Construction of pancreas-muscle-liver microphysiological system (MPS) for reproducing glucose metabolism

Authors
Lee, Dong WookLee, Seung HwanChoi, NakwonSung, Jong Hwan
Issue Date
2019-12
Publisher
WILEY
Citation
BIOTECHNOLOGY AND BIOENGINEERING, v.116, no.12, pp.3433 - 3445
Abstract
Although in vitro models are widely accepted experimental platforms, their physiological relevance is often severely limited. The limitation of current in vitro models is strongly manifested in case of diseases where multiple organs are involved, such as diabetes and metabolic syndrome. Microphysiological systems (MPS), also known as organ-on-a-chip technology, enable a closer approximation of the human organs and tissues, by recreating the tissue microenvironment. Multiorgan MPS, also known as multiorgan-on-a-chip or body-on-a-chip, offer the possibility of reproducing interactions between organs by connecting different organ modules. Here, we designed a three-organ MPS consisting of pancreas, muscle, and liver, to recapitulate glucose metabolism and homeostasis by constructing a mathematical model of glucose metabolism, based on experimental measurement of glucose uptake by muscle cells and insulin secretion by pancreas cells. A mathematical model was used to modify the MPS to improve the physiological relevance, and by adding the liver model in the mathematical model, physiological realistic glucose and insulin profiles were obtained. Our study may provide a methodological framework for developing multiorgan MPS for recapitulating the complex interaction between multiple organs.
Keywords
ON-A-CHIP; INSULIN-CLEARANCE; DRUG DISCOVERY; DESIGN; MODELS; PHARMACOKINETICS; PRINCIPLES; ON-A-CHIP; INSULIN-CLEARANCE; DRUG DISCOVERY; DESIGN; MODELS; PHARMACOKINETICS; PRINCIPLES; glucose metabolism; mathematical model; multiorgan MPS; multiorgan-on-a-chip (MOC); pancreas-muscle-liver MPS
ISSN
0006-3592
URI
https://pubs.kist.re.kr/handle/201004/119252
DOI
10.1002/bit.27151
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KIST Article > 2019
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