Unknown

Dataset Information

0

Selective distant electrostimulation by synchronized bipolar nanosecond pulses.


ABSTRACT: A unique aspect of electrostimulation (ES) with nanosecond electric pulses (nsEP) is the inhibition of effects when the polarity is reversed. This bipolar cancellation feature makes bipolar nsEP less efficient at biostimulation than unipolar nsEP. We propose to minimize stimulation near pulse-delivering electrodes by applying bipolar nsEP, whereas the superposition of two phase-shifted bipolar nsEP from two independent sources yields a biologically-effective unipolar pulse remotely. This is accomplished by electrical compensation of all nsEP phases except the first one, resulting in the restoration of stimulation efficiency due to cancellation of bipolar cancellation (CANCAN-ES). We experimentally proved the CANCAN-ES paradigm by measuring YO-PRO-1 dye uptake in CHO-K1 cells which were permeabilized by multiphasic nsEP (600?ns per phase) from two generators; these nsEP were synchronized either to overlap into a unipolar pulse remotely from electrodes (CANCAN), or not to overlap (control). Enhancement of YO-PRO-1 entry due to CANCAN was observed in all sets of experiments and reached ~3-fold in the center of the gap between electrodes, exactly where the unipolar pulse was formed, and equaled the degree of bipolar cancellation. CANCAN-ES is promising for non-invasive deep tissue stimulation, either alone or combined with other remote stimulation techniques to improve targeting.

SUBMITTER: Gianulis EC 

PROVIDER: S-EPMC6739416 | biostudies-literature | 2019 Sep

REPOSITORIES: biostudies-literature

altmetric image

Publications

Selective distant electrostimulation by synchronized bipolar nanosecond pulses.

Gianulis Elena C EC   Casciola Maura M   Zhou Carol C   Yang Enbo E   Xiao Shu S   Pakhomov Andrei G AG  

Scientific reports 20190911 1


A unique aspect of electrostimulation (ES) with nanosecond electric pulses (nsEP) is the inhibition of effects when the polarity is reversed. This bipolar cancellation feature makes bipolar nsEP less efficient at biostimulation than unipolar nsEP. We propose to minimize stimulation near pulse-delivering electrodes by applying bipolar nsEP, whereas the superposition of two phase-shifted bipolar nsEP from two independent sources yields a biologically-effective unipolar pulse remotely. This is acco  ...[more]

Similar Datasets

| S-EPMC4345159 | biostudies-literature
| S-EPMC3843160 | biostudies-literature
| S-EPMC5707357 | biostudies-literature
| S-EPMC9400447 | biostudies-literature
2016-02-16 | GSE77906 | GEO
2016-02-16 | GSE77908 | GEO
2016-02-16 | E-GEOD-77906 | biostudies-arrayexpress
2016-02-16 | GSE77907 | GEO
2016-02-16 | E-GEOD-77908 | biostudies-arrayexpress
| S-EPMC6110758 | biostudies-literature