In biomedical research, so-called organs-on-a-chip, also referred to as microphysiological systems, are becoming increasingly ...

Using this technology, the research team investigated ... More information: Jooyoung Ro et al, ODSEI Chip: An Open 3D Microfluidic Platform for Studying Tumor Spheroid‐Endothelial Interactions ...

Femtosecond source produces precise, stable channels for blood supply in tissue models. The breakthrough, described in ...

Researchers have established a method to create a network of perfusable blood vessels in organs-on-chips, enabling better ...

Engineers from Texas A University (TAMU) have developed a groundbreaking tiny chip that mimics real human blood vessels, ...

Miniature organs on a chip could allow us to do scientific studies with great precision, without having to resort to animal testing. The main problem, however, is that artificial tissue needs blood ...

Organ-on-a-chip technology, which uses human cells on microfluidic chips to mimic the structure and function of organs in a ...

Researchers have developed a 3D micro-printed sensor for highly sensitive on-chip biosensing. The sensor, which is based on a ...

Combining microfluidics and electrochemical sensing, this biosensor improves CD4+ T cell detection, promoting accessible HIV ...

A new microfluidic device promises to revolutionize kidney disease screening by enabling rapid, accurate, and low-cost ...