R.E. Aly scite author profile

R.E. Aly

5Publications

50Citation Statements Received

0Citation Statements Given

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113

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Old Dominion University

Publications

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Self-consistent simulations of electroporation dynamics in biological cells subjected to ultrashort electrical pulses

Joshi

Aly

et al. 2001

Phys. Rev. E

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The temporal dynamics of electroporation of cells subjected to ultrashort voltage pulses are studied based on a coupled scheme involving the Laplace, Nernst-Plank, and Smoluchowski equations. A pore radius dependent energy barrier for ionic transport, accounts for cellular variations. It is shown that a finite time delay exists in pore formation, and leads to a transient overshoot of the transmembrane potential V(mem) beyond 1.0 V. Pore resealing is shown to consist of an initial fast process, a 10(-4) s delay, followed by a much slower closing at a time constant of about 10(-1) s. This establishes a time-window during which the pores are mostly open, and hence, the system is most vulnerable to destruction by a second electric pulse. The existence of such a time window for effective killing by a second pulse is amply supported by our experimental data for E. coli cells. The time constant for the longer process also matches experiments. The study suggests that controlled manipulation of the pore "open times" can be achieved through multiple, ultrashort pulses.

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Repair time of bacteria after pulsed electric field application

Aly

Joshi²,

Stark

et al.

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Biological/medical pulsed electric field treatments

Schoenbach

Stark

Deng

et al. 2000

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The effect of multiple, microsecond electrical pulses on bacteria

Aly

Joshi

Stark

et al. 2001

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Bacterial decontamination of coastal seawater by means of electrical discharges

Dobbs

Moreira²,

Aly³

et al.

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R.E. Aly

Self-consistent simulations of electroporation dynamics in biological cells subjected to ultrashort electrical pulses

Repair time of bacteria after pulsed electric field application

Biological/medical pulsed electric field treatments

The effect of multiple, microsecond electrical pulses on bacteria

Bacterial decontamination of coastal seawater by means of electrical discharges

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