" @default.
W2767090907 title "Regulation of Osteoblast Differentiation and Iron Content in MC3T3-E1 Cells by Static Magnetic Field with Different Intensities" @default.
W2767090907 cites W1489844805 @default.
W2767090907 cites W1535883647 @default.
W2767090907 cites W1559939870 @default.
W2767090907 cites W1618001767 @default.
W2767090907 cites W1674731755 @default.
W2767090907 cites W1676948575 @default.
W2767090907 cites W1968592306 @default.
W2767090907 cites W1972893952 @default.
W2767090907 cites W1976943429 @default.
W2767090907 cites W1979628099 @default.
W2767090907 cites W1991426091 @default.
W2767090907 cites W1992544290 @default.
W2767090907 cites W1992567157 @default.
W2767090907 cites W1993106840 @default.
W2767090907 cites W2000868310 @default.
W2767090907 cites W2001919177 @default.
W2767090907 cites W2003015706 @default.
W2767090907 cites W2006217979 @default.
W2767090907 cites W2007798665 @default.
W2767090907 cites W2016393620 @default.
W2767090907 cites W2017567107 @default.
W2767090907 cites W2019774572 @default.
W2767090907 cites W2023202124 @default.
W2767090907 cites W2025486498 @default.
W2767090907 cites W2029123005 @default.
W2767090907 cites W2030455830 @default.
W2767090907 cites W2032756278 @default.
W2767090907 cites W2032941148 @default.
W2767090907 cites W2035007282 @default.
W2767090907 cites W2041000842 @default.
W2767090907 cites W2051926344 @default.
W2767090907 cites W2053985133 @default.
W2767090907 cites W2073684735 @default.
W2767090907 cites W2080137096 @default.
W2767090907 cites W2084310633 @default.
W2767090907 cites W2090888342 @default.
W2767090907 cites W2095060784 @default.
W2767090907 cites W2113983840 @default.
W2767090907 cites W2118532242 @default.
W2767090907 cites W2118614829 @default.
W2767090907 cites W2118828535 @default.
W2767090907 cites W2121173338 @default.
W2767090907 cites W2121973530 @default.
W2767090907 cites W2137635559 @default.
W2767090907 cites W2145785400 @default.
W2767090907 cites W2148519724 @default.
W2767090907 cites W2152802729 @default.
W2767090907 cites W2155703260 @default.
W2767090907 cites W2162322372 @default.
W2767090907 cites W2164388288 @default.
W2767090907 cites W2165261790 @default.
W2767090907 cites W2170848939 @default.
W2767090907 cites W2312966775 @default.
W2767090907 cites W2466054591 @default.
W2767090907 cites W2516354393 @default.
W2767090907 cites W2584260978 @default.
W2767090907 cites W2589170665 @default.
W2767090907 cites W2603130010 @default.
W2767090907 cites W4206438009 @default.
W2767090907 cites W900759546 @default.
W2767090907 doi "https://doi.org/10.1007/s12011-017-1161-5" @default.
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