JP2002143169A5 - - Google Patents

Description

Patent application title: Living body light measuring apparatus and optical waveguide means holding apparatus

Claims (14)

A plurality of irradiating means for irradiating light to a plurality of parts of the subject;
A plurality of detection means for detecting light emitted from the irradiation means and having passed through the inside of the subject at a plurality of parts of the subject;
A probe comprising the irradiation unit and the detection unit;
Said apparatus is configured to optically measure the inside of said subject;
The biological light measuring apparatus according to claim 1, wherein the probe comprises a mechanism capable of changing the arrangement state of the irradiating means and the detecting means at a plurality of parts of the subject according to the shape of the subject. An irradiation unit that irradiates light of a wavelength in the visible to infrared region to a plurality of portions of the three-dimensional shaped object surface;
Detection means for detecting light emitted from the irradiation means and having passed through the inside of the subject at a plurality of sites on the surface of the subject;
A probe comprising the irradiation unit and the detection unit;
Said apparatus is configured to optically measure the inside of said subject;
The probe is configured to be able to correspond to the surface shape of the subject by connecting between the irradiating means and the detecting means at a plurality of parts of the subject with a member having stretchability. Living body light measuring device. An irradiation unit that irradiates light of a wavelength in the visible to infrared region to a plurality of portions of the three-dimensional shaped object surface;
Detection means for detecting light emitted from the irradiation means and having passed through the inside of the subject at a plurality of sites on the surface of the subject;
A probe comprising the irradiation unit and the detection unit;
Said apparatus is configured to optically measure the inside of said subject;
A living body light measurement apparatus, wherein the probe is configured such that a mechanism connecting between the irradiation unit and the detection unit at a plurality of parts of the subject is rotatable within a predetermined range. An irradiation unit that irradiates light of a wavelength in the visible to infrared region to a plurality of portions of the three-dimensional shaped object surface;
Detection means for detecting light emitted from the irradiation means and having passed through the inside of the subject at a plurality of sites on the surface of the subject;
A probe comprising the irradiation unit and the detection unit;
Said apparatus is configured to optically measure the inside of said subject;
The probe is configured to be able to correspond to the surface shape of the subject by connecting between the irradiating means and the detecting means at a plurality of parts of the subject with a member having elasticity.
A living body light measuring device characterized in that a mechanism connecting between the irradiating means and the detecting means is configured to be rotatable within a predetermined range. An irradiation unit that irradiates light of a wavelength in the visible to infrared region to a plurality of portions of the three-dimensional shaped object surface;
It has detection means for detecting light emitted from the irradiation means and having passed through the inside of the subject at a plurality of sites on the surface of the subject,
The inside of the subject is optically measured, the measurement result is imaged, and the image is displayed.
The irradiation unit from the plurality of irradiation sites and the detection unit from the plurality of detection sites use a plurality of light waveguides,
The light guiding means is disposed on the surface of the subject by a light guiding means holding portion holding the light guiding means.
The biological light measurement apparatus according to claim 1, wherein the optical waveguide unit holding unit is connected to each other by a connecting unit that can expand and contract within a predetermined range and can rotate within the predetermined range. An irradiation unit that irradiates light of a wavelength in the visible to infrared region to a plurality of portions of the three-dimensional shaped object surface;
It has detection means for detecting light emitted from the irradiation means and having passed through the inside of the subject at a plurality of sites on the surface of the subject,
The inside of the subject is optically measured, the measurement result is imaged, and the image is displayed.
The irradiation unit from the plurality of irradiation sites and the detection unit from the plurality of detection sites use a plurality of light waveguides,
The light guiding means is disposed on the surface of the subject by a light guiding means holding portion holding the light guiding means.
The biological light measurement apparatus according to claim 1, wherein the light waveguide unit holding portion is disposed on a sheet having stretchability and deformability. An irradiation unit that irradiates light of a wavelength in the visible to infrared region to a plurality of portions of the three-dimensional shaped object surface;
It has detection means for detecting light emitted from the irradiation means and having passed through the inside of the subject at a plurality of sites on the surface of the subject,
The inside of the subject is optically measured, the measurement result is imaged, and the image is displayed.
The plurality of irradiation means and the plurality of detection means are alternately arranged on lattice points of a square lattice or a square lattice, or arranged to be on lattice points of a combination of a pentagonal lattice and a hexagonal lattice,
The irradiation unit from the plurality of irradiation sites and the detection unit from the plurality of detection sites use a plurality of light waveguides,
The light guiding means is disposed on the surface of the subject by a light guiding means holding portion holding the light guiding means.
The biological light measurement apparatus according to claim 1, wherein the optical waveguide unit holding unit is connected to each other by a connecting unit that can expand and contract within a predetermined range and can rotate within the predetermined range. An irradiation unit that irradiates light of a wavelength in the visible to infrared region to a plurality of portions of the three-dimensional shaped object surface;
It has detection means for detecting light emitted from the irradiation means and having passed through the inside of the subject at a plurality of sites on the surface of the subject,
The inside of the subject is optically measured, the measurement result is imaged, and the image is displayed.
The plurality of irradiation means and the plurality of detection means are alternately arranged on lattice points of a square lattice or a square lattice, or arranged to be on lattice points of a combination of a pentagonal lattice and a hexagonal lattice,
The irradiation unit from the plurality of irradiation sites and the detection unit from the plurality of detection sites use a plurality of light waveguides,
The light guiding means is disposed on the surface of the subject by a light guiding means holding portion holding the light guiding means.
The biological light measurement apparatus according to claim 1, wherein the light waveguide unit holding portion is disposed on a sheet having stretchability and deformability. The plurality of irradiation means and the plurality of detection means are alternately arranged on the lattice points of the square lattice or square lattice, or arranged on the lattice points of the combination of the pentagonal lattice and the hexagonal lattice. The living body light measurement device according to any one of claims 1 to 4, characterized in that The living body light measurement device according to any one of claims 1 to 9, wherein the distance between the combination of the irradiation unit and the detection unit used for light measurement is approximately equal. The optical waveguide means holding portion is expanded and contracted within a range of 27 mm to 33 mm, and the connecting portion is configured to be rotatable within a range of 0 ° to 30 °. The living body light measurement device according to claim 1. The living body light measurement device according to any one of claims 5, 6, 7, 8 or 11, wherein the light guiding means is an optical fiber. A holder for holding the light guiding means,
A connecting member having a plurality of the cages and connecting the cages;
An optical waveguide means holding device characterized by comprising a connecting member for expanding and connecting the connecting member. The optical waveguide means holding device according to claim 13, wherein the optical waveguide means is an optical fiber.