Measurement of Temperature for Diagnosing, and Treating the Osteomyelitis of Rat using an InGaSb Based Infrared Sensor with ICT Infrastructure

Abstract

Osteomyelitis is a type of bone contamination that affects people. The most common symptoms are fever, soreness, weakness, and bone redness. The bioactive peptide homocarnosine (C10H16N4O3) is abundant in the cerebrum and skeletal muscles. This paper describes a novel method for detecting temperature due to osteomyelitis using an InGaSb-based Infrared temperature sensor, which was first tested on a rat. The temperature was detected and the synergistic effect of vancomycin (C66H75Cl2N9O24) and C10H16N4O3 against osteomyelitis in the treatment of bacterial infections was studied using 5 rat models. In summary, this work found that combining C10H16N4O3 and C66H75Cl2N9O24 treatment was more effective than C66H75Cl2N9O24 monotherapy in preventing bacterial growth and bone contamination. Rectal probe temperature readings have become common in recent years, and they have proven to be accurate and useful in this regard. Because of the drawbacks of invasive methods, non-invasive continuous monitoring technology has made significant advances in every aspect. Furthermore, non-invasive techniques are non-harmful, include rapid measurements, and do not disturb the subject of measurement. The temperature difference is being 0.2°C on average between an InGaSb based Infrared temperature measurements and rectal measurements (Clinical values) and an accuracy of about 95% is achieved. This data is communicated via Wi-Fi (ESP8266) medium to the remote centre automatically.