I. Sala-Mira scite author profile

Carbohydrate counting is not only a burden for patients with type 1 diabetes, but estimation errors in meal announcement could also degrade the outcomes of the current hybrid closed-loop systems. Therefore, removing meal announcement is desirable. A novel control system is addressed here to face postprandial control without meal announcement. The proposed system grounds on two applications of the sliding mode observers in dealing with disturbances: first, the equivalent output technique is used to reconstruct the meal rate of glucose appearance via a first order sliding mode observer; second, a supertwisting-based residual generator is used to detect the meals. Subsequently, a bolusing algorithm uses the information of the two observers to trigger a series of boluses based on a proportional-derivative-Q1 like strategy. An in silico validation with 30 patients in a 30-day scenario reveals that the meal detector algorithm achieves a low rate of false positives per day (0.1 (0.1), mean (SD)) and a detection time of 28.5(6.2) min. Additionally, the bolusing algorithm fulfills a non-statistically different mean glucose than the hybrid counterpart with bolus misestimation (146.69 (12.20) mg/dL vs. 144.28 (11.01) mg/dL, p>0.05), without increasing hypoglycemia (0.029 (0.077) vs. 0.004 (0.014)%, p > 0,05), although at the expense of a slightly higher time in hyperglycemia (22.51(8.72) % vs. 18.65 (7.89)%, p < 0.05) due to the conservative tuning of the bolusing algorithm for the sake of safety.

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Characterization of glycemic patterns in type 1 diabetes without insulin or meal input data

Hoyos¹,

Laguna

Carpintero³

et al. 2022

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Effect of Model, Observer and Their Interaction on State and Disturbance Estimation in Artificial Pancreas: An In-Silico Study

Sala-Mira¹,

Siket²,

Kovács³

et al. 2021

IEEE Access

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Insulin limitation in the Artificial Pancreas by Sliding Mode Reference Conditioning and Insulin Feedback: an in silico comparison

2017

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I. Sala-Mira

Super–twisting-based meal detector for type 1 diabetes management: Improvement and assessment in a real-life scenario

Sliding-mode disturbance observers for an artificial pancreas without meal announcement

Characterization of glycemic patterns in type 1 diabetes without insulin or meal input data

Effect of Model, Observer and Their Interaction on State and Disturbance Estimation in Artificial Pancreas: An In-Silico Study

Insulin limitation in the Artificial Pancreas by Sliding Mode Reference Conditioning and Insulin Feedback: an in silico comparison

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