Capillary sweet spot imaging for improving the tracking accuracy and SNR of noninvasive blood analysis methods
First Claim
1. An apparatus for improving the accuracy of a noninvasive blood analysis measurement instrument, comprising:
- A.) first means for locating at least one sweet spot on the skin, said sweet spots having a significantly higher density of capillaries than the average of the surrounding skin area;
B.) second means for controlling the measurement process performed by said noninvasive instrument such that it selectively probes sweet spots;
whereby the tracking error is reduced and the signal-to-noise ratio is increased and full clinical usefulness can be achieved.
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Abstract
The accuracy of noninvasive blood analysis methods is limited by the so-called tracking error. The correlation between the component concentration in the probed skin volume and the component concentration in the blood is improved by selecting particular locations on the patient'"'"'s skin which provide a significantly higher density of capillary vessels than found on average (sweet spots). The higher capillary density causes the component concentration in the probed skin volume to better track the component concentration in the blood and as a useful side effect also improves the signal-to-noise ratio of the noninvasive measurement method itself. Methods for locating sweet spots and controlling the noninvasive measurement to selectively probe sweet spots are described. Also described are several embodiments of sweet spot imaging noninvasive measurement systems that integrate low-cost optical imaging of capillaries in the visible wavelength range with the high-accuracy noninvasive measurement in the component-specific, e.g., near-infrared, wavelength range.
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Citations
22 Claims
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1. An apparatus for improving the accuracy of a noninvasive blood analysis measurement instrument, comprising:
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A.) first means for locating at least one sweet spot on the skin, said sweet spots having a significantly higher density of capillaries than the average of the surrounding skin area;
B.) second means for controlling the measurement process performed by said noninvasive instrument such that it selectively probes sweet spots;
whereby the tracking error is reduced and the signal-to-noise ratio is increased and full clinical usefulness can be achieved. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method for improving the accuracy of a noninvasive blood analysis measurement instrument, comprising the steps of:
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A.) locating at least one sweet spot on the skin, said sweet spots having a significantly higher density of capillaries than the average of the surrounding skin area;
B.) controlling the measurement process performed by said noninvasive instrument such that it selectively probes sweet spots;
whereby the tracking error is reduced and the signal-to-noise ratio is increased and full clinical usefulness can be achieved. - View Dependent Claims (14, 15, 16, 17, 18, 19)
A.) forming an annular illumination pattern with a dark center on surface 9 of said skin; - and
B.) imaging an entrance field 21 located laterally within said dark center and at a shallow depth underneath said surface 9 onto a camera 20.
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18. The method of claim 13 wherein said step of locating at least one sweet spot is comprised of measuring the color of a plurality of skin spots, each of said skin spots being at least several hundred micrometers in lateral size.
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19. The method of claim 13 wherein said step of locating at least one sweet spot is comprised of measuring the laser Doppler signal from a plurality of skin spots, each of said skin spots being at least several hundred micrometers in lateral size.
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20. A method for improving the accuracy of a noninvasive blood analysis measurement instrument, comprising the steps of:
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A.) providing means for limiting the lateral size of the skin volume probed by said noninvasive instrument to a predetermined value;
B.) locating a sweet spot on the skin, said sweet spot having a significantly higher density of capillaries than the average of the surrounding skin area and a lateral size at least as large as said predetermined value;
C.) positioning said skin relative to said noninvasive instrument such that the skin volume probed by said noninvasive instrument is overlapped by sweet spot area; and
D.) starting a measurement on said noninvasive instrument;
whereby the tracking error is reduced and the signal-to-noise ratio is increased and full clinical usefulness can be achieved. - View Dependent Claims (21, 22)
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Specification