by Beonchip | Mar 20, 2024 | Be-Doubleflow, Chips, Technical Notes
Introduction Cell fixation and immunostaining are critical techniques in cell biology and biomedical research. Cell fixation is the process of immobilising cells in a particular state, preserving their morphology, and preventing any further changes. This is crucial...
by Beonchip | Feb 19, 2024 | Be-Transflow, Chips, Technical Notes
Researchers from the University of Zaragoza have employed the Be-Transflow device to develop a stratified epithelia-on-a-chip model, highlighting this device as a useful platform for permeability studies. Figure 1 BE-Transflow device. Replicating the permeability of a...
by Beonchip | Jan 12, 2024 | Be-Flow, Chips, Technical Notes
This graphical abstract was partly generated using Servier Medical Art, provided by Servier, licensed under a Creative Commons Attribution 3.0 unparted licence”. Overview One of the strongest advantages of BEOnChip devices is their compatibility with microscopy which...
by Beonchip | Jan 11, 2024 | Be-Gradient, Chips, Technical Notes
Introduction Our new design BE-Gradient Barrier-Free is a device designed for 3D culture where a central chamber is linked with two fluidic lateral channels (Figure 1). The innovation we present is the absence of any physical barrier between the central chamber and...
by Beonchip | Aug 4, 2023 | Be-Doubleflow, Chips, Technical Notes
Introduction In our previous technical note “BE-Doubleflow App. notes: Gut-on-chip 1” we explored our device BE-Doubleflow for gut-on-a-chip (GOC) models in collaboration with AINIA. In that note we compared our device with an insert platform with GOC outperforming...
by Beonchip | Jul 4, 2023 | Be-Flow, Chips, Technical Notes
Overview One of the strongest advantages of BEOnChip devices is their compatibility with microscopy which allows the monitoring of the cell culture overtime or at designated time points. However, there are several cell features that are important to evaluate, such as...
