The VenaFlux Platform is the first semi-automated microfluidic platform capable of executing cell rolling, binding, adhesion and migration studies under shear flow mimicking in vivo flow rates.

Microfluidic platforms address this limitation by enabling the creation of in vitro models that closely replicate the physiological conditions of the human heart. Microfluidics involves ...

By incorporating electrodes into a chip, these droplets can be manipulated and positioned where required, thus providing a digital microfluidic device. Such an approach has been utilized to ...

Traditional detection methods, while accurate, are often time-consuming and labor-intensive, making rapid detection technologies a pressing need. Microfluidic biosensors have emerged as a powerful ...

Cancer accounted for nearly 10 million deaths in 2020—almost one in every six deaths globally—according to the World Health Organization. Because the detection of abnormal diseased cellular growth ...

Department of Chemistry, Chung-Ang University, Seoul 06974, South Korea ...

This system works as an organ chip, providing an effective platform for in vitro cellular analysis and demonstrating a prospect of microfluidics for physiological environment construction on chips.

In this work we aim at overcoming all these limitations by combining different tools into an integrated optofluidic platform. To achieve small volumes and high throughput we use state-of-the art ...

Explore the innovative world of 3D screen printing. Learn how this additive manufacturing technology from Axenoll and Exentis ...