A Constant-Field Interrupted Resonance System for Percutaneous Electromagnetic Measurement of Blood Flow
TLDR
A combination of deformable flow probes of negligible lateral dimensions with an electronic circuit capable of providing a prolonged plateau of dB/dt = 0 and of sampling the flow signal at the end of this interval permits electromagnetic measurement of blood flow with a reliable zero base line secured by switching off the magnet.Abstract:
A combination of deformable flow probes of negligible lateral dimensions with an electronic circuit capable of providing a prolonged plateau of dB/dt = 0 and of sampling the flow signal at the end of this interval permits electromagnetic measurement of blood flow with a reliable zero base line secured by switching off the magnet. An extracorporeal magnet provides the magnetic field. The flow transducer is introduced into the vascular system percutaneously through a standard angiographic catheter by conventional technique. The idea of the current generator can be described as “principle of interrupted resonance.” The current wave form can be described as a sequence of disconnected bisected sine waves joined at the apices by horizontal current plateaus where di/dt is strictly zero.read more
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Journal ArticleDOI
Blood flow and blood velocity measurement in vivo by electromagnetic induction.
TL;DR: The application of electromagnetic induction to the measurement of blood flow and blood velocityin vivo is reviewed and an account is given of Bevir's virtual-current theory and its application to various flow and velocity measuring devices.
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Blood flow and blood velocity measurement in vivo by electromagnetic induction
TL;DR: The application of electromagnetic induction to the measurement of blood flow and blood velocity in vivo is reviewed, the electronic requirements are discussed and the associated problems are surveyed.
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A system for intravascular, radially orientation-independent electromagnetic flow- and diameter-sensing.
TL;DR: The difficulty of optimally orienting an intravascular loop probe of an extracorporeal field electromagnetic flow meter is circumvented by uniting 2 mutually perpendicular loop sensors into a single flow-diameter probe.
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The external field intravascular electromagnetic flowmeter system as applied to standard arteriographic catheters and conscious humans.
TL;DR: New methodology, utilizing electromagnetic principles, has been developed for the measurement of regional vascular blood flow in intact animals and man by imposing the magnetic field which pervaces the artery from a coli located outside the body.
Journal ArticleDOI
Extracorporeal magnet perivascular electromagnetic flow meters.
TL;DR: The “interrupted resonance” circuit proved effective in combination with an extracorporeal magnet in permitting electromagnetic blood flow measurements to be made in branch arteries of dogs by application of perivascular cuffs equipped with pick-up electrodes contacting the vessel wall.