Computational Fluid Dynamics (CFD) is being applied to characterize the fluid flow in different applications. CFD has obtained significant interest in both the medical and engineering community because of its non-invasive character. It can predict the fluid flow characteristics when one or multiple

Last updated on: 10-04-2020 - 09:22

Organisation: Ghent University (UGent)
Status: Still in development, Published in peer reviewed journal
This is a method to study host-microbe interaction in the upper respiratory tract. A physiologically representative epithelial structure, with mucin producing and ciliated cells, is obtained by culturing respiratory epithelial cells at air-liquid interface in Transwell inserts. Optionally,

Last updated on: 28-02-2020 - 10:51

Organisation: Ghent University (UGent)
Status: Still in development, History of use, Internally validated, Published in peer reviewed journal
It is the goal of the DNA-adductomics to search for DNA-adducts that might be formed during interaction with contaminants. The analysis of DNA adducts is performed using ultra-high performance liquid chromatography coupled to hybrid quadrupole-Orbitrap high resolution mass spectrometry. Both the

Last updated on: 12-11-2019 - 11:16

Contact: Lynn Vanhaecke
Organisation: Ghent University (UGent)
Status: Internally validated, Published in peer reviewed journal
Our polar metabolomics profiling and fingerprinting methodology applies ultra-high performance liquid chromatography coupled to hybrid quadrupole-Orbitrap high resolution mass spectrometry. Both the instrumental method, as well as generic extraction protocols for colon tissue, cell cultures, urine,

Last updated on: 12-11-2019 - 11:13

Contact: Lynn Vanhaecke
Organisation: Ghent University (UGent)
Status: Internally validated, Published in peer reviewed journal
The aim of these in vitro digestions is to simulate the gastrointestinal digestion of specific food sources and to identify metabolites that might be formed out of this food source by the residing microbiome. For this purpose, fecal samples will be collected from volunteers and will be prepared as

Last updated on: 12-11-2019 - 10:56

Contact: Lynn Vanhaecke
Organisation: Ghent University (UGent)
Status: Published in peer reviewed journal
Our lipidomics profiling and fingerprinting methodology enables the analysis of all lipids within a biological matrix. These lipids can then be compared between an individual or condition with a specific metabolic state and healthy controls to find biomarkers or pathways that can be related to

Last updated on: 08-11-2019 - 14:12

Contact: Lynn Vanhaecke
Organisation: Ghent University (UGent)
Status: History of use, Internally validated, Published in peer reviewed journal
Three-dimensional (3D) lung epithelial cell models mimic key aspects of the parental tissue, including apical-basolateral polarity and barrier function (Barrila et al. 2010, PMID: 20948552). These 3D cultures are generated using the rotating wall vessel (RWV) bioreactor system, allowing host cells

Last updated on: 08-11-2019 - 13:59

Contact: Aurélie Crabbé
Organisation: Ghent University (UGent)
Status: Published in peer reviewed journal
The Galleria mellonella assay makes use of larvae of the Greater Wax Moth. G. mellonella larvae are injected with a small amount of microorganisms, and survival can easily be followed for up to 1 week. This allows to compare virulence between different organisms. Alternatively, after injection of

Last updated on: 08-11-2019 - 13:58

Contact: Tom Coenye
Organisation: Ghent University (UGent)
Status: Published in peer reviewed journal
The C. elegans assay can be used to study the virulence of various microorganisms, and can be used to evaluate the antimicrobial effect of drugs or drug candidates. The two main outcome parameters are (i) survival of C. elegans and (ii) microbial load.

Last updated on: 08-11-2019 - 13:57

Contact: Tom Coenye
Organisation: Ghent University (UGent)
Status: Published in peer reviewed journal
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

Contact: Patrick Segers
Organisation: Ghent University (UGent)