Non-invasive sensor capable of determining optical parameters in a sample having multiple layers

US 6,353,226 B1
Filed: 11/23/1998
Issued: 03/05/2002
Est. Priority Date: 11/23/1998
Status: Expired due to Term

First Claim

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1. A method for determining the concentration of an analyte in a sample, said sample having a plurality of layers, each of said layers having different properties, said method comprising the steps of:

a) introducing a beam of light into said sample at a light introduction site on a surface of said sample;

b) determining the intensities of light re-emitted from said sample at a plurality of light collection sites on said surface of said sample, at least a first light collection site collecting light re-emitted mainly from a first layer of said sample, at least a second light collection site collecting light re-emitted mainly from a second layer of said sample, said first light collection site being at a first distance from said light introduction site, and said second light collection site being at a second distance from said light introduction site, said first distance being less than said second distance;

c) determining at least one optical parameter of said first layer of said sample;

d) determining at least one optical parameter of said second layer of said sample, said first layer having an average depth, as measured from said surface of said sample, of smaller magnitude than the average depth of said second layer, as measured from said surface of said sample; and

e) determining the concentration of said analyte in said sample after said at least one optical parameter of said first layer of said sample and said at least one optical parameter of said second layer of said sample are determined by comparing said optical parameters determined in steps c) and d) with optical parameters that correspond to known concentrations of said analyte.

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Abstract

Apparatus and method for non-invasively measuring at least one optical parameter of a sample, particularly a sample of tissue that comprises a plurality of layers. The at least one parameter can be used to determine the presence or concentration of an analyte of interest in the sample of tissue. The apparatus and method of the present invention (1) measure light that is substantially reflected, scattered, absorbed, or emitted from a shallower layer of the sample of tissue, (2) measure light that is substantially reflected, scattered, absorbed, or emitted from a deeper layer of the sample of tissue, (3) determine at least one optical parameter for each of these layers, and (4) account for the effect of the shallower layer on the at least one optical parameter of the deeper layer. Specifying the sampling depth allows determinations of the optical properties of a specific layer of the sample of the tissue, e.g., dermis, and decreases interference from other layers, e. g., stratum corneum and epidermis, in these determinations.

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24 Claims

1. A method for determining the concentration of an analyte in a sample, said sample having a plurality of layers, each of said layers having different properties, said method comprising the steps of:
- a) introducing a beam of light into said sample at a light introduction site on a surface of said sample;
  
  b) determining the intensities of light re-emitted from said sample at a plurality of light collection sites on said surface of said sample, at least a first light collection site collecting light re-emitted mainly from a first layer of said sample, at least a second light collection site collecting light re-emitted mainly from a second layer of said sample, said first light collection site being at a first distance from said light introduction site, and said second light collection site being at a second distance from said light introduction site, said first distance being less than said second distance;
  
  c) determining at least one optical parameter of said first layer of said sample;
  
  d) determining at least one optical parameter of said second layer of said sample, said first layer having an average depth, as measured from said surface of said sample, of smaller magnitude than the average depth of said second layer, as measured from said surface of said sample; and
  
  e) determining the concentration of said analyte in said sample after said at least one optical parameter of said first layer of said sample and said at least one optical parameter of said second layer of said sample are determined by comparing said optical parameters determined in steps c) and d) with optical parameters that correspond to known concentrations of said analyte.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The method of claim 1, wherein light is delivered to said light introduction site by means of an optical fiber.
  - 3. The method of claim 1, wherein the effect of interaction of said light with said first layer of said sample upon the measurement of said at least one optical parameter of said second layer of said sample is determined.
  - 4. The method of claim 1, wherein said light has at least two wavelengths.
  - 5. The method of claim 1, wherein said light has a wavelength ranging from about 400 nm to about 2500 nm.

6. A method for determining the concentration of an analyte in a sample, said method comprising the steps of:
- a) introducing a beam of light into said sample at a light introduction site;
  
  b) collecting light re-emitted from said sample at a plurality of light collection sites, each of said light collection sites comprising at least two light collecting elements, each of said light collection sites located at a different distance from said light introduction site;
  
  c) determining the intensity of said light re-emitted at a first light collecting element of a light collection site located at a first distance from said light introduction site and the intensity of said light re-emitted at at least a second light collecting element of said light collection site located at said first distance from said light introduction site;
  
