BACKGROUND
Diabetes Mellitus is a chronic disease that affects the human body by impairing it from producing, responding, or utilizing a hormone called insulin. This disease is commonly diagnosed in adults 40 to 65 years of age. Although there is no cure for Diabetes, it can be kept in check by maintaining a healthy lifestyle and monitoring the blood-glucose readings on a timely basis. The standard method for monitoring blood glucose is invasive, which involves needles, lancets, and blood samples that cause a lot of discomfort and stress.
OBJECTIVE
To reduce the use of invasive approaches for monitoring blood glucose, this paper proposes building and testing a non-invasive glucose monitoring prototype that does not require any blood sample and does not involve any kind of invasive procedure.
METHODS
Our system is based on inexpensive devices such as a Raspberry Pi (RPi), a portable camera (RPi camera), and a visible light laser. A set of pictures would be taken using the RPi camera when a visible light laser passes through the human tissue. By studying the absorption and analyzing how light is scattered along the human tissue using this image dataset, the glucose concentration can be estimated by an ANN (Artificial neural network) model. Our prototype was developed using TensorFlow, Keras, and Python code.
RESULTS
Preliminary results with limited data exhibit an accuracy of around 79% in blood glucose estimation, which is promising for more extensive experimentation.
CONCLUSIONS
We conclude that is possible to estimate glucose concentration using images from the human tissue.