Human based 3D liver models
Human-based in vitro models are increasingly being used in the hepatology field. And in addition to the obvious ethical arguments, they offer several advantages over the classical animal models. One of them is the ability to perform mechanistic research at the molecular level in a well-controlled setting and reduce species differences. These liver-based in vitro models can range from simple monolayer cultures of hepatocytes to the liver-on-chips systems in which all liver cells are cultured in a 3D configuration on a microfluidic platform. Liver-based in vitro models must be selected on a case-by-case basis and should fit the purpose of the research, which might go from fundamental to translational research.
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InnovationPolicyBeginner
TPI.tv: improving science through animal-free innovations and research
Introducing TPI.tv : a video platform by experts striving to improve science through animal-free innovations and research.
TPI.tv videos
Five simple tricks for making your own video for TPI.tv
This video shows you how to make a video yourself. It's really not that difficult! See also the submission page (https://tpi.tv/submit-a-video) for additional information.
Innovation examples
HealthInnovationIn vitro
Thyroid Hormone & Brain Development: animal-free models for human safety assessment
The environment can have a significant impact on a child's health even before birth. Brain development begins in the first trimester and continues until the age of 25, with thyroid hormone playing a critical role. During early pregnancy, the fetus depends on the mother's thyroid hormone, and a disruption in the thyroid hormone balance can lead to cognitive and motor impairments in the child. As part of the VHP4Safety project, we are developing in vitro tests to measure the developmental neurotoxic effects caused by disturbances thyroid hormone concentrations. Current testing guidelines do not always include testing for neurodevelopmental effects, highlighting the need for new non-animal methods. At the Erasmus Medical Center, human cell lines representing brain cell types are cultured to study the effect of chemicals on the thyroid hormone balance. RIVM uses human stem cells to create neuron-astrocyte networks that mimic brain development. By combining these different assays and models, we are creating a comprehensive human-based testing strategy to assess developmental neurotoxicity. These advances are a critical step toward eliminating animal testing while protecting the health and environment of future generations.
Projects and initiatives
HealthToxicologyIn vitro
RISKHUNT3R project – interview by TOXstreams
Many studies are focused on finding the next best tool or test to assess the risk associated with chemical exposure. That is all well and good, but even the perfect assay needs to be accepted by regulators before seeing the light of the day. And how do we do that? The guests in this webinar have some ideas on that as principal investigators of the EU project RISK HUNT3R. Prof. Bob van de Water, Dr Mirjam Luijten and Dr Andrew White explain what RISK HUNT3R is doing, what next generation risk assessment means and why it is so important. Click on the link in the video to watch the whole interview.