  d) determining the absorption coefficient and the scattering coefficient of said sample at a given depth of said sample by means of a mathematical relationship between intensity of said light re-emitted at said first light collecting element of said light collection site located at said first distance from said light introduction site and intensity of said light re-emitted at at least a second light collecting element of said light collection site located at said first distance from said light introduction site;
  
  e) determining the intensity of said light re-emitted at a first light collecting element of a light collection site located at a second distance from said light introduction site and the intensity of said light re-emitted at at least a second light collecting element of said light collection site located at said second distance from said light introduction site, wherein said second distance is greater than said first distance;
  
  f) determining the absorption coefficient and the scattering coefficient of the sample at a greater depth of said sample than that of step d) by means of a mathematical relationship between intensity of said light re-emitted at said first light collecting element of said light collection site located at said second distance from said light introduction site and intensity of said light re-emitted at at least a second light collecting element of said light collection site located at said second distance from said light introduction site; and
  
  g) determining the concentration of said analyte in said sample after said absorption coefficient and said scattering coefficient of said sample at said depth in step d) and said absorption coefficient and said scattering coefficient of said sample at said depth in step f) are determined by comparing said absorption coefficients and said scattering coefficients determined in steps d) and f) with absorption coefficients and scattering coefficients that correspond to known concentrations of said analyte.
- View Dependent Claims (7, 8, 9, 10)
- - 7. The method of claim 6, wherein said light collecting elements comprise optical fibers.
  - 8. The method of claim 6, wherein said light collecting elements in any light collection site are separated by a distance equal to or less than the average transport mean free path of photons in the sample.
  - 9. The method of claim 8, wherein said light collecting elements in any light collection site are separated by a distance of less than 1 mm.
  - 10. The method of claim 6, wherein the distance between said light introduction site of said sample and any light collecting element is no more than 6 mm.

11. A method for determining the concentration of an analyte in a sample, said sample having a plurality of layers, each of said layers having different properties, said method comprising the steps of:
- a) introducing a plurality of beams of light into said sample at a plurality of light introduction sites on a surface of said sample, a first light introduction site being at a first distance from a light collection site on said surface of said sample, a second light introduction site being at a second distance from said light collection site on said surface of said sample, said first distance being less than said second distance;
  
  b) determining the intensities of light re-emitted from said sample at said light collection site, said light collection site collecting light re-emitted mainly from a first layer of said sample and collecting light re-emitted mainly from a second layer in said sample, said light re-emitted from said first layer being introduced at said first light introduction site, said light re-emitted from said second layer being introduced at said second light introduction site;
  
  c) determining at least one optical parameter of a said first layer of said sample;
  
  d) determining at least one optical parameter of said second layer of said sample, said first layer having an average depth, as measured from said surface of said sample, of smaller magnitude than the average depth of said second layer, as measured from said surface of said sample; and
  
  e) determining the concentration of said analyte in said sample after said at least one optical parameter of said first layer of said sample and said at least one optical parameter of said second layer of said sample are determined by comparing said optical parameters determined in steps c) and d) with optical parameters that correspond to known concentrations of said analyte.
- View Dependent Claims (12, 13, 14, 15)
- - 12. The method of claim 11, wherein light is delivered to said light introduction sites of said sample by means of optical fibers.
  - 13. The method of claim 11, wherein the effect of interaction of said light with said first layer of said sample upon the measurement of said at least one optical parameter of said second layer of said sample is determined.
  - 14. The method of claim 11, wherein said light has at least two wavelengths.
  - 15. The method of claim 11, wherein said light has a wavelength ranging from about 400 nm to about 2500 nm.

16. A method for determining the concentration of an analyte in a sample, said method comprising the steps of:
- a) introducing beams of light into said sample at a plurality of light introduction sites by a plurality of groups of illuminating elements, at least two illuminating elements being at each of said light introduction sites, each of said light introduction sites located at a different distance from a light collection site;
  
  b) collecting light re-emitted from said sample at said light collection site;
  
  c) determining the intensity of said re-emitted light resulting from illumination by a first illuminating element of a light introduction site located at a first distance from said light collection site and the intensity of said re-emitted light resulting from illumination by at least a second illuminating element of said light introduction site located at said first distance from said light collection site;
  
  d) determining the absorption coefficient and the scattering coefficient of said sample at a given depth in said sample by means of a mathematical relationship between intensity of said re-emitted light resulting from illumination by said first illuminating element of said light introduction site located at said first distance from said light collection site and intensity of said re-emitted light resulting from illumination by at least a second illuminating element of said light introduction site located at said first distance from said light collection site;
  
