MUMBAI, India, Feb. 6 -- Intellectual Property India has published a patent application (202541122508 A) filed by New Prince Shri Bhavani College Of Engineering And Technology; Ms. Asha V; Ms. Jeeva S; Ms. Yoga Bharathi A; and Mrs. Vijayakumari G, Chennai, Tamil Nadu, on Dec. 5, 2025, for 'wearable textile antenna for non-invasive glucose tracking.'
Inventor(s) include Ms. Asha V; Ms. Jeeva S; Ms. Yoga Bharathi A; and Mrs. Vijaya Kumari G.
The application for the patent was published on Feb. 6, under issue no. 06/2026.
According to the abstract released by the Intellectual Property India: "The project "Wearable Textile Antenna for Non-Invasive Glucose Tracking" is aimed at improving healthcare. monitoring by providing an easy-to-use, comfortable, and non-invasive method of continuously measuring glucose levels. Diabetes is one of the most common chronic diseases worldwide, and its management depends heavily on regular monitoring of blood glucose. Conventional methods, which involve finger pricks or implantable sensors, are either painful, inconvenient, or expensive, and often discourage patients from frequent monitoring. Our project focuses on overcoming these limitations by integrating textile-based antennas into everyday clothing or wearable accessories, enabling seamless and real-time glucose tracki.ng without the need for invasive procedures. The design of the wearable antenna is based on lightweight, flexible, and biocompatible fabrics that can be comfortably worn without affecting daily activities. The antenna is engineered to interact with the body's tissues and detect variations in dielectric properties caused bychanging glucose concentrations. These signals are then processed using advanced algorithms and microcontrollers to provide accurate glucose level estimations. By embedding the antenna into common textiles, the system remains discreet, portable, and user-fTiendly, ensuring that individuals can continuously monitor their health with minimal effort. To ensure safety, reliability, and long-term usability, the wearable textile antenna system incorporates low-power wireless communication, energy-efficient circuits, and robust calibration mechanisms. The device can be paired with smartphones or medical platforms, allowing patients and healthcare professionals to access glucose readings in real time. This connectivity further enables remote health monitoring, timely alerts, and personalized diabetes manageme.nt. Beyond its primary use for diabetic patients, this technology also holds potential applications in broader healthcare monitoring and preventive medicine. The wearable textile antenna represents ~n innovative step toward merging electronics with everyday clothing, making healthcare less intrusive and more accessible. Ultimately, this project contributes to enhancing the quality of life for millions of people by providing a reliable, non-invasive, and costeffective solution for continuous glucose tracking. Keywords: Continuous glucose tracking, smart health device, real-time biomedical sensing, flexible and lightweight sensor, non-invasive glucose tracking."
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