Noninvasive glucose measurement
First Claim
1. Apparatus for noninvasive measuring of blood glucose level comprising:
- a first digit encircling liquid chamber with a first electrode assembly affixed to an inner surface of an outer wall of the chamber, the first electrode assembly including a first pair of spaced-apart signal electrodes and a pair of electrodes positioned beside the first pair of spaced-apart signal electrodes through which an electric current is fed into the chamber;
a second digit encircling liquid chamber with a second electrode assembly affixed to an inner surface of an outer wall of the chamber, the second electrode assembly including a second pair of spaced-apart signal electrodes and a pair of electrodes positioned beside the second pair of spaced-apart signal electrodes through which an electric current is fed into the chamber;
liquid in the first chamber having electrical conductivity substantially equal to electrical conductivity of fluid in the digit;
liquid in the second chamber having electrical conductivity substantially more than the electrical conductivity of fluid in the digit; and
pulsatile signal processing circuitry connected to the first and second pairs of signal electrodes to compare electrical signals on the two pairs of signal electrodes to calibration signals received during known glucose levels to thereby distinguish between normal glucose concentration, high glucose concentration, and low glucose concentration.
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Accused Products
Abstract
An apparatus and method for measuring the blood glucose level of a diabetic using insulin is noninvasive. The apparatus includes two plethysmographs that sense the blood in two fingers simultaneously. The electrodes in the plethysmographs are immersed in conductive liquids. One liquid has electric conductivity equal to blood. The other liquid is more conductive than blood. Signals from the fingers are compared to signals obtained earlier when glucose levels were known from conventional measurements. An alternative embodiment employs a single plethysmograph with one set of electrodes in a surrounding chamber and a second set of electrodes against the skin surface.
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Citations
6 Claims
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1. Apparatus for noninvasive measuring of blood glucose level comprising:
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a first digit encircling liquid chamber with a first electrode assembly affixed to an inner surface of an outer wall of the chamber, the first electrode assembly including a first pair of spaced-apart signal electrodes and a pair of electrodes positioned beside the first pair of spaced-apart signal electrodes through which an electric current is fed into the chamber; a second digit encircling liquid chamber with a second electrode assembly affixed to an inner surface of an outer wall of the chamber, the second electrode assembly including a second pair of spaced-apart signal electrodes and a pair of electrodes positioned beside the second pair of spaced-apart signal electrodes through which an electric current is fed into the chamber; liquid in the first chamber having electrical conductivity substantially equal to electrical conductivity of fluid in the digit; liquid in the second chamber having electrical conductivity substantially more than the electrical conductivity of fluid in the digit; and pulsatile signal processing circuitry connected to the first and second pairs of signal electrodes to compare electrical signals on the two pairs of signal electrodes to calibration signals received during known glucose levels to thereby distinguish between normal glucose concentration, high glucose concentration, and low glucose concentration. - View Dependent Claims (2, 3, 4)
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5. A method for measuring blood glucose level comprising:
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encircling a first digit with a first digit encircling liquid chamber with a first electrode assembly including a first pair of spaced-apart signal electrodes and a pair of electrodes positioned beside the first pair of spaced-apart signal electrodes through which an electric current is fed into the chamber; encircling a second digit with a second digit encircling liquid chamber with a second electrode assembly including a second pair of spaced-apart signal electrodes and a pair of electrodes positioned beside the second pair of spaced-apart signal electrodes through which an electric current is fed into the chamber; providing a liquid in the first chamber having electrical conductivity substantially equal to the electrical conductivity of the fluid in the digit; providing a liquid in the second chamber having electrical conductivity substantially more than the electrical conductivity of the fluid in the digit; and using a pulsatile signal processing circuitry connected to the first and second pairs of signal electrodes to compare electrical signals on the two pairs of signal electrodes to calibration signals received during known glucose levels to thereby distinguish between normal glucose concentration, high glucose concentration, and low glucose concentration.
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6. Apparatus for noninvasive measuring of blood glucose level comprising:
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a digit encircling liquid chamber having an annular volume defined by an encircling rigid outer wall, a flexible inner wall, and two flexible end members sealingly joining the inner and outer walls; a first electrode assembly affixed to an inner surface of the outer wall, the first electrode assembly including a first pair of spaced-apart signal electrodes and a pair of electrodes positioned beside the first pair of spaced-apart signal electrodes through which an electric current is fed into the chamber; a second electrode assembly affixed to an outer surface of the inner wall to contact the digit, the second electrode assembly including a second pair of spaced-apart signal electrodes and a second pair of electrodes positioned beside the second pair of spaced-apart signal electrodes through which an electric current is fed; liquid in the chamber having electrical conductivity; pulsatile signal processing circuitry connected to the first and second pairs of signal electrodes to compare electrical signals on the two pairs of signal electrodes to calibration signals received during known glucose levels to thereby distinguish between normal glucose concentration, high glucose concentration, and low glucose concentration.
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Specification