Cells electrical characterization: dielectric properties, mixture, and modeling theories
N Nasir, M Al Ahmad - Journal of Engineering, 2020 - Wiley Online Library
Electrical detection of biotic materials and their properties is always crucial in Biomedical
Engineering. It emphasizes elaborate analysis of a certain disease diagnosis using …
Engineering. It emphasizes elaborate analysis of a certain disease diagnosis using …
Microfluidic integrated acoustic waving for manipulation of cells and molecules
A Barani, H Paktinat, M Janmaleki… - Biosensors and …, 2016 - Elsevier
Acoustophoresis with its simple and low-cost fabrication, rapid and localized fluid actuation,
compatibility with microfluidic components, and biocompatibility for cellular studies, has …
compatibility with microfluidic components, and biocompatibility for cellular studies, has …
Controlling cell–cell interactions using surface acoustic waves
The interactions between pairs of cells and within multicellular assemblies are critical to
many biological processes such as intercellular communication, tissue and organ formation …
many biological processes such as intercellular communication, tissue and organ formation …
CD81 is dispensable for hepatitis C virus cell-to-cell transmission in hepatoma cells
J Witteveldt, MJ Evans, J Bitzegeio… - Journal of General …, 2009 - microbiologyresearch.org
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 …
engagement with specific cell receptors such as CD81. Recent data have shown that HCV is …
Acoustofluidics 9: Modelling and applications of planar resonant devices for acoustic particle manipulation
P Glynne-Jones, RJ Boltryk, M Hill - Lab on a Chip, 2012 - pubs.rsc.org
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 …
for particle and cell manipulation. These systems rely on the pistonic action of a piezoelectric …
Application of an acoustofluidic perfusion bioreactor for cartilage tissue engineering
Cartilage grafts generated using conventional static tissue engineering strategies are
characterised by low cell viability, suboptimal hyaline cartilage formation and, critically …
characterised by low cell viability, suboptimal hyaline cartilage formation and, critically …
Ultrasound assisted particle and cell manipulation on-chip
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 …
microbubbles. The technology is compatible with existing lab-on-chip techniques and is …
The use of electric fields in tissue engineering: A review
GH Markx - Organogenesis, 2008 - Taylor & Francis
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 …
However, the exploration of the use of electric fields in tissue engineering is only very recent …
Long-term viability and proliferation of alginate-encapsulated 3-D HepG2 aggregates formed in an ultrasound trap
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 …
minimum surface area to volume restriction of spherical microcapsules and allows gelation …
Functional three‐dimensional HepG2 aggregate cultures generated from an ultrasound trap: Comparison with HepG2 spheroids
J Liu, LA Kuznetsova, GO Edwards, J Xu… - Journal of cellular …, 2007 - Wiley Online Library
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 …
cell functionalities in a manner that resembles the in vivo conditions. In the present study, we …