BiomimX S.r.l. is an Italian Innovative Startup Company, Spin-off of Politecnico di Milano, pioneer in the generation of predictive in vitro models of human organs and pathologies that will revolutionize the way to test new drugs. Integrating 3D cell culture, mechanical stimulation (uBeat technology) and electrical recording capabilities (uECG technology), BiomimX proposes the next generation of beating organs-on-chips, leading to more reliable, fast responsive and affordable pre-clinical models for screening drug and medical devices (MD) for efficacy and safety in reliable in vitro preclinical models. BiomimX organs’ portfolio currently includes uHeart, a human beating heart-on-chip, and uKnee, the first model of human osteoarthritic (OA) joint. BiomimX’s R&D Team is constantly developing new in vitro models of organs/diseases, all based on BiomimX’s pillar technology (uBeat) that will eventually enter the pipeline.
BiomimX is ready to offer its in vitro human advanced models as visionary tools for reducing (and eventually replacing) animal testing in preclinical development, in line with legislations on 3R principle, pushing worldwide Pharma towards methods alternative to animals for drug/MD testing.
BiomimX vision is to be at the forefront of the OOC revolution. BiomimX strongly believes that OOC technology represents the unavoidable future in the drug development market. In the last few years, OOC companies have raised large investments for developing their organ portfolios, thus gaining the attention of Big Pharma. With the support of EU H2020 and exploiting its pillar uBeat technology, BiomimX is the first in selling beating organs-on-chip, i.e. OOC modelling tissues that are physiologically subject to mechanical stimulation, with the goal of acquiring in the next 5 years a consistent segment of the fast-growing OOC market in Europe (30%) and worldwide (10%). Notably, other than the heart, BiomimX’s R&D Team is constantly working on the development of in vitro models of different organs/diseases that will eventually be inserted in its pipeline.