Replace: Development of new alternative methods for animal testing
In the following you will find current research projects of the Bf3R, which are dedicated to the replacement of animal experiments by alternative methods.
A search engine for alternative methods to animal experiments is being developed, based on the freely accessible life science literature database PubMed (Medline). SMAFIRA' stands for 'SMArt Feature based Interactive RAnking'.
Some chemicals and pesticides can affect the endocrine system in humans. Alternative methods can help to identify substances with oestrogenic effects in a high-throughput procedure.
For the development of alternative methods to animal testing, imaging microscopic techniques, such as high-throughput imaging, are often used.
We establish and perform phenotypic screening approaches to identify effects of environmental chemicals on cellular morphologies and protein distributions. The results support the toxicological assessment of environmental chemicals without animal tes...
How do the physiological characteristics of humans and animals behave? This includes the "internal clock", which as a clock generator regulates such vital processes as body temperature, cardiovascular activity and metabolic activity. To answer...
Breast cancer is the most common cause of cancer death in women worldwide and, together with colorectal cancer, is one of the two most common types of cancer in Germany. The aim of the project is to use cell culture-based biomedical basic research to...
The aim of the project is to establish synthetic embryos, so-called embryoids, which represent a physiological and functional in vitro model of mammalian embryogenesis. The model will be used to identify harmful substances. The model is an alternativ...
The nematode Caenorhabditis elegans (C. elegans) has long been used in basic research. Bf3R is investigating the importance of C. elegans as an alternative test system to animal testing in toxicology for the identification of potential health risks o...
Animal models are still indispensable for research into the development of bone and for biomedical studies of bone diseases. Organ chip systems are a possible alternative.
