Relationship Between Apoptosis Induction in Cancer Cells and the Amount of Electrical Stimulation on Frequency Analysis of Nanosecond Pulsed Electric Field

• Published in: Electrical engineering in Japan Vol. 218; no. 1
• Main Authors: Ninagawa, Yuto, Sugiura, Ren, Kato, Eiko, Yagi, Ippei, Nagata, Kohki, Yamaoka, Hidehiko, Tachibana, Kosuke, Oda, Akinori, Uchida, Satoshi
• Format: Journal Article
• Language: English
• Published: Hoboken Wiley Subscription Services, Inc 01.03.2025
• Subjects: Apoptosis; Cancer; cancer cell; Electric fields; Electrical engineering; energy consumption; Equivalent circuits; Frequency analysis; nanosecond pulsed electric field; Nanosecond pulses; pulse width; Side effects; Stimulation
• ISSN: 0424-7760; 1520-6416
• DOI: 10.1002/eej.23493

ABSTRACT Nanosecond pulse electric field (nsPEF) therapy has attracted attention in recent years as a noninvasive cancer treatment with minimal side effects. However, the relationship between the electrical stress induced in cells by the external electric field and the biological response has not been fully investigated quantitatively. We investigated the effects of nsPEF therapy on cancer cells using microgap electrodes under low‐voltage conditions. We developed an equivalent circuit model using intracellular components to determine the amount of stimulation of cellular components and performed frequency analysis of nsPEF. nsPEF applied to Jurkat cells activated caspase‐3 and induced apoptosis at shorter pulse widths. nsPEF induced biological responses and apoptosis in cancer cells. The relationship between the biological response induced by nsPEF and the amount of electrical stimulation was investigated by comparing the experimental results with frequency analysis. Using quantitative values for each cellular element, the relationship between the biological response and the amount of electrical stimulation can be integrated.