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Cancer continues to be a major risk to the health and well being among populations around the world. A new method using ion-ionizing radiation with nanosecond pulsed electric fields (nsPEFs) provides a novel means to treat cancer at local sites. NsPEFs promote cell death in several cell types and here we investigated mechanisms for cell death induction. In murine B16f10 melanoma, murine E4 squamous...
Our initial in vitro (HL-60 cells) and in vivo (B16-F10 murine) studies showed nanosecond pulsed electric fields (nsPEFs) caused intracellular changes and melanoma involution, respectively. We wanted to describe the morphologic changes in cell ultrastructure and investigate the mechanism for change due to nsPEFs in B16-F10 melanoma tumors in SKH-1 mice. We injected B16-F10 cells into 120 female SKH-1...
Electrical models for biological cells predict that reducing the duration of applied electrical pulses to values below the charging time of the outer cell membrane (which is on the order of 100 ns for mammalian cells) causes a strong increase in the probability of electric field interactions with intracellular structures due to displacement currents. For electric field amplitudes exceeding MV/m, such...
Ionizing radiation can be an environmental health risk as well as a cancer therapeutic, but similar roles for non-ionizing radiation are controversial. We have examined effects of wideband, intense non-ionizing radiation applied to cells and tissues as nanosecond pulsed electric fields (nsPEFs). Compared to conventional electroporation pulses, nsPEFs have shorter pulse durations (ges10 ns) and higher...
Applications of nanosecond pulsed electric fields (nsPEF) to human cells and mammalian tissues indicate that, as the pulse durations and/or the electric field intensities decrease, effects on the plasma membrane decrease and effects in intracellular signal transduction mechanisms increase. NsPEFs that are below the threshold for electroporation-like effects on the plasma membrane mimic cell-signaling...
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