SEEK ID: https://fairdomhub.org/assays/405
Investigation: MM-PLF: Multiscale modeling for personalized liver function
Biological problem addressed: Model Analysis Type
Organisms: No organisms
Created: 16th Aug 2016 at 16:19
Last updated: 8th Nov 2017 at 15:21
Projects: Kinetics on the move - Workshop 2016, Multi-Scale Models for Personalized Liver Function Tests (LiSyM-MM-PLF), FAIRDOM user meeting, COMBINE Multicellular Modelling, FAIRDOM & LiSyM & de.NBI Data Structuring Trainingorcid.org/0000-0003-1725-179X
We are investigating liver metabolism and function with the help of computational models and methods.
Read more about the LiSyM junior group at: www.livermetabolism.com
Junior Group Leader
Dr. Matthias König
Institute for Theoretical Biology
Invalidenstraße 43, 10117 Berlin, Germany
phone +49 30 2093-8450
The liver is the central metabolic organ of our body playing a crucial role in the clearance of drugs, xenobiotics and numerous metabolites
We will contribute to the LiSyM Research Network an open source, freely available and reproducible multiscale model of the human liver from single cell metabolism to whole liver function. The model will be available in existing standards of systems biology, provide standardized interfaces for data integration and be fully annotated to available biological, medical and computational ontologies. All data, models and source code will be shared within the LiSyM Research Network and made available to
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.
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
Person responsible: Matthias König
Snapshots: No snapshots
Investigation: MM-PLF: Multiscale modeling for personalized li...
Assays: Galactose Modelling
Creator: Matthias König
Contributor: Matthias König
Model type: Ordinary differential equations (ODE)
Model format: SBML
Environment: Not specified
Organism: Homo sapiens
Investigations: MM-PLF: Multiscale modeling for personalized li...
Modelling analyses: Galactose Modelling