MM-PLF: Multiscale modeling for personalized liver function (snapshot 4)

Understanding how liver function arises from the complex interaction of morphology, perfusion, and metabolism from single cells up to the entire organ requires systems-levels computational approaches.

DOI: None

Created at: 23rd Nov 2017 at 09:58

Contents

A Multiscale Computational Model of Human Galactose Metabolism

Personalized liver function tests: A Multiscale Computational Model Predicts Individual Human Liver Function From Single-Cell Metabolism

Understanding how liver function arises from the complex interaction of morphology, perfusion, and metabolism from single cells up to the entire organ requires systems-levels computational approaches. We report a multiscale mathematical model of the Human liver comprising the scales from single hepatocytes, over representation of ultra-structure and micro-circulation
...

Galactose Modelling

No description specified

Hepatic galactose model

No description specified

  • galactose_31.xml

Human Caffeine Metabolism

Computational modeling of human caffeine clearance by the liver.

More information available from
https://github.com/matthiaskoenig/caffeine

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MD5: 34a6ef6e31d04b9ab05649e0cb85f635

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Snapshots
Snapshot 4 (23rd Nov 2017)
Snapshot 3 (15th Sep 2016)
Snapshot 2 (16th Aug 2016)
Snapshot 1 (16th Aug 2016)
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