Method for the non-invasive determination of analytes in a selected volume of tissue
First Claim
1. A method for establishing a calibration relationship to determine the concentration of an analyte or a disease state in a biological tissue, said method comprising the steps of:
- (a) selecting a sampling area on the surface of said biological tissue;
(b) setting the temperature of said sampling area of said biological tissue to a first temperature;
(c) introducing light at a light introduction site, said light introduction site being within said sampling area and collecting light re-emitted at a light collection site, said light collection site being within said sampling area, said light introduction site and said light collection site being separated by a sampling distance, said introduced light being within a first wavelength range;
(d) performing at least one optical measurement at said sampling distance;
(e) setting the temperature of said sampling area of said biological tissue to a second temperature, said second temperature being different from said first temperature;
(f) repeating steps (c) and (d) at said second temperature, said introduced light at said second temperature being within a second wavelength range;
(g) determining the value of at least one optical parameter at said first temperature and at at least one wavelength within said first wavelength range and the value of said at least one parameter at said second temperature and at at least one wavelength within said second wavelength range; and
(h) establishing a mathematical relationship that relates the value of said at least one optical parameter at said first temperature and at said at least one wavelength within said first wavelength range and the value of said at least one optical parameter at said second temperature and at said at least one wavelength within said second wavelength range with an independently measured concentration of said analyte or an independent measurement of said disease state.
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Abstract
A method for the determination of concentrations of analytes, e.g., glucose, and other metabolites in human tissue, wherein the temperature of a defined cutaneous volume of tissue, e.g., human skin, is controlled. The method involves calculating the concentration of an analyte in the tissue by taking into consideration the values of optical parameters of a sample of tissue measured in the defined cutaneous volume of the tissue at various temperatures. The selection of the defined volume is a function of the sampling distance along the surface of the tissue, the wavelength of light used to illuminate the tissue, and the temperature in the defined volume of tissue, which is a function of the temperature at the surface of the tissue. In one embodiment of the method of this invention, an optical signal re-emitted from a defined cutaneous volume of the tissue is measured, as the temperature of this volume is maintained at a constant value. In another embodiment of the method of this invention, the temperature of the defined cutaneous volume of the tissue is varied within a defined physiological range to change the depth of penetration of light into the tissue, thereby achieving a depth profile for the optical signal. The method of this invention is useful for monitoring the concentrations of analytes in tissues, testing at the point of care, and screening for diseases, such as, for example, diabetes. The method of this invention utilizes changes in temperature and selection of wavelengths to define cutaneous volumes below the surface of the tissue, in which volumes the concentration of an analyte can be determined.
669 Citations
27 Claims
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1. A method for establishing a calibration relationship to determine the concentration of an analyte or a disease state in a biological tissue, said method comprising the steps of:
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(a) selecting a sampling area on the surface of said biological tissue;
(b) setting the temperature of said sampling area of said biological tissue to a first temperature;
(c) introducing light at a light introduction site, said light introduction site being within said sampling area and collecting light re-emitted at a light collection site, said light collection site being within said sampling area, said light introduction site and said light collection site being separated by a sampling distance, said introduced light being within a first wavelength range;
(d) performing at least one optical measurement at said sampling distance;
(e) setting the temperature of said sampling area of said biological tissue to a second temperature, said second temperature being different from said first temperature;
(f) repeating steps (c) and (d) at said second temperature, said introduced light at said second temperature being within a second wavelength range;
(g) determining the value of at least one optical parameter at said first temperature and at at least one wavelength within said first wavelength range and the value of said at least one parameter at said second temperature and at at least one wavelength within said second wavelength range; and
(h) establishing a mathematical relationship that relates the value of said at least one optical parameter at said first temperature and at said at least one wavelength within said first wavelength range and the value of said at least one optical parameter at said second temperature and at said at least one wavelength within said second wavelength range with an independently measured concentration of said analyte or an independent measurement of said disease state. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A method for determining the concentration of an analyte or a disease state in a biological tissue, said method comprising the steps of:
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(a) defining a sampling area on the surface of said biological tissue;
(b) setting the temperature of said sampling area of said biological tissue to a first temperature;
(c) introducing light at a light introduction site, said light introduction site being within said sampling area and collecting light re-emitted at a light collection site, said light collection site being within said sampling area, said light introduction site and said light collection site being separated by a sampling distance, said introduced light being within a first wavelength range;
(d) performing at least one optical measurement at said sampling distance;
(e) setting the temperature of said sampling area of said biological tissue to a second temperature, said second temperature being different from said first temperature;
(f) repeating steps (c) and (d) at said second temperature, said introduced light at said second temperature being within a second wavelength range;
(g) determining the value of at least one optical parameter at said first temperature and at at least one wavelength in said first wavelength range and the value of said at least one optical parameter at said second temperature and at at least one wavelength in said second wavelength range;
(h) establishing a mathematical relationship that relates the value of said at least one optical parameter at said first temperature and at said at least one wavelength within said first wavelength range and the value of said optical parameter at said second temperature and at said at least one wavelength within said second wavelength range with an independently measured concentration of analyte or an independent measurement of said disease state; and
(i) determining the concentration of said analyte or said disease state by subsequent optical measurements of the value of said optical parameter at said first temperature and at at least one wavelength within said first wavelength range and the value of said optical parameter at said second temperature and at at least one wavelength within said second wavelength range. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27)
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Specification