Accelerate to Discover
Related topics
Method to quantify local force distribution within biomolecular systems
May 24, 2018
The journal Nano Letters has recently published the article “Quantifying Local Molecular Tension Using Intercalated DNA...
Registering FDG/PET mouse and AMYViD/PET-CT rat studies to brain VOI atlases
May 22, 2018
Preclinical NeuroPET is employed widely in studies of stroke, ischemia, addiction and eurodegenerative diseases. In...
Cobalt (II) ions and nanoparticles induce macrophage retention by ROS-mediated down-regulation
May 21, 2018
Adverse tissue responses to metal wear and corrosion products from CoCr alloy implants remain a great challenge to...
New protocol: Analyze small extracellular RNAs with PippinHT
May 18, 2018
We’re pleased to see that PippinHT is featured heavily in the protocol for DNA sizing steps following PCR...
Genoox, Bionano collaborate to enhance the detection of pathogenic SVs
May 14, 2018
Bionano is now working with the global health company Genoox to develop a genome informatics workflow to integrate and...
Outstanding return on investment with the xxpress qPCR thermal cycler
May 10, 2018
Find out just how much money you could save by switching to the xxpress qPCR thermal cycler,visit the cost savings...
AVATAR Improves transfection efficiency with high viability
May 9, 2018
AVATAR lets you create any cell type even novel ones, with efficient transfection that improves reprogramming rates...
Creating a bold new future in ultrasound and photoacoustics
May 4, 2018
Fujifilm VisualSonics has been chosen as one of the top 10 visualization solution providers in the field of developing...
Mar 22, 2016
Researchers at Lund University have used HoloMonitor technology from Phase Holographic Imaging to investigate the behavior of cells when cultivated on nanowires. The findings were recently published in Scientific Reports – an online journal published by Nature Publishing Group.
Using HoloMonitor the researchers investigated the effects of nanowire density on cell movement, division and morphology. The results provide guidelines to minimize cellular stress on nanowire arrays. Additionally, the findings show that cell behavior can be controlled by adjusting nanowire density, which may have applications in drug development.
“Nature Publishing Group is the most prestigious scientific publisher. Nature’s publication is a milestone and the highlight of the publications in 2015.14publications were published in 2015, which is an increase by 100 % compared to 2014. In total well over 40 scientific publications have now been published,in which our HoloMonitor technology plays a significant role”, said CEO Peter Egelberg.
Brand profile
Holographic technology allows the long-term behavior of living cells to be observed and quantified without toxic stains.
More info at:
www.phiab.se
BioFocus newsletter
Register to receive Brand new technology development, Important product updates, Interesting scientific events and more!
BioTech a.s. © 2014
Designed & developed by imagineit
Technologies
