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Journal of Microwave Power
and Electromagnetic Energy (JMPEE) |
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TITLE |
A
Generalized Model for the Interaction of Microwave Radiation with Bound Water
in Biological Material [PDF] |
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AUTHORS |
V.E.R. McClean, R.J. Sheppard and E.N. Grant 1981 16 1 1-8 |
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Abstract Calculations have been
performed concerning the deposition of microwave energy in bound water
surrounding a biological macromolecule immersed in a continuum consisting of free
water and dissolved ions. In particular a previous model of a hydrated
macromolecule has been generalised to one where the relaxation frequency of
the bound water varies across the layer, and the calculations have been
carried out for three combinations of values of ionic conductivity of the
bound water and the continuum. When these conductivities are equal, but low,
the average energy deposition per unit volume in the bound water is greater,
sometimes by at least an order of magnitude, than that in the continuum at
frequencies in the region of hundreds of MHz to a few GHz. As the ionic
conductivity increases this effect decreases and at conductivities equal to
that of physiological saline the specific energy deposition in the bound
water is not more than around twice that in the surrounding electrolyte
continuum over this frequency range. Therefore, for tissues of high bound
water content exposed to microwaves of a given power density the biological
effect produced is enhanced. For a biological tissue of high ionic
conductivity with 20% of its water in the bound state the overall energy
absorption would be 25% greater at certain frequencies than if all the water
were in the free state. For materials of low ionic conductivity the increase
would be more than one order of magnitude. |
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