Juergen F. Kolb scite author profile

Electrical models for biological cells predict that reducing the duration of applied electrical pulses to values below the charging time of the outer membrane causes a strong increase in the probability for electric field interactions with intracellular structures. For electric field amplitudes exceeding MV/m such pulses are expected to cause electroporation of cell organelles, with the required electric field amplitude scaling linearly with the inverse of pulse duration. Experimental studies where human cells were exposed to pulsed electric field of up to 300 kV/cm amplitude with duration as short as 10 ns, have confirmed this hypothesis. The observed effects include the breaching of intracellular granule membranes without permanent damage to the cell membrane, abrupt rises in intracellular free calcium levels, and enhanced expression of genes. At increased electric fields, the application of nanosecond pulses induces apoptosis in biological cells, an effect that has been shown to reduce the growth of tumors.

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Electrical and mechanical properties of polyimide films treated by plasma formed in water and isopropanol

Sava¹,

Asăndulesa²,

Zocher

et al. 2019

Reactive and Functional Polymers

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Treatment of skin infections with DC operated afterglow air plasma jet

Kolb

Heller

Singh

et al. 2010

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Cold Atmospheric Pressure Air Plasma Microjet for Medical Applications

Kolb¹,

Price²,

Chiavarini³

et al. 2007

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Juergen F. Kolb

Nanosecond Pulsed Electric Fields Cause Melanomas to Self-Destruct

Subcellular effects of nanosecond electrical pulses

Electrical and mechanical properties of polyimide films treated by plasma formed in water and isopropanol

Treatment of skin infections with DC operated afterglow air plasma jet

Cold Atmospheric Pressure Air Plasma Microjet for Medical Applications

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