We study the influence of food parameters on the digestive kinetics of diverse nutrients throughout the upper gastrointestinal tract. For this, we use a static in vitro digestion protocol based on the standardized, consensus method recommended by the INFOGEST consortium. Briefly, the food is first

Last updated on: 31-03-2020 - 21:01

Contact: Tara Grauwet
Organisation: KU Leuven
Partners: INFOGEST consortium
Status: Published in peer reviewed journal
The objective of this ex-vivo model is to study the initial pulp-tissue reaction of the human pulp tissue to different pulp-capping materials. Methodology: Freshly-extracted (mainly due to orthodontic reasons) healthy human teeth (impacted third molars) from young individuals (15-20 years old)

Last updated on: 24-03-2020 - 16:32

Contact: Mariano Pedano
Organisation: KU Leuven
Partners: Aix-Marseille University
Status: History of use, Internally validated, Published in peer reviewed journal
Most of the current rigid-body models of the complete thoracolumbar spine do not properly model the intervertebral joint as the highly nonlinear stiffness is not incorporated comprehensively and the effects of compressive load on stiffness are commonly being neglected. Based on published in vitro

Last updated on: 19-03-2020 - 11:07

Contact: Wei Wang
Organisation: KU Leuven
Partners: Shanghai Jiao Tong University
Status: Published in peer reviewed journal
Design and fabrication of microfluidic devices that allow manipulation and analysis of (single) cells. Droplet-based as well as digital microfluidics can be applied and are suitable for a wide variety of (non-adherent) cells. Different materials can be used for the fabrication of the microfluidic

Last updated on: 10-03-2020 - 14:54

Contact: Cannot be disclosed
Organisation: KU Leuven
Status: Still in development, Published in peer reviewed journal
The method is an approach to systematically study the impact of the nutrient microenvironment on the metabolism of effector CD8+ T cells, based on performing stable 13C isotope labeling measurements on in vitro-differentiated murine effector CD8+ T cells. Naive CD8+ T cells are isolated from mouse

Last updated on: 05-03-2020 - 14:59

Contact: Dorien Broekaert
Organisation: KU Leuven, VIB KU Leuven
Status: Published in peer reviewed journal
Organotypic epithelial raft cultures accurately reproduce the process of epithelial differentiation in vitro and can be prepared from normal keratinocytes, explanted epithelial tissue, or established cell lines. Normal primary human keratinocytes (PHKs) stratify and fully differentiate in a manner

Last updated on: 04-03-2020 - 14:34

Contact: Graciela Andrei
Organisation: KU Leuven
Status: History of use, Internally validated, Published in peer reviewed journal
This white-box model uses energy partitioning throughout the lifetime of dairy animals (growth, lactation, gestation, ...) to simulate reproduction performance, lifetime length, production performance etc. The method is developed by dr. Olivier Martin at INRAE, MoSAR, Paris.

Last updated on: 04-03-2020 - 14:23

Contact: Cannot be disclosed
Organisation: Cannot be disclosed
Status: History of use, Published in peer reviewed journal
Brain from treated and not treated mice is collected after death. Tissue is fixed in 4% PFA for 4 days. After specific cutting (ex. L and R hemisphere) tissue is placed in a cassette. Cassette is placed in Tissue Processor (where water from the tissue is removed and replaced with paraffin). Brain is

Last updated on: 04-03-2020 - 14:20

Contact: Cannot be disclosed
Organisation: KU Leuven, KU Leuven
Status: History of use, Internally validated
Since adult zebrafish retinal ganglion cells (RGCs) can fully regenerate upon axonal injury, these neurons form the ideal subject to study what is driving the recovery process. The use of an adult zebrafish retinal cell culture in a microfluidic set-up enables to create a neuronal network, mimicking

Last updated on: 02-03-2020 - 16:01

Organisation: KU Leuven
Status: Still in development
We use stem cell-derived sensory neurons and via a small molecule-based protocol (Young et al, 2014) we derive them into human sensory neurons with a nociceptor phenotype (express somatosensory ion channels).

Last updated on: 28-02-2020 - 10:49

Contact: Cannot be disclosed
Organisation: Cannot be disclosed
Status: Still in development, Published in peer reviewed journal