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 |
---|---|---|---|---|
Lin T et al. | 2014 | intact cell/cell culture, MDA-MB-468 cell line and T47D cell line (human breast carcinoma cells) | static magnetic field, DC | 3 mT |
Mahmood Alabed EA et al. | 2019 | intact cell/cell culture, SH-SY5Y cells (human neuroblastoma cell line) | magnetic field, static magnetic field, low frequency, co-exposure, also other exposures without EMF | - |
Maredziak M et al. | 2015 | intact cell/cell culture, adipose-derived equine stem cells | static magnetic field | 0.5 T |
Mariani F et al. | 2001 | intact cell/cell culture, monocyte-derived macrophages | static magnetic field, DC, co-exposure | 232–670 mT |
Martino CF et al. | 2010 | intact cell/cell culture, human vein endothelial cells (HUVEC) | static magnetic field, DC | 60–120 µT |
Marędziak M et al. | 2017 | intact cell/cell culture, human adipose derived stem cells | static magnetic field | 500 mT |
Medeiros HR et al. | 2020 | intact cell/cell culture, SH-SY5Y (human neuroblastoma cell line) | static magnetic field | - |
Medeiros HR et al. | 2023 | intact cell/cell culture, SH-SY5Y (human neuroblastoma cell line) | static magnetic field | - |
Mihoub M et al. | 2012 | bacterium, <i>Salmonella typhimurium</i> and its isogenic mutant dam-SV4698 | static magnetic field | 200 mT |
Mousavian-Roshanzamir S et al. | 2017 | bacterium, <i>Escherichia coli</i> | static magnetic field | - |
Nakamichi N et al. | 2009 | intact cell/cell culture, neural progenitor cells from the brain of rat embryos | static magnetic field | 100 mT |
Nath R et al. | 1980 | intact cell/cell culture, CCL16 cell (chinese-hamster lung cells) | static magnetic field, co-exposure | 1.74–2.05 T |
Ngo FQ et al. | 1987 | intact cell/cell culture, V79 (Chinese hamster fibroblast cells) | static magnetic field, co-exposure | 750 mT |
Nieminen V et al. | 2022 | intact cell/cell culture, MCF-7 (human breast cancer cell line) | static magnetic field, magnetic field, 50/60 Hz, co-exposure, also other exposures without EMF | - |
Norimura T et al. | 1993 | intact cell/cell culture, human T-lymphocytes | static magnetic field, DC, co-exposure | 6.3 T |
Osipenko MA et al. | 2008 | intact cell/cell culture, fibroblasts (from mouse embryos), animal, mouse embryos | geomagnetic field, shielding/field deprivation | 200 nT |
Pacini S et al. | 2003 | intact cell/cell culture, Detroit 550 (human skin fibroblasts) | static magnetic field, DC | 200 mT |
Pacini S et al. | 1999 | intact cell/cell culture, MCF-7 (human breast cancer cell line) | static magnetic field, MRI, co-exposure | 200 mT |
Potenza L et al. | 2010 | intact cell/cell culture, human vein endothelial cells (HUVEC) | static magnetic field | 300 mT |
Quiñones-Peña MA et al. | 2017 | bacterium, <i>Escherichia coli</i> (different strains) | static magnetic field | - |
Reddig A et al. | 2015 | intact cell/cell culture, human lymphocytes | static magnetic field, MRI, co-exposure | - |
Reipert BM et al. | 1997 | intact cell/cell culture, FDCP-mix(A4) cell line (mouse bone marrow cells) | magnetic field, static magnetic field, 50/60 Hz, shielding/field deprivation | 0.2 µT–2 mT |
Rekena A et al. | 2021 | intact cell/cell culture, CHO (Chinese hamster ovary) cells | static magnetic field | - |
Righi H et al. | 2020 | bacterium, <i>Deinococcus radiodurans</i> | static magnetic field, co-exposure, also other exposures without EMF | - |
Romeo S et al. | 2016 | intact cell/cell culture, MRC-5 (human primary fetal lung fibroblasts) | static magnetic field | 370 mT |
Ruiz-Gomez MJ et al. | 2010 | intact cell/cell culture, yeast (<i>Saccharomyces cerevisiae</i>)/WS8105-1C (genotype <i>MATalpha, ade2, arg4-17, trp1-289, ura3-52</i>: a marker which stains the colonies red) | magnetic field, static magnetic field, 50/60 Hz, DC | 0.35–2.45 mT |
Sadri M et al. | 2017 | intact cell/cell culture, human umbilical cord mesenchymal stem cells (hUC-MSCs) | static magnetic field | - |
