Method and apparatus for non-invasive measuring of physiological glucose concentration in bodies of humans or animals
First Claim
Patent Images
1. A method of determining the glucose content of a body tissue specimen, which comprises the steps of:
- irradiating the specimen with laser light modulated at a predetermined pulse repetition rate to cause said specimen to re-emit light at said pulse repetition rate;
receiving the light re-emitted from the specimen to produce a corresponding electrical signal modulated at said pulse repetition rate;
amplifying and filtering said electrical signal;
controlling said irradiation of the specimen by said amplified and filtered electrical signal;
decoding said amplified and filtered electrical signal to produce a decoded signal;
generating variable frequency pulses in accordance with said decoded signal;
and counting said pulses over an interval of time determined by the specimen irradiation in accordance with said amplified and filtered electrical signal.
1 Assignment
0 Petitions
Accused Products
Abstract
Method and apparatus for non-invasive measurement of the blood glucose concentration (or other selected physiological content) of a body tissue specimen by irradiating the specimen with modulated laser light, and receiving light re-emitted from the specimen to produce an electrical signal which controls the duration of laser energization and is decoded before operating a counter from a variable frequency pulse generator.
-
Citations
8 Claims
-
1. A method of determining the glucose content of a body tissue specimen, which comprises the steps of:
-
irradiating the specimen with laser light modulated at a predetermined pulse repetition rate to cause said specimen to re-emit light at said pulse repetition rate;
receiving the light re-emitted from the specimen to produce a corresponding electrical signal modulated at said pulse repetition rate;
amplifying and filtering said electrical signal;
controlling said irradiation of the specimen by said amplified and filtered electrical signal;
decoding said amplified and filtered electrical signal to produce a decoded signal;
generating variable frequency pulses in accordance with said decoded signal;
and counting said pulses over an interval of time determined by the specimen irradiation in accordance with said amplified and filtered electrical signal. - View Dependent Claims (2)
-
-
3. A method of measuring the level of a selected physiological component of a body tissue specimen, which comprises the steps of:
-
directing laser light onto the specimen to cause the specimen to re-emit light;
collecting light coming from the specimen;
and quantifying the collected light from the specimen as a measure of said selected physiological component of the specimen. - View Dependent Claims (4)
-
-
5. An apparatus for measuring the level of a selected physiological component of a body tissue specimen, which comprises:
-
means for directing laser light onto the specimen to cause the specimen to re-emit light;
means for collecting light coming from the specimen;
and means for quantifying the collected light from the specimen as a measure of said selected physiological component of in the specimen. - View Dependent Claims (6)
-
-
7. Apparatus for determining the blood glucose content of a body tissue specimen, which comprises:
-
a laser for irradiating the specimen with laser light;
a driver for energizing said laser and modulating said laser at a predetermined pulse repetition rate to cause said specimen to re-emit light at said pulse repetition rate;
photoelectric means for receiving the light re-emitted from the specimen to produce a corresponding electrical signal modulated at said pulse repetition rate;
an amplifier connected to said photoelectric means for amplifying and filtering said electrical signal therefrom, said amplifier having an output connected to said driver for determining the duration of energization of the laser by the driver;
a decoder connected to the output of said amplifier for decoding said amplified and filtered electrical signal from the specimen to produce a decoded signal;
a variable pulse generator connected to the output of said decoder for generating variable frequency pulses in accordance with said decoded signal;
and a counter connected to the output of said variable frequency pulse generator for counting said pulses over an interval of time determined by the energization of the laser by said driver. - View Dependent Claims (8)
-
Specification