Electrical detection of biotic materials and their properties is always crucial in Biomedical
Engineering. It emphasizes elaborate analysis of a certain disease diagnosis using …

Acoustophoresis with its simple and low-cost fabrication, rapid and localized fluid actuation,
compatibility with microfluidic components, and biocompatibility for cellular studies, has …

The interactions between pairs of cells and within multicellular assemblies are critical to
many biological processes such as intercellular communication, tissue and organ formation …

Hepatitis C virus (HCV) infects cells by the direct uptake of cell-free virus following virus
engagement with specific cell receptors such as CD81. Recent data have shown that HCV is …

This article introduces the design, construction and applications of planar resonant devices
for particle and cell manipulation. These systems rely on the pistonic action of a piezoelectric …

Cartilage grafts generated using conventional static tissue engineering strategies are
characterised by low cell viability, suboptimal hyaline cartilage formation and, critically …

Ultrasonic fields are able to exert forces on cells and other micron-scale particles, including
microbubbles. The technology is compatible with existing lab-on-chip techniques and is …

The use of electric fields for measuring cell and tissue properties has a long history.
However, the exploration of the use of electric fields in tissue engineering is only very recent …

We report proof of principle here of a gel encapsulation technique that departs from the
minimum surface area to volume restriction of spherical microcapsules and allows gelation …

Three‐dimensional culture systems are an ideal in vitro model being capable of sustaining
cell functionalities in a manner that resembles the in vivo conditions. In the present study, we …