It has been shown that low-frequency electromagnetic fields may inhibit or enhance the lymphocyte response to many mitogens. How this happens is not known, and many reports suggest that alterations of surface receptors may be involved. Results presented here indicate that cellular activation is inhibited by a high-intensity EMF after the early phases of signal transduction, but it may be enhanced by a low-intensity EMF.
EFFECTS OF DIFFERENT LOW-FREQUENCY ELECTROMAGNETIC-FIELDS ON LYMPHOCYTE-ACTIVATION - AT WHICH CELLULAR-LEVEL / Petrini, M; Polidori, R; Ambrogi, F; Vaglini, F; Zaniol, P; Ronca, G; Conte, Angela. - In: JOURNAL OF BIOELECTRICITY / INTERNATIONAL SOCIETY FOR BIOELECTRICITY. - ISSN 0730-823X. - STAMPA. - 9:(1990), pp. 159-166.
EFFECTS OF DIFFERENT LOW-FREQUENCY ELECTROMAGNETIC-FIELDS ON LYMPHOCYTE-ACTIVATION - AT WHICH CELLULAR-LEVEL
CONTE, Angela
1990
Abstract
It has been shown that low-frequency electromagnetic fields may inhibit or enhance the lymphocyte response to many mitogens. How this happens is not known, and many reports suggest that alterations of surface receptors may be involved. Results presented here indicate that cellular activation is inhibited by a high-intensity EMF after the early phases of signal transduction, but it may be enhanced by a low-intensity EMF.
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