2023
DOI: 10.21203/rs.3.rs-3348101/v1
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Quantifying Fat Zonation in Liver Lobules: An IntegratedMultiscale In-silico Model Combining DisturbedMicroperfusion and Fat Metabolism via aContinuum-Biomechanical Bi-scale, Tri-phasic Approach

Lena Lambers,
Navina Waschinsky,
Jana Schleicher
et al.

Abstract: Metabolic zonation refers to the spatial separation of metabolic functions along thesinusoidal axes of the liver. This phenomenon forms the foundation for adjusting hepaticmetabolism to physiological requirements in health and disease (e.g. metabolicdysfunction-associated steatotic liver disease/ MASLD). Zonated metabolic functions areinfluenced by zonal morphological abnormalities in the liver, such as periportal fibrosisand pericentral steatosis. We aim to analyze the interplay between microperfusion,oxygen … Show more

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“…However, the hepatic microarchitecture is surprisingly robust, with significant but rather small differences in the related 2D geometrical parameters. This finding has important implications for computational modeling of the liver, which allows reusing lobular mathematical models of the liver across different species for simulation purposes with minor modifications (Lambers et al, 2023; Ricken et al, 2015).…”
Section: Discussionmentioning
confidence: 92%
“…However, the hepatic microarchitecture is surprisingly robust, with significant but rather small differences in the related 2D geometrical parameters. This finding has important implications for computational modeling of the liver, which allows reusing lobular mathematical models of the liver across different species for simulation purposes with minor modifications (Lambers et al, 2023; Ricken et al, 2015).…”
Section: Discussionmentioning
confidence: 92%