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W2114924438 startingPage "985" @default.
W2114924438 abstract "The electroporation effect on tissue can be assessed by measurement of electrical properties of the tissue undergoing electroporation. The most prominent techniques for measuring electrical properties of electroporated tissues have been voltage–current measurement of applied pulses and electrical impedance tomography (EIT). However, the electrical conductivity of tissue assessed by means of voltage–current measurement was lacking in information on tissue heterogeneity, while EIT requires numerous additional electrodes and produces results with low spatial resolution and high noise. Magnetic resonance EIT (MREIT) is similar to EIT, as it is also used for reconstruction of conductivity images, though voltage and current measurements are not limited to the boundaries in MREIT, hence it yields conductivity images with better spatial resolution. The aim of this study was to investigate and demonstrate the feasibility of the MREIT technique for assessment of conductivity images of tissues undergoing electroporation. Two objects were investigated: agar phantoms and ex vivo liver tissue. As expected, no significant change of electrical conductivity was detected in agar phantoms exposed to pulses of all used amplitudes, while a considerable increase of conductivity was measured in liver tissue exposed to pulses of different amplitudes." @default.
W2114924438 created "2016-06-24" @default.
W2114924438 creator A5005916320 @default.
W2114924438 creator A5062367378 @default.
W2114924438 creator A5085743066 @default.
W2114924438 creator A5090006036 @default.
W2114924438 date "2014-05-20" @default.
W2114924438 modified "2023-09-24" @default.
W2114924438 title "Magnetic resonance electrical impedance tomography for measuring electrical conductivity during electroporation" @default.
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W2114924438 doi "https://doi.org/10.1088/0967-3334/35/6/985" @default.
W2114924438 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24844299" @default.
W2114924438 hasPublicationYear "2014" @default.
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