  e) determining the intensity of said re-emitted light resulting from illumination by a first illuminating element of a light introduction site located at a second distance from said light collection site and the intensity of said re-emitted light resulting from illumination by at least a second illuminating element of said light introduction site located at said second distance from said light collection site, wherein said second distance is greater than said first distance;
  
  f) determining the absorption coefficient and the scattering coefficient of said sample at a greater depth of said tissue than that of step d) by means of a mathematical relationship between intensity of said re-emitted light resulting from illumination by said first illuminating element of said light introduction site located at said second distance from said light collection site and intensity of said re-emitted light resulting from illumination by at least a second illuminating element of said light introduction site located at said second distance from said light collection site; and
  
  g) determining the concentration of said analyte in said sample after said absorption coefficient and said scattering coefficient of said sample at said depth in step d) and said absorption coefficient and said scattering coefficient of said sample at said depth in step f) are determined by comparing said absorption coefficients and said scattering coefficients determined in steps d) and f) with absorption coefficients and scattering coefficients that correspond to known concentrations of said analyte.
- View Dependent Claims (17, 18, 19, 20)
- - 17. The method of claim 16, wherein said illuminating elements comprise optical fibers.
  - 18. The method of claim 16, wherein said illuminating elements in any light introduction site are separated by a distance equal to or less than the mean free path of photons in said sample.
  - 19. The method of claim 18, wherein said illuminating elements in any light introduction site are separated by a distance of less than 1 mm.
  - 20. The method of claim 16, wherein the distance between said light collection site of said sample and any illuminating element is no more than 6 nm.

21. A method for determining the concentration of an analyte in a sample, said sample having a plurality of layers, each of said layers having different properties, said method comprising the steps of:
- a) introducing a beam of light into said sample at a light introduction site;
  
  b) collecting light re-emitted from said sample at a plurality of light collection sites, each of said light collection sites comprising at least two light collecting elements, each of said light collection sites located at a different distance from said light introduction site;
  
  c) determining the intensity of said light re-emitted at a first light collecting element of a light collection site located at a first distance from said light introduction site and the intensity of said light re-emitted at at least a second light collecting element of said light collection site located at said first distance from said light introduction site;
  
  d) determining the absorption coefficient and the scattering coefficient of said sample in a first layer of said sample by means of a mathematical relationship between intensity of said light re-emitted at said first light collecting element of said light collection site located at said first distance from said light introduction site and intensity of said light re-emitted at at least a second light collecting element of said light collection site located at said first distance from said light introduction site;
  
  e) determining the intensity of said light re-emitted at a first light collecting element of a light collection site located at a second distance from said light introduction site and the intensity of said light re-emitted at at least a second light collecting element of said light collection site located at said second distance from said light introduction site, wherein said second distance is greater than said first distance;
  
  f) determining the absorption coefficient and the scattering coefficient of the sample in a second layer of said sample by means of a mathematical relationship between intensity of said light re-emitted at said first light collecting element of said light collection site located at said second distance from said light introduction site and intensity of said light re-emitted at at least a second light collecting element of said light collection site located at said second distance from said light introduction site; and
  
  g) determining the concentration of said analyte in said sample after said absorption coefficient and said scattering coefficient of said first layer of said sample and said absorption coefficient and said scattering coefficient of said second layer of said sample are determined by comparing said absorption coefficients and said scattering coefficients determined in steps d) and f) with absorption coefficients and scattering coefficients that correspond to known concentrations of said analyte.

22. A method for determining the concentration of an analyte in a sample, said method comprising the steps of:
- a) introducing a beam of light into said sample at a light introduction site on a surface of said sample;
  
  b) determining the intensities of light re-emitted from said sample at a plurality of light collection sites on said surface of said sample, at least a first light collection site collecting light re-emitted mainly from a first layer of said sample, at least a second light collection site collecting light re-emitted mainly from a second layer of said sample, said first light collection site being at a first distance from said light introduction site, and said second light collection site being at a second distance from said light introduction site, said first distance being less than said second distance;
  
  c) determining at least one optical parameter at a given depth of said first layer of said sample;
  
  d) determining at least one optical parameter at a second depth of said sample, said given depth, as measured from said surface of said sample, being of smaller magnitude than said second depth, as measured from said surface of said sample; and
  
  e) determining the concentration of said analyte in said sample after said at least one optical parameter of said given depth of said sample and said at least one optical parameter of said second depth of said sample are determined by comparing said optical parameters determined in steps c) and d) with optical parameters that correspond to known concentrations of said analyte.

