@article{24708cde620049fc96272c7b2252cb82,
title = "A dual mode pulsed electro-magnetic cell stimulator produces acceleration of myogenic differentiation",
abstract = "This paper presents the design and test of a dual-mode electric and magnetic biological stimulator (EM-Stim). The stimulator generates pulsing electric and magnetic fields at programmable rates and intensities. While electric and magnetic stimulators have been reported before, this is the first device that combines both modalities. The ability of the dual stimulation to target bone and muscle tissue simultaneously has the potential to improve the therapeutic treatment of osteoporosis and sarcopenia. The device is fully programmable, portable and easy to use, and can run from a battery or a power supply. The device can generate magnetic fields of up to 1.6 mT and output voltages of +/- 40 V. The EM-Stim accelerated myogenic differentiation of myoblasts into myotubes as evidenced by morphometric, gene expression, and protein content analyses. Currently, there are many patents concerned with the application of single electrical or magnetic stimulation, but none that combine both simultaneously. However, we applied for and obtained a provisional patent for new device to fully explore its therapeutic potential in pre-clinical models.",
keywords = "C2c12 myoblasts, C2c12 myotubes, Cell area, Electrical stimulation, Embedded software, Magnetic stimulation, Microcontrollers, Muscle cells, Muscle wasting, Myogenesis, Myogenic differentiation, Proliferation, Protein synthesis, Sarcopenia, Switched-mode power supply",
author = "Leon-Salas, \{Walter D.\} and Hatem Rizk and Chenglin Mo and Noah Weisleder and Leticia Brotto and Eduardo Abreu and Marco Brotto",
year = "2013",
doi = "10.2174/1872208311307010007",
language = "English",
volume = "7",
pages = "71--81",
journal = "Recent Patents on Biotechnology",
issn = "1872-2083",
publisher = "Bentham Science Publishers B.V.",
number = "1",
}