A research team from POSTECH has developed a biodegradable polymer-based delivery system that efficiently transports mRNA. The study was recently published in Biomaterials.

A research team has developed a biodegradable polymer-based delivery system that efficiently transports mRNA. A research team led by Professor Won Jong Kim from the Department of Chemistry at ...

Replacing PEG with PCB in lipid nanoparticles led to potent mRNA vaccines that avoided unwanted immune responses.

Lipid nanoparticles, which delivered the mRNA COVID-19 vaccines ... Nanite takes an engineering approach to polymer-based delivery discovery, Kevlahan says. “When we started Nanite in 2021 ...

A new material developed at Cornell University could significantly improve the delivery and effectiveness of mRNA vaccines by ...

Green and his team tested various materials and ultimately decided to encase a desired mRNA in a polymer-based vessel. Polymers are repetitive ... “The nanoparticle delivery system was able to create ...

MET, a non-lipid polymer delivery system, represents a potential breakthrough in vaccine administration by reducing side effects often associated with lipid-based ... MET for mRNA vaccine delivery ...

Lipid nanoparticles have been studied since the 1960s, but widespread use and optimization of delivery for mRNA therapeutics, including vaccines, really came to the forefront during COVID-19 ...

These findings highlight the potential of polymer-based delivery systems as a safer and more efficient alternative for next-generation mRNA vaccines and gene therapies. Professor Won Jong Kim ...