Single-cell microfluidic impedance cytometry: From raw signals to cell phenotypes using data analytics
The biophysical analysis of single-cells by microfluidic impedance cytometry is emerging as
a label-free and high-throughput means to stratify the heterogeneity of cellular systems …
a label-free and high-throughput means to stratify the heterogeneity of cellular systems …
In vitro methods for measuring the permeability of cell monolayers
R Bednarek - Methods and protocols, 2022 - mdpi.com
Cell monolayers, including endothelial and epithelial cells, play crucial roles in regulating
the transport of biomolecules to underlying tissues and structures via intercellular junctions …
the transport of biomolecules to underlying tissues and structures via intercellular junctions …
Conformational-switch biosensors as novel tools to support continuous, real-time molecular monitoring in lab-on-a-chip devices
Recent years have seen continued expansion of the functionality of lab on a chip (LOC)
devices. Indeed LOCs now provide scientists and developers with useful and versatile …
devices. Indeed LOCs now provide scientists and developers with useful and versatile …
Recent Development of Implantable Chemical Sensors Utilizing Flexible and Biodegradable Materials for Biomedical Applications
Implantable chemical sensors built with flexible and biodegradable materials exhibit
immense potential for seamless integration with biological systems by matching the …
immense potential for seamless integration with biological systems by matching the …
Roadmap for electrical impedance spectroscopy for sensing: a tutorial
Electrical impedance spectroscopy has been used extensively for sensing and biosensing
due to the multiple electrical properties that can be interrogated through varying the …
due to the multiple electrical properties that can be interrogated through varying the …
Opportunities in optical and electrical single-cell technologies to study microbial ecosystems
F Mermans, V Mattelin, R Van den Eeckhoudt… - Frontiers in …, 2023 - frontiersin.org
New techniques are revolutionizing single-cell research, allowing us to study microbes at
unprecedented scales and in unparalleled depth. This review highlights the state-of-the-art …
unprecedented scales and in unparalleled depth. This review highlights the state-of-the-art …
Label-free live cell recognition and tracking for biological discoveries and translational applications
Label-free, live cell recognition (ie instance segmentation) and tracking using computer
vision-aided recognition can be a powerful tool that rapidly generates multi-modal readouts …
vision-aided recognition can be a powerful tool that rapidly generates multi-modal readouts …
Impedance imaging of cells and tissues: Design and applications
Due to their label-free and noninvasive nature, impedance measurements have attracted
increasing interest in biological research. Advances in microfabrication and integrated …
increasing interest in biological research. Advances in microfabrication and integrated …
A wearable CMOS impedance to frequency sensing system for non-invasive impedance measurements
A Hedayatipour, S Aslanzadeh… - … Circuits and Systems, 2020 - ieeexplore.ieee.org
In this paper, we demonstrate a novel non-invasive, wearable impedance sensor. The
impedance sensor, using an impedance to frequency measurement, with two modes of …
impedance sensor, using an impedance to frequency measurement, with two modes of …
A semiconductor 96-microplate platform for electrical-imaging based high-throughput phenotypic screening
S Chitale, W Wu, A Mukherjee, H Lannon… - Nature …, 2023 - nature.com
High-content imaging for compound and genetic profiling is popular for drug discovery but
limited to endpoint images of fixed cells. Conversely, electronic-based devices offer label …
limited to endpoint images of fixed cells. Conversely, electronic-based devices offer label …