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Plasma Membrane Temperature Gradients And Multiple Cell Permeabilization Induced By Low Peak Power Density Femtosecond Lasers, Allen L. Garner, Bogdan Neculaes, Maxim Deminsky, Dmitry V. Dylov, Chulmin Joo, Evelina R. Loghin, Siavash Yazdanfar, Kenneth R. Conway
Plasma Membrane Temperature Gradients And Multiple Cell Permeabilization Induced By Low Peak Power Density Femtosecond Lasers, Allen L. Garner, Bogdan Neculaes, Maxim Deminsky, Dmitry V. Dylov, Chulmin Joo, Evelina R. Loghin, Siavash Yazdanfar, Kenneth R. Conway
School of Nuclear Engineering Faculty Publications
Calculations indicate that selectively heating the extracellular media induces membrane temperature gradients that combine with electric fields and a temperature-induced reduction in the electro- permeabilization threshold to potentially facilitate exogenous molecular delivery. Experiments by a wide-field, pulsed femtosecond laser with peak power density far below typical single cell optical de- livery systems confirmed this hypothesis. Operating this laser in continuous wave mode at the same average power permeabilized many fewer cells, suggesting that bulk heating alone is insufficient and temperature gradients are crucial for permeabilization. This work suggests promising opportunities for a high throughput, low cost, contactless method for laser …