Method for determination of analytes using near infrared, adjacent visible spectrum and an array of longer near infrared wavelengths

US 6,741,875 B1
Filed: 06/03/2002
Issued: 05/25/2004
Est. Priority Date: 08/31/1999
Status: Expired due to Fees

First Claim

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1. A method for determining a concentration of a constituent in a sample comprising the steps of:

i) irradiating the sample with a broad spectrum of radiation from the adjacent visible and near infrared (AV/NIR) region from a first source of radiation;

ii) collecting radiation after the broad spectrum of radiation from the first source has been directed onto the sample, wherein the collected radiation comprises a broad spectrum of radiation between 500 and 1100 nm;

iii) dispersing the collected radiation into a dispersed spectrum of component wavelengths onto a detector of AV/NIR radiation, the detector of AV/NIR radiation taking measurements of one or both of transmitted or reflected radiation from the collected radiation, wherein the first source of radiation is approximately oppositely disposed to the detector of AV/NIR radiation;

iv) transferring the measurements from step iii) to a processor;

v) irradiating the sample with a broad spectrum of radiation in the longer wavelength near infrared (LWNIR) region from a second source of radiation;

vi) detecting with a detector of LWNIR radiation a band of radiation in the LWNIR region after the broad spectrum of radiation from the second source has been directed onto the sample, the detector of LWNIR radiation taking measurements of one or both of transmitted and reflected radiation, wherein the band of radiation in the LWNIR region is between 1590 and 1700 nm, and wherein the second source of radiation is approximately oppositely disposed to the detector of LWNIR radiation, and vii) transferring the measurements from step vi) to a processor, wherein the processor calculates the concentration of said constituent in said sample from the measurements obtained in steps iii) and vi) using one, or more than one calibration algorithm.

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Abstract

Described is a method which uses spectral data simultaneously collected in a continuous array of discrete wavelength points of the visible spectrum adjacent to the infrared and near infrared part of the light spectrum. The spectral data is collected using a number of detectors with different sensitivity ranges. Some detectors may be sensitive to visible and possibly, to part of the near infrared portion of radiation. Spectral data from die infrared spectrum is collected with the infrared detectors, and are in some embodiments insensitive to the visible links.

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24 Claims

1. A method for determining a concentration of a constituent in a sample comprising the steps of:
- i) irradiating the sample with a broad spectrum of radiation from the adjacent visible and near infrared (AV/NIR) region from a first source of radiation;
  
  ii) collecting radiation after the broad spectrum of radiation from the first source has been directed onto the sample, wherein the collected radiation comprises a broad spectrum of radiation between 500 and 1100 nm;
  
  iii) dispersing the collected radiation into a dispersed spectrum of component wavelengths onto a detector of AV/NIR radiation, the detector of AV/NIR radiation taking measurements of one or both of transmitted or reflected radiation from the collected radiation, wherein the first source of radiation is approximately oppositely disposed to the detector of AV/NIR radiation;
  
  iv) transferring the measurements from step iii) to a processor;
  
  v) irradiating the sample with a broad spectrum of radiation in the longer wavelength near infrared (LWNIR) region from a second source of radiation;
  
  vi) detecting with a detector of LWNIR radiation a band of radiation in the LWNIR region after the broad spectrum of radiation from the second source has been directed onto the sample, the detector of LWNIR radiation taking measurements of one or both of transmitted and reflected radiation, wherein the band of radiation in the LWNIR region is between 1590 and 1700 nm, and wherein the second source of radiation is approximately oppositely disposed to the detector of LWNIR radiation, and vii) transferring the measurements from step vi) to a processor, wherein the processor calculates the concentration of said constituent in said sample from the measurements obtained in steps iii) and vi) using one, or more than one calibration algorithm.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. A method according to claim 1 wherein the detector of the AV/NIR is one or more spectral instruments with an array of silicon detectors and the detector of LWNIR is one or more spectral instruments with a separate array of infrared sensitive detectors for each band of radiation.
  - 3. A method according to claim 1 wherein the infrared sensitive detectors are InGaAs detectors.
  - 4. A method according to claim 2 wherein the spectral instruments with silicon detectors arrays register light in the all of the visible, visible/infrared and adjacent to visible infrared ranges within the spectral sensitivity range of the detectors.
  - 5. A method according to claim 2 wherein the spectral instruments with infrared sensitive detectors register light in the separate infrared ranges within their spectral sensitivity range.
  - 6. A method according to claim 1 wherein the detector of the AV/NIR is one or more spectral instruments with an array of silicon detectors and the detector of LWNIR is one or more spectral instruments with an array of infrared sensitive detectors and measurements for each band of radiation are taken from appropriate members of the array of infrared sensitive detectors.
  - 7. A method according to claim 1 wherein all detectors register light in their respectable sensitivity ranges virtually simultaneously.
  - 8. A method according to claim 1 wherein the sample is a finger of a subject.

