30/11/2022Researchers at LMU and Charité hospital in Berlin have developed a method for classifying difficult-to-diagnose nasal cavity tumors.
28/11/2022Researchers from Dresden and Vienna reveal link between connectivity of three-dimensional structures in tissues and the emergence of their architecture to help scientists engineer self-organising tissues that mimic human organs.
24/11/2022New drugs made from nanoparticles that can easily penetrate any interface within our bodies are a great hope in medicine. For such hopefuls to reach the market, their safety must be ensured. In this context, it must also be clarified what happens if a substance manages to penetrate the natural barrier between baby and mother, the placenta, in the body of pregnant women.
11/11/2022The costliness of drug development and the limitations of studying physiological processes in the lab are two separate scientific issues that may share the same solution.
10/11/2022Researchers from the Fraunhofer Institute for Biomedical Engineering IBMT have developed the “BioSensoLab“, a mobile biological laboratory with which they can demonstrate new developments to customers and test them together – on site at their companies.
14/10/2022A study led by MedUni Vienna has shown for the first time that different SCLC subtypes have specific molecular characteristics, which is why those affected respond in different ways to cancer treatment.
12/10/2022Synthetic – i. e. artificially produced - cells can imitate certain functions of biological cells. These synthetic cells could open up new medical possibilities in the future.
10/10/2022What happens when we breathe in nanoparticles emitted by a laser printer, for example? Could these nanoparticles damage the respiratory tract or perhaps even other organs? To answer these questions, Fraunhofer researchers are developing the "NanoCube" exposure device.
10/10/2022Scientists from the Division of Immunology at the Leibniz Institute for Immunotherapy (LIT) have now developed new types of synthetic biosensors, so-called artificial immune receptors (AIRs), which can be used to reprogram Treg cells into intelligent "smart" Tregs.
30/09/2022Researchers from Florida Atlantic University’s College of Engineering and Computer Science and Schmidt College of Medicine have developed a placenta-on-a-chip model that mimics the nutrient exchange between the fetus and mother under the influence of placental malaria.
21/09/2022Abnormally high blood sugar (glucose) levels can result in Type 2 diabetes when things go awry with the body's skeletal muscle, which plays a key role in regulating glucose.
20/09/2022The results of the international study involving the Cluster of Excellence PMI also point to a previously unknown process in the development of this chronic inflammatory bowel disease.
13/09/2022A new paper from University of Helsinki, published in Nature Communications, suggests a method for accurately analysing genomics data in cancer archival biopsies.
13/09/2022EU funds research project on cell-based heart repair with 6.1 million euros.
08/10/2019The healthcare market offers a multitude of microscopes that make cells visible to the human eye. The same applies to AI-based software for image analysis. After taking the microscopic images, scientist are faced with large volumes of scans with usually low resolution. Yet when all aspects merge together, they open up a the world of digital pathology.
01/02/2019In vitro processes and animal tests are used to develop new medications and novel therapeutic approaches. However, animal testing raises important ethical concerns. Organ-on-a-chip models promise to be a feasible alternative. In a system the size of a smartphone, organs are connected using artificial circulation.
01/02/2019Organ-on-a-chip systems are technically a great enhancement of medical research because they facilitate testing of active ingredients on cell cultures in the chambers of a plastic chip. This replaces animal testing and improves patient safety. That being said, they are not a true-to-life replication of the human body and can only simulate a few functions and activities.
01/02/2019The liver, nervous tissue or the intestines: all are important human organs that have in the past been tested for their function and compatibility using animal or in vitro test methods. In recent years, TissUse GmbH, a spin-off of the Technical University of Berlin (TU Berlin), has launched multi-organ chip platforms. But that’s not all.