IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0810639
(2001-03-16)
|
우선권정보 |
JP-0316330 (2000-10-17) |
발명자
/ 주소 |
|
출원인 / 주소 |
- Japan as represented by Director of National Food Research Institute Ministry of Agriculture Forestry and Fisheries, Bio-oriented Technology Research Advancement Institution
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대리인 / 주소 |
Carrier, Blackman & Associates, P.C.
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인용정보 |
피인용 횟수 :
3 인용 특허 :
19 |
초록
▼
A method of analyzing blood using a near infrared apparatus, in which monochromatic near infrared light in a wavelength range of 700 nm-1100 nm from the slit of the near infrared apparatus is applied to a ceramic plate through an optical fiber to measure a transmitted light intensity of the ceramic
A method of analyzing blood using a near infrared apparatus, in which monochromatic near infrared light in a wavelength range of 700 nm-1100 nm from the slit of the near infrared apparatus is applied to a ceramic plate through an optical fiber to measure a transmitted light intensity of the ceramic plate, which is a reference material for spectrum measurement. Next, in place of the ceramic plate, a blood collection tube containing a blood sample which has been stabilized at a predetermined temperature by a water bath has the near infrared light applied thereto. A so-called near infrared absorption spectrum in which absorbance has been plotted against wavelengths is obtained and information about object characteristics of the blood is extracted from the spectrum data using a calibration equation predetermined using the near infrared apparatus in relation to blood specimens with different, known object characteristics.
대표청구항
▼
1. An analytical method of analyzing blood using near infrared spectroscopy, comprising the steps of:(a) applying light having a wavelength of 700 nm-1100 nm through a blood collection receptacle to a sample of the blood contained in the receptacle;(b) detecting at least one of diffusely reflected l
1. An analytical method of analyzing blood using near infrared spectroscopy, comprising the steps of:(a) applying light having a wavelength of 700 nm-1100 nm through a blood collection receptacle to a sample of the blood contained in the receptacle;(b) detecting at least one of diffusely reflected light, diffusely transmitted light and diffusely transmitted and reflected light from the blood sample in the blood collection receptacle by an optical sensor to measure a near infrared absorption spectrum of the blood sample; and(c) modifying the measured spectrum using a calibration equation which has been determined in advance from a spectrum measured using a receptacle with the same specifications as said blood collection receptacle and following the steps (a) and (b) relative to blood specimens with known object characteristics, thereby determining an object characteristic of the blood sample;wherein light having a wavelength of 700 nm-1100 nm is applied to a ceramic plate which is a reference material so as to obtain an intensity of the light transmitted through the ceramic plate as a reference value for measurements of said optical sensor involving said blood collection receptacle and said receptacle with the same specifications as said blood collection receptacle. 2. The analytical method of analyzing blood according to claim 1, wherein the calibration equation is determined using a chemometrics technique selected from the group consisting of multiple linear regression (MLR), principal component regression (PCR) and PLS regression. 3. The analytical method of analyzing blood according to claim 1, wherein the translucent blood collection receptacle is a tube or bag. 4. The analytical method of analyzing blood according to claim 1, wherein multiple different object characteristics of said blood sample are determined. 5. The analytical method of analyzing blood according to claim 4, wherein said multiple different object characteristics of said blood sample include chemical components and/or physiochemical characteristics. 6. The analytical method of analyzing blood according to claim 4, wherein said multiple different object characteristics of said blood sample include red blood cells, hematocrit, hemoglobin, total protein, total cholesterol and sugar. 7. The analytical method of analyzing blood according to claim 1, wherein an optical path length for said blood collection receptacle is 1-2 cm. 8. An analytical apparatus for analyzing blood comprising:a block provided with a housing portion for a translucent blood collection receptacle;a near infrared apparatus provided with a spectroscope for dispersing near infrared light having a wavelength of 700 nm-1100 nm from a light source or from a sample of blood contained in the blood collection receptacle and an optical sensor for detecting the near infrared light;light conduction means for conducting the near infrared light emitted from the light source or the spectroscope to the blood collection receptacle within the housing portion and for conducting, directly or through the spectroscope, at least one of diffusely reflected light, diffusely transmitted light and diffusely transmitted and reflected light from the blood sample within the blood collection receptacle to the optical sensor;control means for outputting a measured spectrum of the blood sample to the near infrared apparatus and for modifying the measured spectrum using a calibration equation which has been determined in advance from a spectrum measured using the apparatus, a receptacle with the same specifications as said blood collection receptacle and blood specimens with known object characteristics, for thereby computing an object characteristic of the blood sample; anda ceramic plate, as a reference material, to which said near infrared apparatus applies light having a wavelength of 700 nm-1100 nm so as to obtain the intensity of the light transmitted through the ceramic plate as a reference value for measurements of said optical sensor involving said blood collection receptacle and said receptacle with the same specifications as said blood collection receptacle. 9. The analytical apparatus for analyzing blood according to claim 8, wherein a white light source is used as the light source, and a diode array is used us the optical sensor. 10. The analytical apparatus for analyzing blood according to claim 8, wherein monochromatic near infrared light is used as the light source, and a silicon detector or a lead sulfide detector is used as the optical sensor. 11. The analytical apparatus for analyzing blood according to claim 8, wherein the light conduction means comprises an optical fiber. 12. The analytical apparatus for analyzing blood according to claim 8, wherein the block is provided with a temperature control means for stabilizing the blood sample within the blood collection receptacle at a predetermined temperature. 13. The analytical apparatus for analyzing blood according to claim 8, wherein the calibration equation is determined in advance using the near infrared apparatus in relation to a plurality of blood specimens with different, known object characteristics. 14. The analytical apparatus for analyzing blood according to claim 8, wherein the blood collection receptacle is a tube or bag. 15. The analytical apparatus for analyzing blood according to claim 8, wherein the light conduction means comprises an optical fiber bundle. 16. The analytical apparatus for analyzing blood according to claim 8, wherein multiple different object characteristics of said blood sample are computed by said control means. 17. The analytical apparatus for analyzing blood according to claim 16, wherein said multiple different object characteristics of said blood sample include chemical components and/or physiochemical characteristics. 18. The analytical apparatus for analyzing blood according to claim 16, wherein said multiple different object characteristics of said blood sample include red blood cells, hematocrit, hemoglobin, total protein, total cholesterol and sugar. 19. The analytical apparatus for analyzing blood according to claim 8, wherein an optical path length for said blood collection receptacle is 1-2 cm.
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