9. A method for determining a concentration of a constituent in a sample comprising the steps of:
- i) irradiating the sample with a broad spectrum of radiation from the adjacent visible and near infrared (AV/NIR) region from a first source of radiation;
  
  ii) collecting radiation after the broad spectrum of radiation from the first source has been directed onto the sample, wherein the collected radiation comprises a broad spectrum of radiation between 500 and 1100 nm;
  
  iii) dispersing the collected radiation into a dispersed spectrum of component wavelengths onto a detector of AV/NIR radiation, the detector of AV/NIR radiation taking measurements of one or both of transmitted and reflected radiation from the collected radiation, wherein the first source of radiation is approximately oppositely disposed to the detector of AV/NIR radiation;
  
  iv) transferring the measurements from step iii) to a processor;
  
  v) irradiating the sample with one, or more than one band of radiation in the longer wavelength near infrared (LWNIR) region from a second source of radiation;
  
  vi) detecting with a detector of LWNIR radiation a first and a second band of radiation in the LWNIR region after the broad spectrum of radiation from the second source has been directed onto the sample, the detector of LWNIR radiation taking measurements of one or both of transmitted and reflected radiation, wherein the first band of radiation is between 1100 to 1300 nm and the second band of radiation is between 1590 and 1700 nm, and wherein the second source of radiation is approximately oppositely disposed to the detector of LWNIR radiation, and vii) transferring the measurements from step vi) to a processor;
  
  wherein the processor calculates the concentration of said constituent in said sample from the measurements obtained in steps iii) and vi) using one, or more than one calibration algorithm.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
- - 10. A method according to claim 9 wherein the detector of the AV/NIR is one or more spectral instruments with an array of silicon detectors and the detector of LWNIR is one or more spectral instruments with a separate array of infrared sensitive detectors for each band of radiation.
  - 11. A method according to claim 9 wherein the infrared sensitive detectors are InGaAs detectors.
  - 12. A method according to claim 10 wherein the spectral instruments with silicon detectors arrays register light in the all of the visible, visible/infrared and adjacent to visible infrared ranges within the spectral sensitivity range of the detectors.
  - 13. A method according to claim 10 wherein the spectral instruments with infrared sensitive detectors register light in the separate infrared ranges within their spectral sensitivity range.
  - 14. A method according to claim 9 wherein the detector of the AV/NIR is one or more spectral instruments with an array of silicon detectors and the detector of LWNIR is one or more spectral instruments with an array of infrared sensitive detectors and measurements for each band of radiation are taken from appropriate members of the array of infrared sensitive detectors.
  - 15. A method according to claim 9 wherein all detectors register light in their respectable sensitivity ranges virtually simultaneously.
  - 16. A method according to claim 9 wherein the sample is a finger of a subject.

