Computational neuroscience aims to study the nervous system by mathematical and computer simulations. Computational models can be built on multilevel scales. With the bottom-up approach, the model is built from the same building blocks as observed in human or animal tissue. As such, the functioning
Last updated on: 13-02-2023 - 16:45
Contact: Cannot be disclosed
Organisation: Ghent University (UGent)
Status: Still in development, Published in peer reviewed journal
Molecules are descripted by hundreds to thousands different descriptors (e.g. molecular weight, pI, log P,...) after which they can be clustered in different classes.
Last updated on: 08-11-2019 - 14:05
Contact: Yorick Janssens
Organisation: Ghent University (UGent)
Status: Published in peer reviewed journal
Biomechanical modelling used to simulate functional performance of skeleton and muscle systems in vertebrates. For studying how tissues respond to mechanical loading during movement, we apply finite element modelling. For studying how muscles interact with skeletal elements, and how they make them
Last updated on: 08-11-2019 - 11:05
Contact: Dominique Adriaens
Organisation: Ghent University (UGent)
Partners: Hull University
Status: History of use
The scope of our research ranges from the study of flow and transport processes in blood and biological fluids in the cardiovascular system and artificial organs to biomechanical aspects of the cardiovascular and the skeleto-muscular system and medical devices. All research tracks explored by our
Last updated on: 08-11-2019 - 11:02