Stabilization of noisy optical sources in photoplethysmography
First Claim
1. A photoplethysmographic measurement apparatus for measuring one or more blood analyte levels or one or more hemodynamic parameters in a tissue-under-test, comprising:
- a plurality of emitters, wherein at least one of said emitters is a quiet light source and at least one of said emitters is a noisy light source;
an output aperture through which the light signals from the emitters are incident upon the tissue-under-test;
a detector that receives a portion of said light signals exiting the tissue-under-test and converts said received light signals to electronic signals indicative of the said received light signals, a processor that utilizes said electronic signals, originating from at least one of said quiet light sources, to minimize the effects of the noise generated by at least one of said noisy light sources on the accuracy or precision of the measurements of said blood analyte levels or said hemodynamic parameters.
1 Assignment
0 Petitions
Accused Products
Abstract
A method and apparatus for photoplethysmographic measurements is disclosed. In this system light from a plurality of emitters is delivered to the tissue-under-test. A subset of one or more of the emitters is known to be quiet light sources with relatively stable output intensity levels and spectral contents. A second subset of one or more emitters is known to be relatively noisy light sources with output intensity levels that fluctuate over time. The use of noisy light sources may be necessary for the photoplethysmographic measurements due to favorable spectral output characteristics such as narrow spectral bandwidth or desirable center wavelengths for the measurement of the hemodynamic parameters or analytes of interest. This invention utilizes the quiet light sources to enable the use of noisy light sources without the loss in accuracy or precision of analyte measurement that would otherwise typically be associated with the use of noisy light sources in the design and use of a photoplethysmographic instrument.
164 Citations
21 Claims
-
1. A photoplethysmographic measurement apparatus for measuring one or more blood analyte levels or one or more hemodynamic parameters in a tissue-under-test, comprising:
-
a plurality of emitters, wherein at least one of said emitters is a quiet light source and at least one of said emitters is a noisy light source;
an output aperture through which the light signals from the emitters are incident upon the tissue-under-test;
a detector that receives a portion of said light signals exiting the tissue-under-test and converts said received light signals to electronic signals indicative of the said received light signals, a processor that utilizes said electronic signals, originating from at least one of said quiet light sources, to minimize the effects of the noise generated by at least one of said noisy light sources on the accuracy or precision of the measurements of said blood analyte levels or said hemodynamic parameters. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
-
-
13. In a photoplethysmographic measurement system, a method for measuring one or more blood analyte levels or one or more hemodynamic parameters in a tissue-under-test, said method comprising the steps of:
-
providing a plurality of separate emitters, wherein at least one of said plurality of emitters is a quiet light source and at least one of said plurality of emitters is a noisy light source;
applying light signals from said plurality of emitters to the tissue-under-test through an output aperture;
receiving a portion of said light signals exiting the tissue-under-test and converting received light signals to electronic signals indicative of the said received light signals;
processing said electronic signals originating from at least one of said noisy light sources based on the data in said electronic signals originating from at least one of said quiet light sources. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21)
calculating a set of absorption values from said electronic signals originating from one of said noisy light sources;
calculating a corresponding set of absorption values from said electronic signals originating from one of said quiet light sources;
regressing the set of absorption values originating from said noisy light source on said corresponding set of absorption values originating from said quiet light source;
calculating said blood analyte levels or said hemodynamic parameters based on the results of said regression calculation.
-
-
15. The method of claim 13 wherein said processing step further comprises the steps of:
-
curve fitting said electronic signal originating from one of said quiet light sources to said electronic signal originating from one of said noisy light sources;
utilizing the curve fit version of the said electronic signal originating from one of said noisy light sources to calculate said blood analyte levels or said hemodynamic parameters based.
-
-
16. The method of claim 15 wherein said curve fitting step comprises scaling said electronic signal originating from one of said quiet light sources to provide a statistical best fit to said electronic signal originating from one of said noisy light sources.
-
17. The method of claim 13 wherein said quiet light sources consist of one or more light emitting diodes or one or more vertical cavity surface-emitting laser diodes.
-
18. The method of claim 13 wherein said noisy light sources consist of one or more edge-emitting laser diodes.
-
19. The method of claim 13 wherein said blood analyte levels consist of one or more of the levels of oxyhemoglobin, carboxyhemoglobin, methemoglobin and reduced hemoglobin.
-
20. The method of claim 13 wherein each of said emitters produces a light signal having a unique spectral content.
-
21. The method of claim 13 wherein a plurality of spectral bands are required and wherein said quiet light sources are utilized both for minimization of noise originating from said noisy light sources and as one or more of the required spectral bands for said measurements of said blood analyte levels or hemodynamic parameters.
Specification