17. A method for determining a concentration of a constituent in a sample comprising the steps of:
- i) irradiating the sample with a broad spectrum of radiation from the adjacent visible and near infrared (AV/NIR) region from a first source of radiation;
  
  ii) collecting radiation after the broad spectrum of radiation from the first source has been directed onto the sample, wherein the collected radiation comprises a broad spectrum of radiation between 500 and 1100 nm;
  
  iii) dispersing the collected radiation into a dispersed spectrum of component wavelengths onto a detector of AV/NIR radiation, the detector of the AV/NIR radiation taking measurements of one or both of transmitted and reflected radiation from the collected radiation, wherein the first source of radiation is approximately oppositely disposed to the detector of AV/NIR radiation;
  
  iv) transferring the measurements from step iii) to a processor;
  
  v) irradiating the sample with a broad spectrum of radiation from the LWNIR the longer wavelength near infrared (LWNIR) region from a second source of radiation;
  
  vi) collecting radiation after the broad spectrum of radiation from the second source has been directed onto the sample, wherein the collected radiation comprises a first band of radiation between 1100 to 1300 nm and a second band of radiation between 1590 and 1700 nm;
  
  vii) dispersing the collected radiation into dispersed spectra of bands of radiation onto a detector of LWNIR radiation, the detector of LWNIR radiation taking measurements of one or both of transmitted and reflected radiation, wherein the second source of radiation is approximately oppositely disposed to the detector of LWNIR radiation, and (viii) transferring the measurements from step vii) to a processor;
  
  wherein the processor calculates the concentration of said constituent in said sample from the measurements from steps iii) and vii) and one, or more than one calibration algorithm.
- View Dependent Claims (18, 19, 20, 21, 22, 23, 24)
- - 18. A method according to claim 17 wherein the detector of the AV/NIR is one or more spectral instruments with an array of silicon detectors and the detector of LWNIR is one or more spectral instruments with a separate array of infrared sensitive detectors for each band of radiation.
  - 19. A method according to claim 17 wherein the infrared sensitive detectors are InGaAs detectors.
  - 20. A method according to claim 18 wherein the spectral instruments with silicon detectors arrays register light in the all of the visible, visible/infrared and adjacent to visible infrared ranges within the spectral sensitivity range of the detectors.
  - 21. A method according to claim 18 wherein the spectral instruments with infrared sensitive detectors register light in the separate infrared ranges within their spectral sensitivity range.
  - 22. A method according to claim 17 wherein the detector of the AV/NIR is one or more spectral instruments with an array of silicon detectors and the detector of LWNIR is one or more spectral instruments with an array of infrared sensitive detectors and measurements for each band of radiation are taken from appropriate members of the array of infrared sensitive detectors.
  - 23. A method according to claim 17 wherein all detectors register light in their respectable sensitivity ranges virtually simultaneously.
  - 24. A method according to claim 17 wherein the sample is a finger of a subject.

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Current Assignee
Covidien LP (Medtronic Plc)
Original Assignee
CME Telemetrix, Inc.
Inventors
Pawluczyk, Romauld, Scecina, Thomas, Cadell, Theodore E.
Primary Examiner(s)
WINAKUR, ERIC FRANK

Application Number

US10/070,189
Time in Patent Office

722 Days
Field of Search

600/310, 600/316, 600/322, 600/323, 600/473, 356/39, 356/300, 356/319, 356/320, 356/326, 356/328, 250/339.01, 250/339.02, 250/339.05, 250/339.06, 250/339.07, 250/339.11, 250/339.12, 250/340, 250/341.1, 250/341.2, 250/341.8
US Class Current

600/310
CPC Class Codes

A61B 5/14532   for measuring glucose, e.g....

A61B 5/14546   for measuring analytes not ...

A61B 5/1455   using optical sensors, e.g....

G01N 2021/3133   with selection of wavelengt...

G01N 2021/3144   for oxymetry

G01N 2021/3148   using three or more wavelen...

G01N 2021/3181   using LEDs

G01N 21/314   with comparison of measurem...

G01N 21/359   using near infrared light

Method for determination of analytes using near infrared, adjacent visible spectrum and an array of longer near infrared wavelengths

First Claim

8 Assignments

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Accused Products

Abstract

73 Citations

24 Claims

Specification

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Method for determination of analytes using near infrared, adjacent visible spectrum and an array of longer near infrared wavelengths

First Claim

8 Assignments

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0 Petitions

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Accused Products

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Abstract

73 Citations

24 Claims

Specification

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Solutions

Use Cases

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