Method and device for measuring concentration of specific component
First Claim
Patent Images
1. A method for measuring the concentration of a specific component contained in a living body comprising the steps of:
- (1) introducing light into an optical element, which is absorbed and reflected by a living body in contact with said optical element and then emitted from said optical element;
(2) detecting the light emitted from said optical element and obtaining a wavenumber signal from the detected light;
(3) correcting said wavenumber signal with the use of a calibration line for correcting the influence of a change in the state of an interface between said living body and said optical element on said wavenumber signal,(4) obtaining the concentration of the specific component contained in said living body from the corrected wavenumber signal; and
(5) outputting the concentration of the specific component,wherein said calibration line is prepared by the steps of;
(3a) obtaining “
i”
different spectrums corresponding to “
i”
different states of said interface, where said “
i”
is an integer from 2 to n; and
(3b) plotting “
i”
different points in a coordinate system and connecting said points to obtain a calibration line, each of said “
i”
different points being determined from “
j”
different wavenumber signals corresponding to “
j”
different wavenumbers in each of said “
i”
different spectrums, where said “
j”
is an integer from 2 to n.
1 Assignment
0 Petitions
Accused Products
Abstract
The present invention provides easy and stable measurement of the concentration of a specific component contained in a living body, even when a fluid such as water, saliva or sweat is present between an optical element and the living body or when the measurement is taken at a plurality of measuring parts of a living body. In the measurement of the present invention, a calibration line to be used to correct the influence of a change of a fluid layer present between a living body and an optical element is determined, a measured value is corrected based on the calibration line and the concentration is obtained from the corrected value.
118 Citations
13 Claims
-
1. A method for measuring the concentration of a specific component contained in a living body comprising the steps of:
-
(1) introducing light into an optical element, which is absorbed and reflected by a living body in contact with said optical element and then emitted from said optical element; (2) detecting the light emitted from said optical element and obtaining a wavenumber signal from the detected light; (3) correcting said wavenumber signal with the use of a calibration line for correcting the influence of a change in the state of an interface between said living body and said optical element on said wavenumber signal, (4) obtaining the concentration of the specific component contained in said living body from the corrected wavenumber signal; and (5) outputting the concentration of the specific component, wherein said calibration line is prepared by the steps of; (3a) obtaining “
i”
different spectrums corresponding to “
i”
different states of said interface, where said “
i”
is an integer from 2 to n; and(3b) plotting “
i”
different points in a coordinate system and connecting said points to obtain a calibration line, each of said “
i”
different points being determined from “
j”
different wavenumber signals corresponding to “
j”
different wavenumbers in each of said “
i”
different spectrums, where said “
j”
is an integer from 2 to n. - View Dependent Claims (2, 3, 4, 5)
-
-
6. A method for measuring the concentration of a specific component contained in a living body comprising the steps of:
-
(1) introducing light into an optical element, which is absorbed and reflected by a living body in contact with said optical element and then emitted from said optical element; (2) detecting the light emitted from said optical element and obtaining a wavenumber signal from the detected light; (3) correcting said wavenumber signal with the use of a calibration line for correcting the influence of a change in the state of an interface between said living body and said optical element on said wavenumber signal; (4) obtaining the concentration of the specific component contained in said living body from the corrected wavenumber signal; and (5) outputting the concentration of the specific component, wherein said calibration line is prepared by the steps of; (3A) obtaining “
i”
different spectrums corresponding to “
i”
different states of said interface, where said “
i”
is an integer from 2 to n, while said optical element is in contact with said living body; and(3B) plotting “
i”
different points in a coordinate system and connecting said points to obtain a calibration line, each of said “
i”
different points being determined from “
j”
different wavenumber signals corresponding to “
j”
different wavenumbers in each of said “
i”
different spectrums, where said “
j”
is an integer from 2 to n. - View Dependent Claims (7, 8, 9)
-
-
10. A device for measuring the concentration of the specific component contained in a living body comprising:
-
(a) an optical element adapted to be brought into contact with a living body; (b) a light source for introducing light into said optical element; (c) a light detecting means for detecting the light emitted from said optical element; and (d) a signal processing means for processing a wavenumber signal obtained in said light detecting means to correct said wavenumber signal with the use of one or more calibration line(s), wherein said signal processing means (1) memorizes a first calibration line comprising; a first point (x1, y2) determined in a first spectrum obtained when an interface between said living body and said optical element is in a first state by a first wavenumber signal x1 at a first wavenumber whose signal varies depending on a state of said interface and a second wavenumber signal y1 at a second wavenumber whose signal varies depending on a concentration of said specific component, and a second point (x2, y2) determined in a second spectrum obtained when the interface between said living body and said optical element is in a second state by a third wavenumber signal x2 at said first wavenumber and a fourth wavenumber signal y2 at said second wavenumber; (2) prepares a second calibration line having the same inclination as said first calibration line and passing through a third point (x3, y3), which is determined by a fifth wavenumber x3 obtained from said detected light at said first wavenumber and a sixth wavenumber signal y3 obtained from said detected light at said second wavenumber; (3) converts a seventh wavenumber signal at said first wavenumber obtained when the state of said interface is assumed to be in a temporary condition into an eighth wavenumber signal at said second wavenumber based on said second calibration line; and (4) calculates the concentration of said specific component based on said eighth wavenumber signal. - View Dependent Claims (11, 12, 13)
-
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeMatsushita Electric Industrial Company Limited (Panasonic Holdings Corporation)
-
Original AssigneeMatsushita Electric Industrial Company Limited (Panasonic Holdings Corporation)
-
InventorsUchida, Shinji, Shioi, Masahiko, Oshima, Kiyoko
-
Primary Examiner(s)WINAKUR, ERIC FRANK
-
Application NumberUS10/815,687Publication NumberTime in Patent Office1,131 DaysField of Search600/309, 600/310, 600/316, 600/322US Class Current600/310CPC Class CodesA61B 5/14532 for measuring glucose, e.g....A61B 5/14546 for measuring analytes not ...A61B 5/1455 using optical sensors, e.g....A61B 5/1495 Calibrating or testing of i...A61B 5/4872 Body fatG01N 21/359 using near infrared lightG01N 21/552 Attenuated total reflection
