Laser systems for material analysis based on reflectance ratio detection
First Claim
Patent Images
1. An apparatus for detecting non-oxygen analyte in a subject'"'"'s blood, the apparatus comprising:
- illumination means for generating illuminating light at a plurality of distinct wavelengths, said light having an intensity sufficient to non-invasively illuminate blood circulating in a blood vessel below the surface of a subject'"'"'s skin, the plurality of wavelengths further comprising at least one wavelength further at which the reflectance of the light is substantially uneffected by the concentration of said analyte in the blood, and at least one infrared wavelength at which the reflectance varies with the concentration of said analyte in the blood;
detector means for non-invasively detecting light reflected from the material at said plurality of wavelengths and for converting said detected light into electrical signals, said signals being indicative of the intensity of said reflected light at each wavelength;
sampling means for optical delivery of said illuminating light to a subject'"'"'s skin, including affixation means for affixing a sampling head to said skin and alignment means for optically aligning the illuminating means with a blood vessel below the surface of the skin;
at least one optical fiber means for transmitting illuminating light for the illumination means to the sampling means and for the illumination means to the sampling means and for returning reflected light from the sampling means to the detector means; and
analyzing means for non-invasively receiving and comparing said electrical signals to derive a reflectance ratio for at least two of said wavelengths, such that said ratio can be compared with predetermined values to non-invasively detect the presence of said analyte in said material.
3 Assignments
0 Petitions
Accused Products
Abstract
Systems and methods for non-invasive material analysis are disclosed in which a material (e.g., a liquid such as blood) is illuminated at a plurality of discrete wavelengths. Measurements of the intensity of reflected light at such wavelengths are taken, and an analysis of reflection ratios for various wavelengths is performed. Changes in the reflection ratios can be correlated with specific material properties such as the concentration of analytes (e.g., oxygen content, glucose levels, cholesterol or drugs in a subject'"'"'s circulatory system).
-
Citations
11 Claims
-
1. An apparatus for detecting non-oxygen analyte in a subject'"'"'s blood, the apparatus comprising:
-
illumination means for generating illuminating light at a plurality of distinct wavelengths, said light having an intensity sufficient to non-invasively illuminate blood circulating in a blood vessel below the surface of a subject'"'"'s skin, the plurality of wavelengths further comprising at least one wavelength further at which the reflectance of the light is substantially uneffected by the concentration of said analyte in the blood, and at least one infrared wavelength at which the reflectance varies with the concentration of said analyte in the blood; detector means for non-invasively detecting light reflected from the material at said plurality of wavelengths and for converting said detected light into electrical signals, said signals being indicative of the intensity of said reflected light at each wavelength; sampling means for optical delivery of said illuminating light to a subject'"'"'s skin, including affixation means for affixing a sampling head to said skin and alignment means for optically aligning the illuminating means with a blood vessel below the surface of the skin; at least one optical fiber means for transmitting illuminating light for the illumination means to the sampling means and for the illumination means to the sampling means and for returning reflected light from the sampling means to the detector means; and analyzing means for non-invasively receiving and comparing said electrical signals to derive a reflectance ratio for at least two of said wavelengths, such that said ratio can be compared with predetermined values to non-invasively detect the presence of said analyte in said material. - View Dependent Claims (2, 3, 4, 5)
-
-
6. A method for detecting a non-oxygen analyte in circulating blood, the method comprising:
-
non-invasively generating illuminating light at a plurality of distinct wavelengths, said light having an intensity sufficient to non-invasively illuminate blood circulating in a blood vessel below the surface of a subject'"'"'s skin, the plurality of wavelengths further comprising at least one wavelength at which the reflectance of the light is substantially unaffected by the concentration of said analyte in the blood, and at least one infrared wavelength at which the reflectance varies with the concentration of said an analyte in the blood; delivering said illuminating light to a material comprising a subject'"'"'s skin via a sampling means affixed to said skin, such that a blood in a blood vessel below the surface of the skin is illuminated; non-invasively detecting light reflected from said blood and converting said detected light into electrical signals indicative of the intensity of said reflected light at a plurality of wavelengths; non-invasively analyzing said electrical signals to derive a reflectance ratio for at least two of said wavelengths; and non-invasively comparing said ratio to a predetermined value to detect the presence of an analyte in said blood. - View Dependent Claims (7, 8, 9, 10, 11)
-
Specification