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Journal of Microwave Power
and Electromagnetic Energy (JMPEE) |
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TITLE |
Nuclear Magnetic
Resonance and Transcutaneous Electromagnetic Blood
Flow Measurement [PDF] |
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AUTHORS |
J.H. Battocletti, R. E. Halbach, S. X. Salles-Cunha and
A. Sances, Jr. 1983 18 3 221-232 |
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Abstract Static and alternating
magnetic fields are employed in blood flowmeters
using nuclear magnetic resonance (NMR) principles and electromagnetic induction
by a moving conductor (TEM). Both techniques require high steady magnetic
fields, obtained either from permanent magnets or from electromagnets. A
relatively homogeneous magnetic field is needed for NMR, but, though
important for calibration, homogeneity is not critical for TEM. NMR is more
complex than TEM since it requires radio-frequency and audio-frequency
magnetic fields. However, the TEM method requires surface electrodes in
contact with the skin, or needle electrodes placed subcutaneously, whereas
NMR is contactless. The NMR flowmeter
can be calibrated directly, but appropriate and approximate models must be
assumed and then solved by computer to quantify blood flow by the TEM flowmeter. Flow in individual vessels is measured a
priori in the TEM flowmeter by virtue of the
assumed models. To measure flow in individual vessels by NMR, a scanning or
ranging method is required, which logically leads to blood flow imaging. The
levels of steady, radio-frequency, and audio-frequency magnetic fields used
in the two types of flowmeters are low enough so as
not to cause any apparent stimulus to human volunteers and patients tested. |
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