*Corresponding Author: Nikhil Kaushik, ECE Department, Lingaya's Vidyapeeth, Faridabad, Haryana, India. Email: nikhil.sir46@gmail.com
The escalating global burden of healthcare challenges underscores the imperative for worldwide healthcare monitoring. While technological advancements, governmental health initiatives, and personal hygiene practices have contributed to increased life expectancies in numerous countries, globalization has resulted in a progressively aging population and declining fertility rates, potentially affecting socioeconomic conditions. To effectively support the elderly, healthcare monitoring technologies must be both affordable and user-friendly. Autonomous healthcare monitoring, incorporating wearable devices with capabilities of communication along with actuators and sensors, could be a viable solution. This approach enables effective individual care for older individuals, reducing their need for inflated clinic treatments.
This work stresses on non-invasive blood glucose monitoring (NIBGM). This development aims to develop a non-invasive equipment through IoT connectivity and smart sensors to monitor multiple organs. The compact, interconnected sensor system will keep an eye on body temperature as well as blood glucose level. The device will monitor via internet communication, allow professionals to track patient's fitness level in real time and transmit information to distant locations. This innovative approach empowers healthcare professionals to offer timely assistance and support, thereby improving patient outcomes.
Keywords: Remote health monitoring, Blood glucose, Biomedical sensor, Cloud storage, IoT, Non-invasive sensing, Health parameters, PPG.
How to cite this article: Kaushik N, Prasad SVAV, Rehalia A. Instant non invasive health monitoring system with glucose monitoring. Int J Drug Deliv Technol. 2026;16(6s): 57-64; DOI: 10.25258/ijddt.16.6s.6
Source of support: Nil.
Conflict of interest: None