HCS Pharma will be present at next ELRIG event “Research and Innovation 2023 – Accelerating future DD” in Cambridge on March 29 and 30th

We are pleased to participate in ELRIG event about Research an Innovation 2023 – Accelerating future drug discovery” in Cambridge on March 29 and 30th 2023. Veronique De Conto, our project leader in in vitro Pharmacology, is very happy to meet with you and to present you our disruptive technology Read more…

Animal tests no longer necessary before drug clinical trials? Let’s make it in 3D in preclinical studies… and with the extracellular matrix!

End of last year, the american legislation has ratified that new drugs no longer need to be tested in animals to receive Food and Drug Administration (FDA) approval. This is a huge step toward animal-free validation of drugs, but it requires the design of a relevant and more predictive drug Read more…

Presentation of BIOMIMESYS technology, the first organ-specific in vitro ECM, to develop innovative and predictive 3D cellular models for drug discovery – Academia Sinica, the 1st of November 2022

BIOMIMESYS® is a patented 3D matrix reproducing the physicochemical properties of the extracellular matrix (ECM), different from classical hydrogels used for 3D cell culture. It is composed of native ECM components: Hyaluronic Acid (HA) combined with collagens, adhesion peptides… in the form of a unique hydroscaffold, i.e. exhibiting a dual Read more…

Webinar : Organ-on-chips including BIOMIMESYS® for toxicology and oncology programmes, December 14 & 16

Industry and academia are increasingly complexifying their in vitro models, not only 3D models but also organs-on-chip (OoC) in their studies. Such systems are needed for putting different tissues into contact, or to take into account flux-related aspects. BIOMIMESYS® being an ideal hydroscaffold™ for 3D cell culture, this webinar aims Read more…

Poster – Including the matricial tumoral microenvironment in 3D in vitro models by using a Hyaluronic-Acid-based hydroscaffold™

Abstract: In oncology, 97% of drug candidates fail in clinical trials. This highlights a lack of relevance of preclinical models used upstream. Indeed, human in vitro models don’t consider the Tumoral Extracellular Matrix (TECM). However, more and more studies demonstrate that ECM composition and stiffness are modified in tumors and Read more…