Uptake of substances into living mammalian cells by microwave induced perturbation of the plasma membrane
Manuela Milden-Appel, Markus Paravicini, Jannick P. Milden, Martin Schüßler, Rolf Jakoby, M. Cristina Cardoso

TL;DR
Microwave radiation can efficiently deliver various substances into living mammalian cells with minimal impact on their health.
Contribution
A novel microwave-poration method is introduced for transfecting mammalian cells with diverse molecules and minimal physiological effects.
Findings
Microwave irradiation at 18 GHz had minimal impact on cell survival and viability.
Uptake of substances was most efficient at 18 GHz and correlated with electric field strength.
Molecules of various sizes, including antibodies, were successfully delivered into cells.
Abstract
Delivering foreign molecules and genetic material into cells is a crucial process in life sciences and biotechnology, resulting in great interest in effective cell transfection methods. Importantly, physical transfection methods allow delivery of molecules of different chemical composition and are, thus, very flexible. Here, we investigated the influence of microwave radiation on the transfection and survival of mammalian cells. We made use of an optimized microwave-poration device and analyzed its performance (frequency and electric field strength) in comparison with simulations. We, then, tested the effect of microwave irradiation on cells and found that 18 GHz had the least impact on cell survival, viability, cell division and genotoxicity while 10 GHz drastically impacted cell physiology. Using live-cell fluorescence microscopy and image analysis, we tested the uptake of small…
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Taxonomy
TopicsMicrobial Inactivation Methods · Microfluidic and Bio-sensing Technologies · Magnetic and Electromagnetic Effects
