PELONews Summer 2020
Read the latest edition of PELONews with PELOAcademy some topics are GMP, BBB, Dyes &Cell Imaging Reagents, Covid-19, 3D Cell Culture, cancer
Read the latest edition of PELONews with PELOAcademy
some topics are GMP, BBB, Dyes &Cell Imaging Reagents, Covid-19, 3D Cell Culture, cancer
You also want an ePaper? Increase the reach of your titles
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Myell: Get clear pictures of Live Cell Imaging<br />
Myell series is a polymer "superthin" film "which is a novel alternative<br />
tool for cover glass" and offers a new method to make sample for microscope<br />
observation.<br />
By using with Myell series, the samples are prevented from vibrating. This<br />
makes us to get clear picturesin Live Cell Imaging.<br />
*Myell series are NOT sterilized<br />
Myell A/S: Prevent samples from vibrating><br />
When observing cells such as floating cellsor yeast, dropping cell suspension on a glass<br />
bottom dish is general method.<br />
However,this method has a problem that the picture becomes blurry because the cells vibrate<br />
due to their brownian motion.<br />
By wrapping with Myell A/S, the samples on aslide grass are prevented from vibrating. This<br />
makes usto get clear pictures.<br />
Also, pictures hardly blurry even if some droplets are added on samples wrapped with Myell<br />
A/S.<br />
Please click Here!<br />
https://fnkprddata.blob.core.windows.net/domestic/f-img/Image/TUN%<br />
20_myell_wrapping_54sec.mp4<br />
Product Name Code Size<br />
Poro<br />
us<br />
Myell A MYLL-A3 3 sheets -<br />
Myell S MYLL-S10 10 sheets -<br />
Material<br />
Polylactic acid<br />
Myell D MYLC-D10 10 sheets - CYTOP ®<br />
Myell P MYLL-P4 4 sheets 6µm Polylactic acid<br />
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Papers, Papers, Papers<br />
A microfluidic model of human brain (μHuB) for assessment of BBB<br />
Microfluidic cellular models, commonly referred to as “organs-on-chips,” continue to advance the<br />
field of bioengineering via the development of accurate and higher throughput models, captivating<br />
the essence of living human organs.<br />
SynBBB in vitro blood brain barrier (BBB) model allows visualization of cellular interactions and barrier functionality<br />
in real time. Evaluate and quantitate permeability of therapeutics and small molecules across the endothelium<br />
of the BBB in real-time. Unlike BBB models that are membrane-based and arranged in top to bottom architecture<br />
(i.e., Transwell), small molecule transport can be visualized, accessed and quantified in real-time using the SynBBB<br />
model due to its side-by-side architecture.<br />
https://doi.org/10.1002/btm2.10126 by Tyler D. Brown et al