Multi-stream sensor for noninvasive measurement of blood constituents
First Claim
1. A physiological, noninvasive detector package configured to detect optical radiation from a tissue site in order to measure physiological parameters of pulsating blood in living tissue, said detector package comprising:
- a set of at least four photodetectors that each provide a signal stream indicating optical radiation that has been transmitted through the tissue site from a plurality of emitters, wherein the set of photodetectors are arranged in a logarithmically spaced configuration that provides a variation in path lengths between at least some of the photodetectors; and
a conversion processor that provides information indicating an analyte in the tissue site based on ratios of pairs of the signal streams, the tissue site being a finger.
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Accused Products
Abstract
The present disclosure relates to a sensor having a set of photodetectors that are arranged at various locations to enable the measurement of blood glucose. The photodetectors are arranged across multiple locations. For example, the detector may comprise multiple photodetector arrays that are arranged to have a sufficient difference in mean path length to allow for noise cancellation and noise reduction. Walls may be used in the detector to separate individual photodetectors and prevent mixing of detected optical radiation between the different locations on the measurement site. A window may also be employed to facilitate the passing of optical radiation at various wavelengths for measuring glucose in the tissue.
828 Citations
17 Claims
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1. A physiological, noninvasive detector package configured to detect optical radiation from a tissue site in order to measure physiological parameters of pulsating blood in living tissue, said detector package comprising:
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a set of at least four photodetectors that each provide a signal stream indicating optical radiation that has been transmitted through the tissue site from a plurality of emitters, wherein the set of photodetectors are arranged in a logarithmically spaced configuration that provides a variation in path lengths between at least some of the photodetectors; and a conversion processor that provides information indicating an analyte in the tissue site based on ratios of pairs of the signal streams, the tissue site being a finger. - View Dependent Claims (2, 3, 4, 6, 8, 10, 11, 12, 13)
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5. A physiological, noninvasive detector package configured to detect optical radiation from a tissue site in order to measure physiological parameters of pulsating blood in living tissue, said detector package comprising:
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a set of at least four photodetectors that each provide a signal stream indicating optical radiation of light emitted from a plurality of emitters and attenuated by the tissue site, wherein the set of photodetectors are arranged in a spacial configuration that provides a variation in path lengths between at least some of the photodetectors; and a conversion processor that provides information indicating an analyte in the tissue site based on ratios of pairs of the signal streams, wherein the set of photodetectors are arranged in a two-dimensional grid. - View Dependent Claims (7, 9)
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14. A physiological, noninvasive sensor configured to obtain physiological information from a patient, the sensor comprising:
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a plurality of emitters configured to emit light into a digit or ear of a patient; and a set of at least four photodetectors configured to detect optical radiation that has been transmitted through the digit or ear and each generate a signal responsive to the detected optical radiation, the set of at least four photodetectors being arranged in a logarithmically spaced configuration that provides a variation in path lengths between at least some of the photodetectors, the signals being usable to determine physiological information concerning the patient. - View Dependent Claims (15, 16, 17)
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Specification