Mini synthetic organism instead of test animals
No one wishes to dispense with the blessings of modern medicine, which took away the dread of many diseases. The flipside of the coin: To ensure that effective and safe medications are available, experiments on animals in research laboratories are indispensable. Throughout the world, researchers are working on alternatives to animal experiments. Yet it is difficult to find a substitute. Because in order to understand the effect of a substance, it is not enough to test the substance on isolated tissue samples or cells. “Most medications work systemically - that is to say, on the organism as a whole. In doing so, toxic substances frequently emerge through metabolic processes, which in turn damage only certain organs,” explains Dr. Frank Sonntag of the Fraunhofer Institute for Material and Beam Technology IWS. Chip simulates human circulatory system Researchers at the Dresden-based institute, working jointly with the Institute for Biotechnology at the Technical University (TU) of Berlin, engineered a new kind of solution that could render the use of animal-based experiments superfluous in medical research: a multi-organ chip that faithfully replicates complex metabolic processes in the human body with startling accuracy. “Our system is a mini-organism on a 1:100,000 scale to the human being,” says Sonntag. Human cells from various organs can be applied to several different positions within the chip. The researchers obtained the cells from blood donations that were made available for research purposes. These “mini-organs” are connected to each other through tiny canals. This way we simulate human blood circulation,” Sonntag explains. Working much like the human heart, a micro-pump continuously transports liquid cell culture medium through infinitesimal micro-channels. The IWS researchers can modify the exact configuration of the chip, i.e. the number of mini-organs and the connection to the micro-channels, specifically to different sets of questions and different applications. With the chip, it is possible to test both the active ingredients in new medications, and also study cosmetics for their skin tolerability. The concept of combining various cell samples with fluid channels has been around for a long while. This new system, however, has two distinct advantages over previous approaches: Thanks to the expertise of the engineers at IWS, the microfluidic system is extremely miniaturized. The pump is capable of channeling the tiniest flow rates of less than 0.5 microliters (µl/s) per second through the channels. This means the relationship between cell sample and liquid media is authentic,” Sonntag explains. If this ratio is incorrect, then that will lead to imprecise results. Secondly, the microfluidic system ensures there is a constant flow of liquid cell culture medium; like human blood, the medium flows continuously through the entire circuit on the chip. That is important, since some types of calls can only present euthentic “body-like” morphology if they are stimulated by a current or flow. To read the whole article visit: http://www.fraunhofer.de/en/press/research-news/2015/february/mini-synthetic-organism-instead-of-test-animals.html(opens in new window)
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