Microgels as drug carriers for sonopharmacology
Miancheng Zou, Pengkun Zhao, Jilin Fan, Robert Göstl, Andreas Herrmann
Abstract
Abstract The ultrasound‐induced cleavage of covalent and non‐covalent bonds to activate drugs (sonopharmacology) is a promising concept to gain control over the action of active pharmaceutical ingredients by an external trigger. Previously, linear polymer architectures bearing drug payloads were exploited for drug release by using the principles of polymer mechanochemistry. In this work, the carrier design is altered by the polymer topology to improve the ultrasound‐triggered release of covalently anchored drugs from polymer scaffolds. We use microgels crosslinked by mechanoresponsive disulfides and copolymerized with Diels‐Alder adducts of furylated payload molecules and acetylenedicarboxylate. Force‐induced thiol formation induces a Michael‐type addition liberating the payload from the microgels. The use of microgels significantly reduces sonication times compared to linear polymer chains and shields the cargo efficiently from non‐triggered activation using ultrasound that produces inertial cavitation at a frequency of 20 kHz as model condition.