The challenge is that the tumor immune microenvironment is not a static backdrop but a constantly shifting ecosystem shaped by cancer cells, immune cells, stromal cells, cytokines, and physical ...

Active microvalves and passive microvalves in microfluidic chips. (A) Typical structure of active microvalve: sliding arm. PDMS structures contain a guiding channel and a fluidic channel and were ...

The Microfluidics Market has emerged as one of the most transformative segments within modern biotechnology, diagnostics, and pharmaceutical research. Microfluidics refers to the technology that ...

Organoid-on-chip technology merges patient-derived organoids with microfluidic engineering to recreate human physiology and predict drug responses with high precision. This innovation is reshaping ...

A new microfluidic technology that leverages immune cell behavior is set to transform cancer monitoring, thanks to researchers at UNIST. Led by Professor Joo Hun Kang in the Department of Biomedical ...

A research team led by Associate Professor Yang Ke from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences, in collaboration with the First Affiliated Hospital of Anhui ...

Imagine 3D-printed microfluidic devices that can monitor your health in real-time, or flexible sensors seamlessly integrated into your clothing for continuous physiological tracking. In the realm of ...

Layered drug nanoparticles can now be produced efficiently and at scale using a microfluidic method that eliminates purification and improves consistency. Since its adaptation to nanoscale materials, ...

Navigating the Future of Cancer Diagnostics and Liquid BiopsyThe global healthcare landscape is witnessing a massive shift ...

Figuring out how to keep a chip cool is one of the biggest challenges to designing a more powerful and sustainable chip. Microsoft says it’s making progress on a new solution. Figuring out how to ...