Abstract: There is provided a glucose sensor system comprising: a transmitter (2) for containing a battery (212), the transmitter being for placement on top of patient skin; a transcutaneous connector (3) comprising at least one conductive path; and an implantable monolithic integrated circuit (I) for placement beneath the patient skin, wherein the implantable monolithic integrated circuit comprises a potentiostat and an electrochemical sensing element; wherein the potentiostat is electrically coupled to the transmitter (2) via the transcutaneous connector (3), and the electrochemical sensing element is configured to sense glucose concentration and generate an electrical signal representative of the glucose concentration, and wherein the potentiostat is electrically connected to the electrochemical sensing element.
Type:
Application
Filed:
May 25, 2023
Publication date:
November 30, 2023
Applicant:
INTEGRATED MEDICAL SENSORS, INC.
Inventors:
MUHAMMAD MUJEEB-U-RAHMAN, MEISAM HONARVAR NAZARI, MEHMET SENCAN
Abstract: There is provided a glucose sensor system comprising: a transmitter (2) for containing a battery (212), the transmitter being for placement on top of patient skin; a transcutaneous connector (3) comprising at least one conductive path; and an implantable monolithic integrated circuit (I) for placement beneath the patient skin, wherein the implantable monolithic integrated circuit comprises a potentiostat and an electrochemical sensing element; wherein the potentiostat is electrically coupled to the transmitter (2) via the transcutaneous connector (3), and the electrochemical sensing element is configured to sense glucose concentration and generate an electrical signal representative of the glucose concentration, and wherein the potentiostat is electrically connected to the electrochemical sensing element.
Type:
Application
Filed:
January 5, 2023
Publication date:
September 7, 2023
Applicant:
Integrated Medical Sensors, Inc.
Inventors:
MUHAMMAD MUJEEB-U-RAHMAN, MEISAM HONARVAR NAZARI, MEHMET SENCAN
Abstract: Monitoring of one or more key indicators can provide powerful insights into operation and state of different physical systems. For example, continuous monitoring of multiple analyte in body will allow for detailed insights into personal health and will allow for preventative health management. In this application, we present an ultra-small scale wireless sensing platform capable of long-term wireless in-vivo sensing. The key for extreme miniaturization lies in ultra-low-power compact design and lithographic integration of key system components. The key to low cost is using standard technologies and scalable manufacturing. For example, using standard semiconductor technologies for sensing, processing and wireless operation paves way to a low-cost integrated wireless sensing technology. Modern semiconductor technologies provide the capability to provide low-power and yet powerful electronics functionality in a small (mm-scale) size and wireless operation at high frequency.
Type:
Application
Filed:
December 14, 2021
Publication date:
April 28, 2022
Applicant:
Integrated Medical Sensors, Inc.
Inventors:
Meisam Honarvar Nazari, Muhammad Mujeeb-U-Rahman, Mehmet Sencan
Abstract: Monitoring of one or more key indicators can provide powerful insights into the operation and state of different physical systems. For example, continuous monitoring of multiple analytes in a subject allows for detailed insights into personal health as well as allowing for the implementation of preventative health measures. Herein are described design and processing methods for a small wireless multi-analyte sensing platform that can be used to monitor multiple analytes such as glucose, lactate, Urea and other physicochemical quantities. The design techniques and processing methods presented herein can be used for a multitude of other applications and are not limited to those described here.
Type:
Application
Filed:
May 8, 2018
Publication date:
June 11, 2020
Applicant:
Integrated Medical Sensors, Inc.
Inventors:
Meisam Honarvar Nazari, Muhammad Mujeeb-U-Rahman, Mehmet Sencan