A one-size-fits-all artificial pancreas for people with type 1 diabetes based on physiological insight and feedback control

Tobias K.S. Ritschel; Asbjorn Thode Reenberg; Emilie B. Lindkvist; Christian Laugesen; Jannet Svensson; Ajenthen G. Ranjan; Kirsten Norgaard; Bernd Dammann; John Bagterp Jorgensen

doi:10.23919/ECC57647.2023.10178186

A one-size-fits-all artificial pancreas for people with type 1 diabetes based on physiological insight and feedback control

Tobias K.S. Ritschel, Asbjorn Thode Reenberg, Emilie B. Lindkvist, Christian Laugesen, Jannet Svensson, Ajenthen G. Ranjan, Kirsten Norgaard, Bernd Dammann, John Bagterp Jorgensen^*

^*Corresponding author af dette arbejde

Steno Diabetes Center Copenhagen

Abstract

We propose a model-free artificial pancreas (AP) for people with type 1 diabetes. The algorithmic parameters are tuned to a virtual population of 1,000,000 individuals, and the AP repeatedly estimates the basal and bolus insulin requirements necessary for maintaining normal blood glucose levels. Therefore, the AP can be used without healthcare personnel or engineers customizing the algorithm to each user. The estimates are based on bodyweight, measurements from a continuous glucose monitor (CGM), and estimates of the meal carbohydrate contents. In a virtual clinical trial with a111,000,000 individuals (i.e., a Monte Carlo closed-loop simulation), the AP achieves a mean time in range of more than 87% and over 88% of the participants satisfy several glycemic targets.

Originalsprog	Engelsk
Publikationsdato	jun. 2023
DOI	https://doi.org/10.23919/ECC57647.2023.10178186
Status	Udgivet - jun. 2023
Begivenhed	2023 European Control Conference, ECC 2023 - Bucharest, Rumænien Varighed: 13 jun. 2023 → 16 jun. 2023

Konference

Konference	2023 European Control Conference, ECC 2023
Land/Område	Rumænien
By	Bucharest
Periode	13/06/2023 → 16/06/2023

Adgang til dokumentet

10.23919/ECC57647.2023.10178186

Andre filer og links

Link to publication in Scopus

Citationsformater

Ritschel, T. K. S., Reenberg, A. T., Lindkvist, E. B., Laugesen, C., Svensson, J., Ranjan, A. G., Norgaard, K., Dammann, B., & Jorgensen, J. B. (2023). A one-size-fits-all artificial pancreas for people with type 1 diabetes based on physiological insight and feedback control. Abstract fra 2023 European Control Conference, ECC 2023, Bucharest, Rumænien. https://doi.org/10.23919/ECC57647.2023.10178186

A one-size-fits-all artificial pancreas for people with type 1 diabetes based on physiological insight and feedback control. / Ritschel, Tobias K.S.; Reenberg, Asbjorn Thode; Lindkvist, Emilie B. et al.
2023. Abstract fra 2023 European Control Conference, ECC 2023, Bucharest, Rumænien.

Publikation: Konferencebidrag › Konferenceabstrakt til konference › Forskning › peer review

Ritschel, TKS, Reenberg, AT, Lindkvist, EB, Laugesen, C, Svensson, J , Ranjan, AG , Norgaard, K, Dammann, B & Jorgensen, JB 2023, 'A one-size-fits-all artificial pancreas for people with type 1 diabetes based on physiological insight and feedback control', 2023 European Control Conference, ECC 2023, Bucharest, Rumænien, 13/06/2023 - 16/06/2023. https://doi.org/10.23919/ECC57647.2023.10178186

@conference{bde96ac0e1f3421a8ecdf4289614239f,

title = "A one-size-fits-all artificial pancreas for people with type 1 diabetes based on physiological insight and feedback control",

abstract = "We propose a model-free artificial pancreas (AP) for people with type 1 diabetes. The algorithmic parameters are tuned to a virtual population of 1,000,000 individuals, and the AP repeatedly estimates the basal and bolus insulin requirements necessary for maintaining normal blood glucose levels. Therefore, the AP can be used without healthcare personnel or engineers customizing the algorithm to each user. The estimates are based on bodyweight, measurements from a continuous glucose monitor (CGM), and estimates of the meal carbohydrate contents. In a virtual clinical trial with a111,000,000 individuals (i.e., a Monte Carlo closed-loop simulation), the AP achieves a mean time in range of more than 87% and over 88% of the participants satisfy several glycemic targets.",

author = "Ritschel, {Tobias K.S.} and Reenberg, {Asbjorn Thode} and Lindkvist, {Emilie B.} and Christian Laugesen and Jannet Svensson and Ranjan, {Ajenthen G.} and Kirsten Norgaard and Bernd Dammann and Jorgensen, {John Bagterp}",

note = "Publisher Copyright: {\textcopyright} 2023 EUCA.; 2023 European Control Conference, ECC 2023 ; Conference date: 13-06-2023 Through 16-06-2023",

year = "2023",

month = jun,

doi = "10.23919/ECC57647.2023.10178186",

language = "English",

}

TY - ABST

T1 - A one-size-fits-all artificial pancreas for people with type 1 diabetes based on physiological insight and feedback control

AU - Ritschel, Tobias K.S.

AU - Reenberg, Asbjorn Thode

AU - Lindkvist, Emilie B.

AU - Laugesen, Christian

AU - Svensson, Jannet

AU - Ranjan, Ajenthen G.

AU - Norgaard, Kirsten

AU - Dammann, Bernd

AU - Jorgensen, John Bagterp

PY - 2023/6

Y1 - 2023/6

N2 - We propose a model-free artificial pancreas (AP) for people with type 1 diabetes. The algorithmic parameters are tuned to a virtual population of 1,000,000 individuals, and the AP repeatedly estimates the basal and bolus insulin requirements necessary for maintaining normal blood glucose levels. Therefore, the AP can be used without healthcare personnel or engineers customizing the algorithm to each user. The estimates are based on bodyweight, measurements from a continuous glucose monitor (CGM), and estimates of the meal carbohydrate contents. In a virtual clinical trial with a111,000,000 individuals (i.e., a Monte Carlo closed-loop simulation), the AP achieves a mean time in range of more than 87% and over 88% of the participants satisfy several glycemic targets.

AB - We propose a model-free artificial pancreas (AP) for people with type 1 diabetes. The algorithmic parameters are tuned to a virtual population of 1,000,000 individuals, and the AP repeatedly estimates the basal and bolus insulin requirements necessary for maintaining normal blood glucose levels. Therefore, the AP can be used without healthcare personnel or engineers customizing the algorithm to each user. The estimates are based on bodyweight, measurements from a continuous glucose monitor (CGM), and estimates of the meal carbohydrate contents. In a virtual clinical trial with a111,000,000 individuals (i.e., a Monte Carlo closed-loop simulation), the AP achieves a mean time in range of more than 87% and over 88% of the participants satisfy several glycemic targets.

UR - http://www.scopus.com/inward/record.url?scp=85166486611&partnerID=8YFLogxK

U2 - 10.23919/ECC57647.2023.10178186

DO - 10.23919/ECC57647.2023.10178186

M3 - Conference abstract for conference

AN - SCOPUS:85166486611

T2 - 2023 European Control Conference, ECC 2023

Y2 - 13 June 2023 through 16 June 2023

ER -

A one-size-fits-all artificial pancreas for people with type 1 diabetes based on physiological insight and feedback control

Abstract

Konference

Adgang til dokumentet

Andre filer og links

Fingeraftryk

Citationsformater