A new study shows that lipid nanoparticles restructure their membrane significantly after being absorbed into a cell and ...

A team from the Max-Planck-Institut für Kohlenforschung, Hokkaido University, and Osaka University has discovered that subtle differences in molecular structure can have a major impact on the ...

A study from FAU has shown that lipid nanoparticles restructure their membrane significantly after being absorbed into a cell ...

As lipid-based nanoparticles continue to revolutionize therapeutic delivery, this guide will provide cutting-edge insights, emerging applications, and expert strategies to help you stay at the ...

Nanomedicine shows great promise in drug delivery due to its versatility in drug loading and ability to target the tissue of interest; however, its current applicability is significantly hindered by ...

Scientists have developed a lipid nanoparticle system capable of delivering messenger RNA (mRNA) to the brain via intravenous injection, a challenge that has long been limited by the protective nature ...

Messenger ribonucleic acid (mRNA)-based therapeutics and the potential of mRNA as a treatment for various conditions has been researched for decades. A key challenge remains finding a delivery system ...

LNPs consist of ionizable lipids, which are critical for encapsulating RNA and enabling cellular uptake. Helper lipids contribute to the structural integrity and fusion with cell membranes.

Lipid-based nanoparticles (LNPs) are becoming an essential platform in pharmaceutical research and manufacturing. They’re used to improve the delivery of mRNA, enhance the absorption of poorly ...