2018
DOI: 10.1186/s42234-018-0015-6
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Automated closed-loop control of diabetes: the artificial pancreas

Abstract: The incidence of Diabetes Mellitus is on the rise worldwide, which exerts enormous health toll on the population and enormous pressure on the healthcare systems. Now, almost hundred years after the discovery of insulin in 1921, the optimization problem of diabetes is well formulated as maintenance of strict glycemic control without increasing the risk for hypoglycemia. External insulin administration is mandatory for people with type 1 diabetes; various medications, as well as basal and prandial insulin, are i… Show more

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Cited by 60 publications
(37 citation statements)
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“…In particular, people with T1D measure capillary blood glucose several times a day and administer exogenous insulin via multiple daily injections (MDI) or A. Güemes, P. Georgiou, P. Herrero continuous subcutaneous insulin infusion (CSII). Continuous glucose monitoring (CGM) technology [2] has enabled more advanced technologies to support self-management such as sensor-augmented insulin pumps with low-glucose insulin suspend [3], the artificial pancreas [4], and decision support systems (DSS) for insulin dosing [5]. Although the artificial pancreas might be, a priori, the holy grail of the technological solutions for glucose management, slow market adoption, elevated cost, and some unmet customer expectations [6], may limit uptake and emphasize the importance of research focused on DSS [7].…”
Section: Introductionmentioning
confidence: 99%
“…In particular, people with T1D measure capillary blood glucose several times a day and administer exogenous insulin via multiple daily injections (MDI) or A. Güemes, P. Georgiou, P. Herrero continuous subcutaneous insulin infusion (CSII). Continuous glucose monitoring (CGM) technology [2] has enabled more advanced technologies to support self-management such as sensor-augmented insulin pumps with low-glucose insulin suspend [3], the artificial pancreas [4], and decision support systems (DSS) for insulin dosing [5]. Although the artificial pancreas might be, a priori, the holy grail of the technological solutions for glucose management, slow market adoption, elevated cost, and some unmet customer expectations [6], may limit uptake and emphasize the importance of research focused on DSS [7].…”
Section: Introductionmentioning
confidence: 99%
“…In addition to the vagus nerve, studies on the regulatory role of other peripheral and CNS circuitries and the therapeutic usage of their modulation are considerably adding to progress in bioelectronic medicine ( Fig. 3; Talbot et al 2015;Guduru et al 2018;Güemes and Georgiou 2018;Jiman et al 2018;Kibleur and David 2018;Kovatchev 2018;Zhang et al 2018;Pavlov and Tracey 2019). These studies use methodological advances in material science, bioengineering, neuroscience, data analytics, computer modeling and mathematics, immunology, molecular biology, and other disciplines ( Fig.…”
Section: Bioelectronic Medicine: An Expanding Fieldmentioning
confidence: 99%
“…In the last two decades, technological progress in the field of diabetes management, especially in continuous glucose monitoring (CGM) [1], has enabled the development of automated insulin delivery systems, the so-called artificial pancreas (AP). The most common configuration of an AP consists of a CGM sensor and a subcutaneous infusion pump that delivers insulin at a rate decided by a computer program (control algorithm) [2,3].…”
Section: Introductionmentioning
confidence: 99%