Apparatus and method for respiratory monitoring
First Claim
1. A passive, non-invasive, non-contacting apparatus for monitoring the respiration of a subject in a monitored environment, comprising:
- first sensor means for operative communication with said monitored environment, said first sensor means detecting changes in infrared energy signifying and corresponding to changes in a concentration in said monitored environment of a component to be monitored, said first sensor mans generating a first signal, wherein said first sensor means includes a first pyroelectric crystal and a first optical filter which filter admits infrared energy in a range of between about 14 to about 16 microns;
second sensor means for operative communication with said monitored environment, said second sensor means detecting changes in infrared energy signifying reference infrared energy in said monitored environment, said second sensor means generating a second signal, wherein said second sensor means includes a pyroelectric crystal and an optical filter which admits a selected range of infrared wavelengths; and
processing means for converting said first and second signals into a third signal, said third signal signifying a change in the concentration of said monitored component in said monitored environment.
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Abstract
A passive, non-invasive, non-contacting apparatus and method for monitoring the respiration of a subject within a monitored environment is disclosed. The apparatus generally comprises a pair of sensors which detect changes in infrared energy. The first sensor detects changes in infrared energy which signifies and corresponds to changes in the monitored environments of a component to be monitored and generates a first signal. The second sensor detects changes in infrared energy which signifies reference infrared energy in the monitored environment and generates a second signal. A processing system converts the first and second signals into a third signal which signifies the concentration of the monitored component in the monitored environment. The monitored components may be CO2, H2 O or a constituent of exhaled breath such as a ketone, amino acid, insulin or pintane. In another embodiment of the invention changes in blood pH may be monitored by adding an additional sensor. Micromotion of the subject'"'"'s body may also be monitored in yet another embodiment through the use of a single sensor together with an appropriate processing system.
144 Citations
25 Claims
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1. A passive, non-invasive, non-contacting apparatus for monitoring the respiration of a subject in a monitored environment, comprising:
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first sensor means for operative communication with said monitored environment, said first sensor means detecting changes in infrared energy signifying and corresponding to changes in a concentration in said monitored environment of a component to be monitored, said first sensor mans generating a first signal, wherein said first sensor means includes a first pyroelectric crystal and a first optical filter which filter admits infrared energy in a range of between about 14 to about 16 microns; second sensor means for operative communication with said monitored environment, said second sensor means detecting changes in infrared energy signifying reference infrared energy in said monitored environment, said second sensor means generating a second signal, wherein said second sensor means includes a pyroelectric crystal and an optical filter which admits a selected range of infrared wavelengths; and processing means for converting said first and second signals into a third signal, said third signal signifying a change in the concentration of said monitored component in said monitored environment.
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2. A passive, non-invasive, non-contacting apparatus for monitoring the respiration of a subject in a monitored environment, comprising:
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first sensor means for operative communication with said monitored environment, said first sensor means detecting changes in infrared energy signifying and corresponding to changes in concentration in said monitored environment of a component to be monitored, said first sensor means generating a first signal; second sensor means for operative communication with said monitored environment, said second sensor means detecting changes in infrared energy signifying reference infrared energy in said monitored environment, said second sensor means generating a second signal; processing means for converting said first and second signals into a third signal and produces an output, said third signal signifying a change in the concentration of the monitored component in the monitored environment; a filter operatively associated with said processing means; a digital processor operatively associated with said filter, wherein said digital processor enhances said output of said processing means; and analyzer means operatively coupled to said processing means, said analyzer means converting into real time the enhanced output of said processing means to produce a signal which signifies and corresponds to a respiration rate and relative respiration intensity of a subject within the monitored environment.
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3. A non-invasive, non-contacting apparatus for determining changes in amounts of respiratory gases present in a predetermined spatial volume intermediate said apparatus and a surface by detection of infrared energy which is passively emitted by said surface or present in said volume and transits said volume to said apparatus, comprising:
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first sensor means, adapted to be disposed at a distance from said surface, for receiving infrared energy which is emitted by said surface or present in said volume and transits said volume to said first sensor means, and for producing a first electrical signal which is responsive to changes in the received infrared energy in a first range of wavelengths including wavelengths to which a respiratory gas of interest is responsive; second sensor means, adapted to be disposed at a distance from said surface, for receiving infrared energy which is emitted by said surface or present in said volume and transits substantially the same volume as the infrared energy received by said first sensor means to said second sensor means, and for producing a second electrical signal which is responsive to changes in the received infrared energy in a second range of wavelengths wherein said second range of wavelengths substantially differs from said first range of wavelengths; and processing means responsive to said first and second electrical signals for producing a third electrical signal representing a change in the amount of said respiratory gas of interest in said volume, said processing means further comprising means for compensating said first electrical signal by said second electrical signal so as to reduce effects on said third signal of changes in the infrared emissions of said surface or present in said volume. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
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22. A non-invasive, non-contacting method for determining changes in amounts of respiratory gases present in a predetermined spatial volume intermediate an apparatus and a surface by detection of infrared energy which is passively emitted by said surface or present in said volume and transits said volume to said apparatus, said method comprising the steps of:
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receiving said infrared energy emitted by said surface or present in said volume and transiting said volume for receipt by a first sensor means adapted to be disposed at a distance from said surface; producing a first electrical signal which is responsive to changes in said received infrared energy in a first range of wavelengths including wavelengths to which a respiratory gas of interest is responsive; receiving infrared energy emitted by said surface or present in said volume, wherein said infrared energy transits substantially the same volume as the infrared energy received by said first sensor means for receipt by a second sensor means adapted to be disposed at a distance from said surface; producing a second electrical signal which is responsive to changes in the infrared energy received by said second sensor means in a second range of wavelengths wherein said second range of wavelengths substantially differs from said first range of wavelengths; and processing said first and second electrical signals to produce a third electrical signal said third signal representing a change in the amount of said respiratory gas of interest in said volume, and compensating said first electrical signal by said second electrical signal so as to reduce effects on said third signal of changes in the infrared emissions of said surface and volume. - View Dependent Claims (23, 24, 25)
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Specification