insights from industryEmily RichardsonLead ScientistCN-BioIn our latest interview, NewsMedical speaks with CN Bio about the translatability between in vitro Organ-on-a-chip (OOC) models, also known as ...

Draper scientists have successfully produced an extended recirculation of immune cells in a high-throughput microphysiological system (MPS). The studies achieved long-term recirculation (up to 24 ...

The authors developed a patient-specific microphysiological system using the LumeNEXT microfluidic platform to more accurately recreate the prostate cancer metastatic bone tumor microenvironment.

The FDA recently announced its plan to phase out the animal testing requirement for monoclonal antibodies (mAbs) and other drugs, instead opting to use human-relevant new approach methodologies (NAMs) ...

On a recent Tuesday, biomedical engineering students gathered in Clark Hall to see the fruits of their labor. After spending the better part of two weeks coaxing human induced pluripotent stem cells, ...

A microphysiological system is a 3D in vitro model that mimics human tissue environments with high physiological relevance. This approach enhances our understanding of disease mechanisms, drug ...

The global incidence of cancer is on a steady rise, with a projected annual diagnosis rate of nearly 30 million cases by 2040. Despite this alarming trend, our understanding of the intricate ...

Researchers at the University of Rochester are developing microphysiological systems (MPS)— small chips with ultrathin membranes supporting 3D networks of human cells, also known as “tissue chips”—to ...

Los Angeles, CA - May 27, 2025 – Scientists at the Terasaki Institute for Biomedical Innovation (TIBI), led by Dr. Vadim Jucaud (Assistant Professor), have engineered a novel multi-cellular 3D ...

CAMBRIDGE, England--(BUSINESS WIRE)--CN Bio, a leading developer of single and multi-organ microphysiological systems (MPS), otherwise known as organ-on-a-chip (OOC), today announced the commercial ...

The U.S. government has recognized the expansion of the biological threat landscape, as evidenced by the guidance and priority missions outlined in various documents, including the 2023 Department of ...

Thomas Chen and colleagues design a microphysiological system for the study of intestinal mouse epithelial tissue under physiological conditions in an ex-vivo environment. Using their apparatus they ...