Sakurai H et al. | 1999 | intact cell/cell culture, mouse leukemia cells (P388) and Chinese hamster fibroblast cells (V79) | static magnetic field | 7 T |
Satari M et al. | 2021 | intact cell/cell culture, HeLa cell line (human adenocarcinoma cell line) and Huo2 cells (skin fibroblast cells) | static magnetic field, also other exposures without EMF, co-exposure | - |
Schwenzer NF et al. | 2007 | intact cell/cell culture, Hel 299 (human fibroblast cell line) | static magnetic field, magnetic field, MRI | - |
Semeano AT et al. | 2022 | intact cell/cell culture, E14TG2a cells (mouse embryonic stem cell line) und human induced pluripotent stem cells | static magnetic field, co-exposure, also other exposures without EMF | - |
Shang GM et al. | 2004 | intact cell/cell culture, <i>Taxus chinensis</i> var. <i>mairei</i> | static magnetic field, magnetic field, 50/60 Hz | - |
Song C et al. | 2021 | intact cell/cell culture, IOSE 386 (normal human ovarian cells), SKOV 3 and HO 8910 (ovarian carcinoma cells), animal, mouse/BALB/c (nude mice), whole body | static magnetic field | - |
Stansell MJ et al. | 2001 | bacterium, <i>Escherichia coli</i> | static magnetic field | 8–60 mT |
Stolfa S et al. | 2007 | intact cell/cell culture, chondrocytes | PW pulsed wave, static magnetic field, signals/pulses, electrotherapy | 0.6 T |
Sun RG et al. | 2012 | intact cell/cell culture, K562 cells (human erythroleukemic cell line) | static magnetic field | 8.8 mT |
Synowiec-Wojtarowicz A et al. | 2024 | C32 and COLO 829 cells (melanoma cell lines) | static magnetic field, co-exposure, also other exposures without EMF | - |
Sztafrowski D et al. | 2019 | bacterium, intact cell/cell culture, fungus, <i>Candida albicans</i> | static magnetic field | - |
Tanasa E et al. | 2020 | intact cell/cell culture, 3T3-E1 cells (mouse osteoblast-like cell line) within silk-firboin scaffolds decorated with magnetic nanoparticles | static magnetic field, co-exposure, also other exposures without EMF | - |
Tenuzzo B et al. | 2006 | intact cell/cell culture, human lymphocytes, mouse thymocytes, FRTL-5 cells (Fischer rat thyroid cells), Hep G2 cells (hepatic transformed cell line), HeLa cell line (human adenocarcinoma cell line), U937 (human leukemic monocyte cell line) and 3 DO cells (T cell hybridoma cell li | static magnetic field | 6 mT |
Tenuzzo B et al. | 2008 | intact cell/cell culture, U937 (human leukemic monocyte cell line) | static magnetic field | 6 mT |
Tenuzzo B et al. | 2009 | intact cell/cell culture, human lymphocytes | static magnetic field | 6 mT |
Vale P | 2018 | dinoflagellate <i>Gymnodinium catenatum</i> | geomagnetic field, static magnetic field, co-exposure, also other exposures without EMF | - |
Vale P | 2020 | intact cell/cell culture, dinoflagellates (<i>Alexandrium pacificum</i> and <i>Gymnodinium cacenatum</i>) | geomagnetic field, magnetic field, low frequency, signals/pulses, co-exposure | - |
Valiron O et al. | 2005 | intact cell/cell culture, Rat2 (rat fibroblasts); NIH-3T3 (mouse fibroblasts); HeLa cells (human cervical carcinoma cell line); hippocampal embryonic murine neurons | static magnetic field, DC | 17 T |
Vergallo C et al. | 2014 | intact cell/cell culture, SH-SY5Y (human neuroblastoma cell line) | static magnetic field, co-exposure | 31.7–232 mT |
Vergallo C et al. | 2020 | intact cell/cell culture, human peripheral blood mononuclear cells | static magnetic field, also other exposures without EMF, co-exposure | - |
Wang L et al. | 2016 | - | static magnetic field, DC, MRI, also other exposures without EMF, co-exposure | - |
Wang Z et al. | 2014 | intact cell/cell culture, HeLa cell line (human adenocarcinoma cell line) and MCF-7 (human breast cancer cell line) | static magnetic field, DC | 0.26–0.33 T |
Wocik-Piotrowicz K et al. | 2014 | intact cell/cell culture, U937 (human leukemic monocyte cell line) | magnetic field, static magnetic field, low frequency, 50/60 Hz, DC, co-exposure | 2–6.5 mT |
This website uses cookies to provide you the best browsing experience. By continuing to use this website you accept our use of cookies.