Systematic wavelength selection for improved multivariate spectral analysis
First Claim
1. A method of determining non-invasively a concentration of a blood analyte in human tissue, said method including the steps of:
- a. irradiating said human tissue having unknown blood analyte concentration with electromagnetic energy including at least several wavelengths so that there is differential absorption of at least some of said wavelengths by said irradiated tissue as a function of said wavelengths and said blood analyte concentration, said differential absorption causing intensity variations of said wavelengths incident from said irradiated tissue;
b. measuring the intensities of said wavelengths incident from said irradiated tissue;
c. calculating said blood analyte concentration in said irradiated tissue from said measured intensities utilizing an algorithm and a model, said algorithm being capable of utilizing more of said measured intensities than calibration samples in which said blood analyte concentration is known, said model using selected wavelength subsets, said wavelength subsets comprising one or more of said wavelengths, said wavelength subsets are not systematically spaced, but are irregularly defined regions of the spectrum being used for analysis.
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Abstract
Methods and apparatus for determining in a biological material one or more unknown values of at least one known characteristic (e.g. the concentration of an analyte such as glucose in blood or the concentration of one or more blood gas parameters) with a model based on a set of samples with known values of the known characteristics and a multivariate algorithm using several wavelength subsets. The method includes selecting multiple wavelength subsets, from the electromagnetic spectral region appropriate for determining the known characteristic, for use by an algorithm wherein the selection of wavelength subsets improves the model'"'"'s fitness of the determination for the unknown values of the known characteristic. The selection process utilizes multivariate search methods that select both predictive and synergistic wavelengths within the range of wavelengths utilized. The fitness of the wavelength subsets is determined by the fitness function F=f (cost, performance). The method includes the steps of: (1) using one or more applications of a genetic algorithm to produce one or more count spectra, with multiple count spectra then combined to produce a combined count spectrum; (2) smoothing the count spectrum; (3) selecting a threshold count from a count spectrum to select these wavelength subsets which optimize the fitness function; and (4) eliminating a portion of the selected wavelength subsets. The determination of the unknown values can be made: (1) noninvasively and in vivo; (2) invasively and in vivo; or (3) in vitro.
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Citations
7 Claims
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1. A method of determining non-invasively a concentration of a blood analyte in human tissue, said method including the steps of:
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a. irradiating said human tissue having unknown blood analyte concentration with electromagnetic energy including at least several wavelengths so that there is differential absorption of at least some of said wavelengths by said irradiated tissue as a function of said wavelengths and said blood analyte concentration, said differential absorption causing intensity variations of said wavelengths incident from said irradiated tissue; b. measuring the intensities of said wavelengths incident from said irradiated tissue; c. calculating said blood analyte concentration in said irradiated tissue from said measured intensities utilizing an algorithm and a model, said algorithm being capable of utilizing more of said measured intensities than calibration samples in which said blood analyte concentration is known, said model using selected wavelength subsets, said wavelength subsets comprising one or more of said wavelengths, said wavelength subsets are not systematically spaced, but are irregularly defined regions of the spectrum being used for analysis. - View Dependent Claims (2, 3, 4, 5, 6)
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7. Apparatus for determining non-invasively a concentration of a blood analyte in human tissue, said apparatus comprising:
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a. means for irradiating said human tissue having unknown blood analyte concentration with electromagnetic energy including at least several wavelengths so that there is differential absorption of at least some of said wavelengths by said irradiated tissue as a function of said wavelengths and said blood analyte concentration, said differential absorption causing intensity variations of said wavelengths incident from said irradiated tissue; b. means for measuring the intensities of said wavelengths from said irradiated tissue; c. means for calculating said blood analyte concentration in said irradiated tissue from said measured intensities utilizing an algorithm and a model, said algorithm also being capable of utilizing more of said measured intensities than than calibration samples in which said blood analyte concentration is known, said model using selected wavelength subsets, said wavelength subsets comprising one or more of said wavelengths, said wavelength subsets are not systematically spaced, but are irregularly defined regions of the spectrum being used for analysis.
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Specification