| Patent Number |
Title Of Patent |
Date Issued |
| RE38775 |
Electrode with improved signal to noise ratio |
August 16, 2005 |
| An electrode assembly for sensing an electrochemical signal diffused from a source to a working electrode which is comprised of a plurality of substantially separated working electrode surfaces is disclosed. The electrode of the invention is comprised of 1) a working electrode made up |
| RE38681 |
Electrode with improved signal to noise ratio |
January 4, 2005 |
| An electrode assembly for sensing an electrochemical signal diffused from a source to a working electrode which is comprised of a plurality of substantially separated working electrode surfaces is disclosed. The electrode of the invention is comprised of 1) a working electrode made up |
| 7405055 |
Method and device for predicting physiological values |
July 29, 2008 |
| The invention relates generally to methods, systems, and devices for measuring the concentration of target analytes present in a biological system using a series of measurements obtained from a monitoring system and a Mixtures of Experts (MOE) algorithm. In one embodiment, the present |
| 7295867 |
Signal processing for measurement of physiological analytes |
November 13, 2007 |
| A method is provided for continually or continuously measuring the concentration of target chemical analytes present in a biological system, and processing analyte-specific signals to obtain a measurement value that is closely correlated with the concentration of the target chemical |
| 6771995 |
Chemical signal-impermeable mask |
August 3, 2004 |
| A chemical signal-impermeable mask is positioned in the electrolyte flow such that the mask is between a source of chemical signal and a working electrode which senses the chemical signal transported from the source (e.g., by diffusion). The configuration of the mask is such that the mas |
| 6653091 |
Method and device for predicting physiological values |
November 25, 2003 |
| The invention relates generally to methods, systems, and devices for measuring the concentration of target analytes present in a biological system using a series of measurements obtained from a monitoring system and a Mixtures of Experts (MOE) algorithm. In one embodiment, the present |
| 6595919 |
Device for signal processing for measurement of physiological analytes |
July 22, 2003 |
| A method is provided for continually or continuously measuring the concentration of target chemical analytes present in a biological system, and processing analyte-specific signals to obtain a measurement value that is closely correlated with the concentration of the target chemical |
| 6546269 |
Method and device for predicting physiological values |
April 8, 2003 |
| A method and device are provided for measuring the concentration of target chemical analytes present in a biological system, and then predicting a future or past concentration of an analyte using a series of such measurements. One important application of the invention involves predi |
| 6529755 |
Chemical signal-impermeable mask |
March 4, 2003 |
| A chemical signal-impermeable mask is positioned in the electrolyte flow such that the mask is between a source of chemical signal and a working electrode which senses the chemical signal transported from the source (e.g., by diffusion). The configuration of the mask is such that the mas |
| 6370410 |
Methods of producing an assembly for use in a monitoring device |
April 9, 2002 |
| A chemical signal-impermeable mask is positioned in the electrolyte flow such that the mask is between a source of chemical signal and a working electrode which senses the chemical signal transported from the source (e.g., by diffusion). The configuration of the mask is such that the mas |
| 6326160 |
Microprocessors for use in a device for predicting physiological values |
December 4, 2001 |
| The invention relates generally to methods, systems, and devices for measuring the concentration of target analytes present in a biological system using a series of measurements obtained from a monitoring system and a Mixtures of Experts (MOE) algorithm. In one embodiment, the present |
| 6309351 |
Methods for monitoring a physiological analyte |
October 30, 2001 |
| A method for continual monitoring of a physiologic analyte in a subject includes steps of contacting the subject with a collection reservoir such that the analyte can move from the subject into the collection reservoir, the contents of the collection reservoir being in operative communic |
| 6299578 |
Methods for monitoring a physiological analyte |
October 9, 2001 |
| A method for continual monitoring of a physiologic analyte in a subject includes steps of contacting the subject with a collection reservoir such that the analyte can move from the subject into the collection reservoir, the contents of the collection reservoir being in operative communic |
| 6284126 |
Electrode with improved signal to noise ratio |
September 4, 2001 |
| An electrode assembly for sensing an electrochemical signal diffused from a source to a working electrode which is comprised of a plurality of substantially separated working electrode surfaces is disclosed. The electrode of the invention is comprised of 1) a working electrode made up |
| 6272364 |
Method and device for predicting physiological values |
August 7, 2001 |
| A method and device are provided for measuring the concentration of target chemical analytes present in a biological system, and then predicting a future or past concentration of an analyte using a series of such measurements. One important application of the invention involves predi |
| 6233471 |
Signal processing for measurement of physiological analysis |
May 15, 2001 |
| A method is provided for continually or continuously measuring the concentration of target chemical analytes present in a biological system, and processing analyte-specific signals to obtain a measurement value that is closely correlated with the concentration of the target chemical |
| 6180416 |
Method and device for predicting physiological values |
January 30, 2001 |
| The invention relates generally to methods, systems, and devices for measuring the concentration of target analytes present in a biological system using a series of measurements obtained from a monitoring system and a Mixtures of Experts (MOE) algorithm. In one embodiment, the present |
| 6141573 |
Chemical signal-impermeable mask |
October 31, 2000 |
| A chemical signal-impermeable mask is positioned in the electrolyte flow such that the mask is between a source of chemical signal and a working electrode which senses the chemical signal transported from the source (e.g., by diffusion). The configuration of the mask is such that the mas |
| 6139718 |
Electrode with improved signal to noise ratio |
October 31, 2000 |
| An electrode assembly for sensing an electrochemical signal diffused from a source to a working electrode which is comprised of a plurality of substantially separated working electrode surfaces is disclosed. The electrode of the invention is comprised of 1) a working electrode made up |
| 5989409 |
Method for glucose sensing |
November 23, 1999 |
| A method for measuring the concentration of glucose diffused from a source to a working electrode which assembly includes a scavenging electrode is disclosed. The electrode of the invention is comprised of 1) a working electrode; 2) a scavenging electrode; 3) an electroosmotic electrode; |
| 5827183 |
Method of measuring chemical concentration iontophoretically using impermeable mask |
October 27, 1998 |
| A method for measuring the concentration of a chemical present in a blood stream of a mammalian subject is disclosed. The method involves contacting the subject's skin with a sensor assembly comprised of an ionically conducting material which contacts the skin, a working electrode which |
| 5735273 |
Chemical signal-impermeable mask |
April 7, 1998 |
| A chemical signal-impermeable mask is positioned in the electrolyte flow such that the mask is between a source of chemical signal and a working electrode which senses the chemical signal transported from the source (e.g., by diffusion). The configuration of the mask is such that the mas |
