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Literature DB >> 2461205

On the cyclotron resonance mechanism for magnetic field effects on transmembrane ion conductivity.

Abstract

The cyclotron resonance model, recently proposed to account for physiological response to weak environmental magnetic fields, is shown to violate the laws of classical mechanics. Further, it is argued that the ubiquitous presence of dynamic friction in fluid media precludes significant magnetic effects on membrane ion transport.

Mesh：

Substances：
Ion Channels

Year: 1988 PMID： 2461205 DOI： 10.1002/bem.2250090408

Source DB: PubMed Journal: Bioelectromagnetics ISSN： 0197-8462 Impact factor: 2.010

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Cited

5 in total

1. Failure to reproduce increased calcium uptake in human lymphocytes at purported cyclotron resonance exposure conditions.

Authors: A V Prasad; M W Miller; E L Carstensen; C Cox; M Azadniv; A A Brayman
Journal: Radiat Environ Biophys Date: 1991 Impact factor: 1.925

2. Absence of effects of low-frequency, low-amplitude magnetic fields on the properties of gramicidin A channels.

Authors: K W Wang; S B Hladky
Journal: Biophys J Date: 1994-10 Impact factor: 4.033

3. Influence of non-thermic AC magnetic fields on spore germination in a dimorphic fungus.

Authors: E Wittekindt; D Broers; G Kraepelin; I Lamprecht
Journal: Radiat Environ Biophys Date: 1990 Impact factor: 1.925

4. Combined magnetic fields increased net calcium flux in bone cells.

Authors: R J Fitzsimmons; J T Ryaby; F P Magee; D J Baylink
Journal: Calcif Tissue Int Date: 1994-11 Impact factor: 4.333

5. A new class of signals for magnetobiology research.

Authors: Leonardo Makinistian
Journal: Sci Rep Date: 2019-05-16 Impact factor: 4.379

5 in total