Abstract
Background. Since physical activity has a high impact on patients with type 1 diabetes and the risk of hypoglycemia (low blood glucose levels) is significantly higher during and after physical activities, an automatic method to provide a personalized recommendation is needed to improve the blood glucose management and harness the benefits of physical activities. This paper aims to reduce the risk of hypoglycemia and hyperglycemia (high blood glucose levels), and empowers type 1 diabetes patients to make decisions regarding food choices connected with physical activities. Methods. Traditional and Bayesian feedforward neural network models are developed to provide accurate predictions of the blood glucose outcome and the risks of hyperglycemia and hypoglycemia with uncertainty information. Using the proposed models, safe actions that minimize the risk of both hypoglycemia and hyperglycemia are provided as food recommendations to the patient. Results. The predicted blood glucose responses to the optimal and safe food recommendations are significantly better and safer than by taking random food. Conclusions. Simulations conducted on the state-of-the-art UVA/Padova simulator combined with Brenton’s physical activity model show that the proposed methodology is safe and effective in managing blood glucose during and after physical activities.
Highlights
Type 1 diabetes (T1D) is a chronic metabolic disorder characterized by elevated blood glucose levels over a prolonged period, leading to long-term damage to the heart, kidneys, eyes, nerves, and blood vessels
High blood glucose in T1D is a consequence of the lack of insulin produced by the pancreas so that T1D patients require external insulin administration to regulate their blood glucose concentrations [1], while too much insulin dangerously reduces blood glucose level
Unlike [16,23], our work focused on preventing the complications related to physical activity in type-1 diabetes patients, alleviating the risks associated with doing exercise while having diabetes
Summary
Type 1 diabetes (T1D) is a chronic metabolic disorder characterized by elevated blood glucose levels over a prolonged period, leading to long-term damage to the heart, kidneys, eyes, nerves, and blood vessels. Treatment of T1D mainly consists of either a basal-bolus insulin regimen, where patients take basal insulin dose to regulate fasting blood glucose levels and insulin boluses around mealtimes to quickly reduce the impact of carbohydrate intake, or through an insulin pump providing a continuous insulin. The insulin pump infuses both regular basal insulin rate and meal boluses activated by the user during food intake to avoid hyperglycemia [2]. In both therapies, the insulin is administered subcutaneously in the fatty tissue just below the skin. This paper aims to reduce the risk of hypoglycemia and hyperglycemia (high blood glucose levels), and empowers type 1 diabetes patients to make decisions regarding food choices connected with physical activities
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