Lia Bally 1,2,3 , Hood Thabit 2,3 Show Affiliations »
Abstract
BACKGROUND: Despite its well-established health benefits, exercise imposes challenges on glucose control in individuals with type 1 diabetes due to the complex interactions between exerciseinduced effects on glucose metabolism and exogenous insulin therapy. Although clinical guidelines for exercise management in type 1 diabetes are available, implementation is challenging in daily life. The risk of exercise-induced dysglycaemia deters many people with type 1 diabetes from participating and benefitting from exercise. Rapid progress has been made in the development of closed-loop systems, also known as the artificial pancreas. The autonomous modulation of insulin delivery in a glucoseresponsive manner by closed-loop systems may be beneficial in addressing and overcoming the risk and burden of exercise-induced dysglycaemia. METHODS: A summative overview of closed-loop application during exercise in type 1 diabetes is discussed, outlining current evidence and limitations, our perspectives in the field and future outlook. RESULTS: Outcomes from clinical studies evaluating both single- and dual-hormone closed-loop during exercise are reported. Current approaches to enhance closed-loop performance during exercise are described. CONCLUSION: Closed-loop system has the potential to ameliorate exercise management in type 1 diabetes. Promising results have been shown, however innovative approaches are still needed to overcome inherent limitations of closed-loop performance during exercise. Future studies in larger generalizable patient population during real-life settings are still needed, to further evaluate its clinical applicability. Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.
BACKGROUND: Despite its well-established health benefits, exercise imposes challenges on glucose control in individuals with type 1 diabetes due to the complex interactions between exerciseinduced effects on glucose metabolism and exogenous insulin therapy. Although clinical guidelines for exercise management in type 1 diabetes are available, implementation is challenging in daily life. The risk of exercise-induced dysglycaemia deters many people with type 1 diabetes from participating and benefitting from exercise. Rapid progress has been made in the development of closed-loop systems, also known as the artificial pancreas. The autonomous modulation of insulin delivery in a glucoseresponsive manner by closed-loop systems may be beneficial in addressing and overcoming the risk and burden of exercise-induced dysglycaemia. METHODS: A summative overview of closed-loop application during exercise in type 1 diabetes is discussed, outlining current evidence and limitations, our perspectives in the field and future outlook. RESULTS: Outcomes from clinical studies evaluating both single- and dual-hormone closed-loop during exercise are reported. Current approaches to enhance closed-loop performance during exercise are described. CONCLUSION: Closed-loop system has the potential to ameliorate exercise management in type 1 diabetes . Promising results have been shown, however innovative approaches are still needed to overcome inherent limitations of closed-loop performance during exercise. Future studies in larger generalizable patient population during real-life settings are still needed, to further evaluate its clinical applicability. Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.
Entities: Chemical
Disease
Gene
Species
Keywords:
Type 1 diabetes; artificial pancreas; closed-loop; exercise; glucagon; glucose control; hypoglycaemia; insulin.
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Year: 2018
PMID: 28245784 DOI: 10.2174/1573399813666170228121604
Source DB: PubMed Journal: Curr Diabetes Rev ISSN: 1573-3998