1. Electromagnetic Fields Generated by the IteraCoil Device Differentiate Mesenchymal Stem Progenitor Cells Into the Osteogenic Lineage
- Author
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Gagik Greg Haroutunian, Ashot Tsaghikian, Elena Fedorova, Pratima Chaurasia, Gabriele Luca Gusella, and Arevik Mosoian
- Subjects
Electromagnetic Fields ,Osteoblasts ,Physiology ,Osteogenesis ,Biophysics ,Humans ,Radiology, Nuclear Medicine and imaging ,Cell Differentiation ,Mesenchymal Stem Cells ,General Medicine ,Cells, Cultured - Abstract
Rapid advances in mesenchymal stem progenitor cells (MSPCs) have rendered impetus into the area of cell therapy and regenerative medicine. The main promise of future stem cell therapies is their reliance on autologous stem cells derived from adipose tissue, which also includes treatments of bone fractures and degeneration. The effectiveness of different electric devices utilized to reprogram MSPCs toward osteogenic differentiation has provided varying degrees of effectiveness for clinical use. Adipose tissue-derived MSPCs were flow-cytometrically characterized and further differentiated into osteoblasts by culturing either in growth medium with pro-osteogenic supplements or without supplements with alternating electromagnetic field (EMF) generated by IteraCoil. IteraCoil is a multi-solenoid coil with a specific complex geometry that creates a 3D-EMF with desired parameters without directly applying electrodes to the cells and tissues. The flow-cytometric analysis of highly enriched (≥95%) adipose-derived MSPCs (CD34
- Published
- 2022