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 | Magnetic flux density/field strength |
|---|---|---|---|---|
| Curri SB | 1985 | animal, rat | magnetic field, 50/60 Hz | - |
| House RV et al. | 1996 | animal, mouse/B6 C3 F1, mouse/BALB/c and rat/Fischer 344, whole body | magnetic field, 50/60 Hz | 0.002–1 mT |
| Boorman GA et al. | 1997 | animal, rat/F344/N and mouse/B6C3F1, whole body | magnetic field, 50/60 Hz | 2–1,000 µT |
| Margonato V et al. | 1995 | animal, rat/Sprague-Dawley, whole body | magnetic field, 50/60 Hz | 5 µT |
| Niehaus M et al. | 1997 | animal, Djungarian hamster (<i>Phodopus sungorus</i>), whole body | magnetic field, 50/60 Hz | 360–450 µT |
| Prato FS et al. | 1995 | invertebrate, snail (<i>Cepaea nemoralis</i>), whole body | magnetic field, 50/60 Hz | 0–547 µT |
| Ossenkopp KP et al. | 1987 | animal, mouse/CF-1, whole body | magnetic field, 50/60 Hz | 50–150 µT |
| Kavaliers M et al. | 1990 | invertebrate, snail (<i>Cepaea nemoralis</i>), whole body | magnetic field, 50/60 Hz | 100 µT |
| Kavaliers M et al. | 1993 | invertebrate, snail (<i>Cepaea nemoralis</i>), whole body | magnetic field, 50/60 Hz | 100 µT |
| Mandeville R et al. | 1997 | animal, rat/Fischer 344, whole body | magnetic field, 50/60 Hz | 2–2,000 µT |
| Kavaliers M et al. | 1998 | invertebrate, snail (<i>Cepaea nemoralis</i>), whole body | magnetic field, 50/60 Hz | 141 µT |
| Picazo ML et al. | 1995 | animal, mouse/OF1, whole body | magnetic field, 50/60 Hz | 15 µT |
| Prato FS et al. | 2000 | invertebrate, snail (<i>Cepaea nemoralis</i>), whole body | magnetic field, 50/60 Hz | 38–414 µT |
| Chow KC et al. | 2000 | bacterium, <i>Escherichia coli</i>/XL1-Blue | magnetic field, 50/60 Hz | 1.2 mT |
| Jin M et al. | 2000 | intact cell/cell culture, INITC3H 10T1/2 cells (derived from mouse embryo fibroblasts, transformed carcinogenically by methylcholanthrene, resulting neoplastic phenotype can be suppressed by the presence of retinyl acetate) | magnetic field, 50/60 Hz | 300 µT |
| Nakaoka Y et al. | 2000 | intact cell/cell culture, ciliate/slipper animalcule (<i>Paramecium multimicronucleatum</i>) | magnetic field, 50/60 Hz | 590 mT |
| Child SZ et al. | 1992 | invertebrate, snail (<i>Hilicella caperata</i>), whole body | magnetic field, 50/60 Hz | 100 µT |
| Kavaliers M et al. | 1991 | invertebrate, snail (<i>Cepaea nemoralis</i>), whole body | magnetic field, 50/60 Hz | 100 µT |
| Tysdale DM et al. | 1991 | invertebrate, snail (<i>Cepaea nemoralis</i>), whole body | magnetic field, 50/60 Hz | 100 µT |
| Kavaliers M et al. | 1985 | animal, mouse/CF-1 and mouse/C57BL, whole body | magnetic field, 50/60 Hz | 0–9 mT |
| Anderson LE et al. | 2001 | animal, rat/Fischer 344, whole body | magnetic field, 50/60 Hz | 1 mT |
| Santini MT et al. | 1995 | intact cell/cell culture, K562 cells (human erythroleukemic cell line) | magnetic field, 50/60 Hz | 2.5 mT |
| Harada S et al. | 2001 | DNA/RNA, HeLa (DNA mismatch repair-proficient cell extract) | magnetic field, 50/60 Hz | 0.25–1 T |
| Becker E et al. | 1996 | intact cell/cell culture, ciliate/slipper animalcule (<i>Paramecium</i>) and <i>Loxodes</i> and <i>Tetrahymena</i> | magnetic field, 50/60 Hz | 0.5–2 mT |
| Nascimento LF et al. | 2003 | bacterium, <i>Escherichia coli</i>/ATCC 25922 | magnetic field, 50/60 Hz | 500 µT |
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