A company focused on regulating immune response through nanoparticle technology, Cour Pharmaceuticals Development Co. Inc. has raised $105 million in a series A round to move its lead autoimmune disease products into phase IIa trials.
A team from the University of Geneva (UNIGE) in Switzerland and the Ludwig Maximilian University of Munich in Germany has succeeded in developing a fully biodegradable nanoparticle able to deliver a new anti-inflammatory drug directly into macrophages where an uncontrolled inflammatory response has been triggered.
DUBLIN – Sisaf Ltd. has exercised an option on an Italian preclinical program to treat a rare bone disorder, autosomal dominant osteopetrosis type 2, with an siRNA molecule, which it will deliver with its in-house Bio-courier technology.
DUBLIN – Auris Medical Holding Ltd., an early pioneer of targeted therapy for hearing disorders, is planning to exit the field and pivot into RNA-based therapeutics by acquiring a U.S. firm, Trasir Therapeutics Inc., which has developed an oligonucleotide delivery platform for delivery of short interfering RNA and other therapeutic RNA payloads to sites outside the liver.
LONDON – A year on from delivering positive phase IIb data, Oculis SA has raised $57 million in an oversubscribed series C, to take OCS-01, a topical nanoparticle formulation of dexamethasone, through two phase III trials.
Hafnium nanoparticles that home onto microfractures in bone make the tiny cracks visible in spectral or color computed tomography (CT) imaging. Researchers at the University of Illinois at Urbana-Champaign and the University of Maryland created the nanotechnology to work in conjunction with spectral molecular imaging developed by New Zealand-based MARS Bioimaging Ltd. (MBI). The research appeared in Advanced Functional Materials.
A team led by researchers at Washington State University (WSU) has developed a nanoparticle technology to deliver cell-killing drugs to shut down the overactive immune response that can cause damage or death in diseases like stroke and sepsis without affecting other cell types or compromising the immune system.
A team led by researchers at Washington State University (WSU) has developed a nanoparticle technology to deliver cell-killing drugs to shut down the overactive immune response that can cause damage or death in diseases like stroke and sepsis without affecting other cell types or compromising the immune system.
PARIS – Myriade SAS reported the commercial launch of its Videodrop technology at the second congress of the French Society of Extracellular Vesicles (FSEV) held in October in Nantes. This new nanoscale imaging technique captures all nanoparticles ranging from 30 nm to 10 μm in a droplet of solution (5-10μl volume), without initial data labeling.