Polymeric Nanocarrier Formulations of Biologics Using Inverse Flash NanoPrecipitation

The encapsulation of water-soluble therapeutics and biologics into nanocarriers to produce novel therapeutics has been envisioned for decades, but clinical translation has been hampered by complex synthesis strategies. The methods that have been developed are often limited by poor encapsulation efficiency/loading or complex processing to achieve therapeutic loadings high enough to be medically relevant. To address this unmet need, we introduce a solubility-driven self-assembly process to form polymeric nanocarriers comprising a biologic in a hydrophilic core, encapsulated by a poly(lactic acid) shell, and stabilized by a poly(ethylene glycol) brush. Called “inverse Flash NanoPrecipitation (iFNP),” the technique achieves biologic loadings (wt% of total formulation) that are 5–15× higher than typical values (9–27% versus