Inflammation Research Articles & Analysis
8 news found
We are proud to introduce Myelotracker®, a peptide-based probe. This unique technology specifically targets lactoferrin, a major protein stored in neutrophil granules, making it possible to visualize and study these immune cells with unmatched precision. Unlike many existing tools, Myelotracker does not activate neutrophils, preserving their natural physiological state and ensuring reliable ...
When combined with fluorescent tags, these peptides allow researchers to visualize neutrophil activity both in vitro and in vivo. This means inflammation can now be tracked in real time, whether during bacterial infections such as Shigella or in animal models of disease. ...
Stefan Schreiber, Professor of Medicine and Gastroenterology at the Christian-Albrechts-University in Kiel, Director of the Clinic for Internal Medicine at the University Hospital Schleswig-Holstein and Leader of Translational Inflammation Research Group in the Kiel University. “It is comforting to see that we still have the option for a benefit-oriented ...
A burst of hydrogen peroxide causes neutrophils, the immune system’s first responders, to rush to the wound to fight microorganisms, remove damaged tissue and then start the inflammation process. University of Wisconsin-Madison researchers now have discovered the molecular sensor that detects wound-induced hydrogen peroxide and orchestrates the marshalling ...
Prior to joining Synlogic, Amanda served as Chief Operating Officer for Pfizer’s Inflammation and Immunology Research Unit, driving development of strategy and operations across portfolio, BD, finance, and HR functions. ...
"Neurent Medical has based its rhinitis device on its extensive research on neuronal activity in the nasal cavity and the cellular makeup of the nasal mucosa. ...
Researchers at INRA, INSERM, AP-HP, and UPMC have just discovered a new protein with anti-inflammatory properties, which has been named MAM (microbial anti-inflammatory molecule). ...
The researchers therefore wanted to determine the most efficient way of testing nanoparticles of metal oxides for their potential to cause inflammation of the lungs without using live animals. Until now, researchers have largely relied on animal tests to test whether nanoparticles could cause inflammation. ...