Design of Non-Invasive Continuous Glocose Monitoring Device

Abstract

Invasive blood glucose level monitoring is typically required for diabetes, a chronic disease that affects millions of people worldwide. Pricking the finger to draw blood is the most common method, and the blood is then tested for glucose content. This invasive method has some drawbacks, but it is without a doubt effective. It has the potential to spread infectious diseases and can be a costly and painful process. Also, the drawn-out ramifications of rehashed finger-pricking can prompt tissue harm, causing significant distress and in some cases even useful debilitations. However, there is a non-invasive method for measuring blood glucose levels that can be used in place of this one and avoids the drawbacks of the invasive approach. This strategy gives a more agreeable, less horrendous method of incessant testing without compromising the quality or exactness of the outcomes. Utilization of Near-Infrared (NIR) light is necessary for its implementation. This is the secret: A photodetector receives the NIR light that is transmitted through a person's finger. The variety in the got light force gives information that can be examined to decide the glucose level in the blood. There is no risk of infection or physical harm because this method does not require any physical contact with blood. Additionally, an integrated digital display system can be implemented using this alternative method. An LCD displays the measured glucose level, giving the patient or healthcare provider a quick and easy-to-understand reading. However, the advancement doesn't stop there; A connected Android app for smartphones is included in the system. The glucose level data is received by the application via Bluetooth and displayed in a format that is simple to read. Furthermore, the application is intended to store this information, developing a record over the long haul. This record can be important for long haul diabetes the board, permitting the following of examples and patterns, working with additional educated conversations with medical care suppliers, and prompting more customized therapy plans. There are numerous advantages to the non-invasive approach proposed here in general: it's less excruciating and less expensive, takes out the gamble of irresistible infection transmission, and forestalls harm to finger tissues. By displaying the results on an LCD and sending the data to a mobile application for easy monitoring and record keeping, it also adds convenience and digital integration. The embodiment of this suggestion is to make diabetes the board not so much oppressive but rather easier to understand, without forfeiting precision and dependability.