23. A method for determining the concentration of an analyte in a sample, said sample having a plurality of layers, each of said layers having different properties, said method comprising the steps of:
- a) introducing beams of light into said sample at a plurality of light introduction sites by a plurality of groups of illuminating elements, at least two illuminating elements being at each of said light introduction sites, each of said light introduction sites located at a different distance from a light collection site;
  
  b) collecting light re-emitted from said sample at said light collection site;
  
  c) determining the intensity of said re-emitted light resulting from illumination by a first illuminating element of a light introduction site located at a first distance from said light collection site and the intensity of said re-emitted light resulting from illumination by at least a second illuminating element of said light introduction site located at said first distance from said light collection site;
  
  d) determining the absorption coefficient and the scattering coefficient of said sample in a first layer of said sample by means of a mathematical relationship between intensity of said re-emitted light resulting from illumination by said first illuminating element of said light introduction site located at said first distance from said light collection site and intensity of said re-emitted light resulting from illumination by at least a second illuminating element of said light introduction site located at said first distance from said light collection site;
  
  e) determining the intensity of said re-emitted light resulting from illumination by a first illuminating element of a light introduction site located at a second distance from said light collection site and the intensity of said re-emitted light resulting from illumination by at least a second illuminating element of said light introduction site located at said second distance from said light collection site, wherein said second distance is greater than said first distance;
  
  f) determining the absorption coefficient and the scattering coefficient of said sample in a second layer of said sample by means of a mathematical relationship between intensity of said re-emitted light resulting from illumination by said first illuminating element of said light introduction site located at said second distance from said light collection site and intensity of said re-emitted light resulting from illumination by at least a second illuminating element of said light introduction site located at said second distance from said light collection site; and
  
  g) determining the concentration of said analyte in said sample after said absorption coefficient and said scattering coefficient of said first layer of said sample and said absorption coefficient and said scattering coefficient of said second layer of said sample are determined by comparing said absorption coefficients and said scattering coefficients determined in steps d) and f) with absorption coefficients and scattering coefficients that correspond to known concentrations of said analyte.

24. A method for determining the concentration of an analyte in a sample, said method comprising the steps of:
- a) introducing a plurality of beams of light into said sample at a plurality of light introduction sites on a surface of said sample, a first light introduction site being at a first distance from a light collection site on said surface of said sample, a second light introduction site being at a second distance from said light collection site on said surface of said sample, said first distance being less than said second distance;
  
  b) determining the intensities of light re-emitted from said sample at said light collection site, said light collection site collecting light re-emitted mainly from a first layer of said sample and collecting light re-emitted mainly from a second layer in said sample, said light re-emitted from said first layer being introduced at said first light introduction site, said light re-emitted from said second layer being introduced at said second light introduction site;
  
  c) determining at least one optical parameter at a given depth of said sample;
  
  d) determining at least one optical parameter at a second depth of said sample, said given depth, as measured from said surface of said sample, of smaller magnitude than the second depth, as measured from said surface of said sample; and
  
  e) determining the concentration of said analyte in said sample after said at least one optical parameter of said given depth of said sample and said at least one optical parameter of said second depth of said sample are determined by comparing said optical parameters determined in steps c) and d) with optical parameters that correspond to known concentrations of said analyte.

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Current Assignee
Abbott Laboratories Incorporated
Original Assignee
Abbott Laboratories Incorporated
Inventors
Bolt, Rene′ Alexander, Khalil, Omar S., Hanna, Charles F., Wu, Xiaomao, Yeh, Shu-Jen, Kanger, Johannes Sake, de Mul, Frits Frans Maria
Primary Examiner(s)
Hannaher, Constantine

Application Number

US09/198,094
Time in Patent Office

1,198 Days
Field of Search

250/341.8, 250/339.11, 600/310, 600/322, 600/323, 356/432
US Class Current

250/341.8
CPC Class Codes

A61B 2562/0233   Special features of optical...

A61B 2562/0242   for varying or adjusting th...

A61B 2562/043   in a linear array

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

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

G01N 21/49   within a body or fluid

Non-invasive sensor capable of determining optical parameters in a sample having multiple layers

First Claim

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Abstract

221 Citations

24 Claims

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Non-invasive sensor capable of determining optical parameters in a sample having multiple layers

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

221 Citations

24 Claims

Specification

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Solutions

Use Cases

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