Poster – BIOMIMESYS® 3D hydroscaffold a matricial microenvironment for physiological organs-on-chip (OoC)

How to make in vitro models predictive of in vivo conditions? Dynamic models hold promise for future predictive microphysiological systems (MPS). By combining BIOMIMESYS® as an ECM surrogate for 3D culture, and hiPSC-derived cells, these dynamic microfluidic systems will revolutionize the field, reproducing human tissues and predict human outcomes.

BIOMIMESYS® Adipose tissue

Regulation of lipid accumulation : application with BIOMIMESYS® Adipose tissue

Retinoic acid and Caffeine are reference molecules known for their inhibitory activity on lipogenesis. Retinoic acid, a derivative of vitamin A, inhibits adipogenesis by blocking adipogenic factors such as PPARγ2 and C / EBPα, via the Retinoic acid receptor (RAR) ligand (1). Caffeine, a non-selective adenosine antagonist receptor, is used Read more…

Robin and Orégane join us to develop a microfluidic system for mechanical sollicitation of cancer spheroids

As part of their engineering studies at ISEN Lille for a master’s degree specialized in Bionanotechnologies, Robin and Orégane arrived in HCS Pharma in May 2021 for a 4-month internship. Their work in HCS Pharma follows a student project during which they designed and computationally simulated a microfluidic device capable Read more…

Our next webinar with Molecular Devices : A physiologically-relevant 3D ECM for in vitro oncology research and intelligent high-content imaging of 3D models

We are very happy to invite you to our next webinar about 3D cellular cancer models and our BIOMIMESYS® Oncology matrix which allows cancer cells to be cultured in a tumor-like environment, with the possibility to tune the composition and stiffness of the matrix. We will also share our best Read more…