Please note that a publication can be assigned to several endpoints, i.e. the sum of publications from the individual thematic points and subpoints can be greater than the total sum of actual publications.
| Authors | Year | Exposed system | Parameters | Electric field strength |
|---|---|---|---|---|
| Saito A et al. | 2025 | intact cell/cell culture, human cortical spheroid (hSC) | 50/60 Hz, electric current application, electric field | - |
| Dacha M et al. | 1993 | intact cell/cell culture, human erythrocytes | electric field, magnetic field, 50/60 Hz | 2 mV/m–20 kV/m |
| Fiorani M et al. | 1992 | intact cell/cell culture, human myeloid leukemia cell line (K-562) | electric field, magnetic field, 50/60 Hz | 0.2–20 kV/m |
| Sheikh AQ et al. | 2013 | intact cell/cell culture, microvascular endothelial cells (from lungs of C57 mice) and diabetic (db/db) mutant mice | microwaves, electric field, 50/60 Hz | 156–209 V/m |
| Migliore R et al. | 2017 | intact cell/cell culture, model of CA1 pyramidal neurons | electric field, 50/60 Hz, theoretical/in silico study | - |
| Goodman EM et al. | 1976 | intact cell/cell culture, slime mold microplasmodia (<i>Physarum polycephalum</i>, line M<sub>3</sub>C VI) | electric field, magnetic field, low frequency, 50/60 Hz | 7 mV/cm |
| Migdał P et al. | 2021 | invertebrate, honey bee (<i>Apis mellifera carnica</i>), whole body | electric field, 50/60 Hz, low frequency | 5–34.5 kV/m |
| Dimitrov DS et al. | 1990 | organelle/cell part, human erythrocyte ghosts | electric field, 50/60 Hz, low frequency | 8–16 kV/m |
| Inouye M et al. | 1985 | plant, roots of 12 different plants (Monocotyledon and Dicotyledon) | electric field, 50/60 Hz | 360 V/m |
| Brayman AA et al. | 1990 | plant, roots of <i>Zea mays</i> and <i>Vicia faba</i> | electric field, 50/60 Hz | 100–500 V/m |
This website uses cookies to provide you the best browsing experience. By continuing to use this website you accept our use of cookies.
