Upper bound on the biological effects of 50/60 Hz magnetic fields mediated by radical pairs
Prolonged exposure to weak (~1 μT) extremely-low-frequency (ELF, 50/60 Hz) magnetic fields has been associated with an increased risk of childhood leukaemia. One of the few biophysical mechanisms that might account for this link involves short-lived chemical reaction intermediates known as radical p...
Published in: | eLife |
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Main Author: | |
Format: | Article in Journal/Newspaper |
Language: | English |
Published: |
eLife Sciences Publications
2019
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Subjects: | |
Online Access: | https://doi.org/10.7554/elife.44179 https://ora.ox.ac.uk/objects/uuid:fc43da38-324a-4015-9ef8-7c78c679e63a |
Summary: | Prolonged exposure to weak (~1 μT) extremely-low-frequency (ELF, 50/60 Hz) magnetic fields has been associated with an increased risk of childhood leukaemia. One of the few biophysical mechanisms that might account for this link involves short-lived chemical reaction intermediates known as radical pairs. In this report, we use spin dynamics simulations to derive an upper bound of 10 parts per million on the effect of a 1 μT ELF magnetic field on the yield of a radical pair reaction. By comparing this figure with the corresponding effects of changes in the strength of the Earth’s magnetic field, we conclude that if exposure to such weak 50/60 Hz magnetic fields has any effect on human biology, and results from a radical pair mechanism, then the risk should be no greater than travelling a few kilometres towards or away from the geomagnetic north or south pole. |
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