Left to right - Dr. Riccardo Rampado & Prof. Dan Peer. Researchers at Tel Aviv University have achieved a breakthrough in ...

A research team has developed a biodegradable polymer-based delivery system that efficiently transports mRNA.

To present the pioneering concept, Peer and his team encoded the anti-inflammatory protein interleukin-10 into mRNA and ...

A research team from POSTECH has developed a biodegradable polymer-based delivery system that efficiently transports mRNA.

The LNP-mRNA modality is a novel approach that uses lipid nanoparticles to deliver messenger RNA into cells. The mRNA acts as ...

A research team led by Professor Won Jong Kim from the Department of Chemistry at POSTECH, in collaboration with the Korea ...

A similar challenge arises at the microscopic level when lipid nanoparticles (LNPs) -- the revolutionary drug delivery vehicles behind the COVID-19 vaccines -- attempt to deliver mRNA to cells.

A similar challenge arises at the microscopic level when lipid nanoparticles (LNPs) - the revolutionary drug delivery vehicles behind the COVID-19 vaccines - attempt to deliver mRNA to cells.

The main applications for mRNA include immunotherapy, protein replacement therapy, genvomic editing, and regenerative medicine therapy, and notably vaccines. Lipid nanoparticles (LNPs) are the ...

Genetic medicines could treat certain diseases, however, the current delivery systems available—viral vectors and lipid nanoparticles (LNPs)—pose unique challenges for gene therapy applications. For ...

Since the COVID-19 pandemic, global interest in mRNA vaccines has surged. Among existing delivery methods, lipid nanoparticles (LNPs) are widely used due to their high efficiency. However ...