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Effects of GSM-modulated radiofrequency electromagnetic fields on mouse bone marrow cells

TitleEffects of GSM-modulated radiofrequency electromagnetic fields on mouse bone marrow cells
Publication TypeArticolo su Rivista peer-reviewed
Year of Publication2008
AuthorsPrisco, M.G., Nasta F., Rosado M.M., Lovisolo G.A., Marino Carmela, and Pioli Claudio
JournalRadiation Research
Volume170
Pagination803-810
ISSN00337587
Keywordsanimal cell, animal experiment, Animals, antigen expression, article, B lymphocyte, B-Lymphocytes, bone marrow cell, Bone Marrow Cells, bone marrow transplantation, CD4 antigen, CD8 antigen, Cell Count, cell differentiation, cell proliferation, cell subpopulation, Cell Survival, controlled study, cytokine production, electromagnetic field, Electromagnetic Fields, Female, gamma interferon, in vivo study, lymphatic system, lymphocyte proliferation, Mice, mitogenic agent, mobile phone, mouse, Mus, nonhuman, priority journal, Radiation exposure, Radio Waves, radiofrequency radiation, Spleen, survival rate, T lymphocyte, T-Lymphocytes, thymocyte, thymus, Thymus Gland, X irradiation
Abstract

We examined the effects of in vivo exposure to a GSM-modulated 900 MHz RF field on the ability of bone marrow cells to differentiate, colonize lymphatic organs, and rescue lethally X-irradiated mice from death. X-irradiated mice were injected with medium alone or containing bone marrow cells from either RF-field-exposed (SAR 2 W/kg, 2 h/day, 5 days/week, 4 weeks) or sham-exposed or cage control donor mice. Whereas all mice injected with medium alone died, mice that received bone marrow cells survived. Three and 6 weeks after bone marrow cell transplantation, no differences in thymus cellularity and in the frequencies of differentiating cell subpopulations (identified by CD4/CD8 expression) were observed among the three transplanted groups. Mitogen-induced thymocyte proliferation yielded comparable levels in all transplanted groups. As to the spleen, no effects of the RF-field exposure on cell number, percentages of B and T (CD4 and CD8) cells, B- and T-cell proliferation, and IFN-γ production were found in transplanted mice. In conclusion, our results show no effect of in vivo exposure to GSM-modulated RF fields on the ability of bone marrow precursor cells to home and colonize lymphoid organs and differentiate in phenotypically and functionally mature T and B lymphocytes. © 2008 by Radiation Research Society.

Notes

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URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-57149118267&doi=10.1667%2fRR1213.1&partnerID=40&md5=f82ca1b365ccc36bbc707943ec1b1aaf
DOI10.1667/RR1213.1
Citation KeyPrisco2008803