Optical measuring device for substances in vivo
First Claim
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1. An in vivo measuring device comprising:
- means of irradiating with lights a position to be irradiated on the surface of a living body;
means of detecting said irradiating lights having passed the living body in a detection position on the surface of the living body;
means of applying a magnetic field to lights passing said living body in a direction crossing the line connecting said light-irradiated position and said light detection position;
means of analyzing the polarization of said detected lights; and
means of figuring out the concentrations of substances in vivo on the basis of said information on polarization.
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Abstract
In order to provide a compact device easy to handle and adjust for use in bloodless measurement of the glucose concentration, in which the angle of polarization varies in synchronism with the magnetic field modulation, the direction of applying the magnetic field is so arranged as to cross the optical axis.
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Citations
4 Claims
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1. An in vivo measuring device comprising:
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means of irradiating with lights a position to be irradiated on the surface of a living body;
means of detecting said irradiating lights having passed the living body in a detection position on the surface of the living body;
means of applying a magnetic field to lights passing said living body in a direction crossing the line connecting said light-irradiated position and said light detection position;
means of analyzing the polarization of said detected lights; and
means of figuring out the concentrations of substances in vivo on the basis of said information on polarization. - View Dependent Claims (2, 3)
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4. An in vivo measuring device comprising a plurality of low-coherence light sources having different wavelengths, means of branching lights from said low-coherence light sources, irradiating the surface of a living body with one branched component and guiding the other to a mirror to cause the reflected lights to interfere with each other to sweep the position of said mirror, and means of applying a magnetic field to the surface of the living body irradiated with said lights, wherein the distance between said low-coherence light sources and the living body is varied according to the wavelengths of said low-coherence light sources, the intensity of said magnetic field is varied to create a state in which the magnetic field is applied and a state in which the magnetic field is not applied, and variations in polarization are measured according to the intensity of the interfering component in each state.
Specification