Microencapsulation of Ionic Liquid by Interfacial Self-Assembly of Metal-Phenolic Network for Efficient Gastric Absorption of Oral Drug Delivery

Abstract: Improving bioavailability of orally delivered drugs is still challenging, as conventional drug delivery systems suffer from non-specific drug delivery in the gastrointestinal (GI) tract and limited drug absorption efficiency. Gastric drug delivery is even more difficult due to the harsh microenvironment, short retention time, and physiologic barriers in the stomach. Here, an oral drug delivery microcapsule system was developed for gastric drug delivery, which consists of ionic liquid (IL) as the inner carrier … Show more

“…32 Similar to other phenolic–metal complexes, the QC complex also exhibited pH sensitivity. 33–35 As shown in Fig. 1e, the overall release of Cu 2+ ions from the QC NPs was greater at pH 5.0 than at pH 7.4 at the specified timepoint, which suggests that the QC complex could undergo dissociation to release Cu 2+ ions and Qe in a mildly acidic environment.…”

Bi-functional quercetin/copper nanoparticles integrating bactericidal and anti-quorum sensing properties for preventing the formation of biofilms

“…32 Similar to other phenolic–metal complexes, the QC complex also exhibited pH sensitivity. 33–35 As shown in Fig. 1e, the overall release of Cu 2+ ions from the QC NPs was greater at pH 5.0 than at pH 7.4 at the specified timepoint, which suggests that the QC complex could undergo dissociation to release Cu 2+ ions and Qe in a mildly acidic environment.…”

Bi-functional quercetin/copper nanoparticles integrating bactericidal and anti-quorum sensing properties for preventing the formation of biofilms

“…8D). 264 Zhou et al used poly(lactide- co -glycolide) as the backbone, choline arginine for protein protection, and vitamin B12-chitosan for mucosal adhesion and pH responsiveness. 278 Choline arginine proved effective in maintaining insulin stability throughout delivery system preparation, transportation, and storage.…”

Ionic liquids revolutionizing biomedicine: recent advances and emerging opportunities

“…These excellent properties highlight the immense potential of MPN coatings as biocompatible capsule membranes (microcapsules). 36 Besides being physically adsorbed onto solid substrates (e.g., organic and inorganic materials) for prolonged retention in the GI tract, MPNs can assemble at liquid−liquid interfaces (e.g., water/oil microemulsions) to suspend drug release in gastric fluids over an extended period. Recent studies have discovered that, after complete solidification of the capsule shell, solvent extraction within microcapsules induces gasification, resulting in gas-filled microcapsules with uniform particle size, slow degradation rates, and strong long-term suspension capabilities.…”

In Situ Gelation Strategy for Efficient Drug Delivery in a Gastrointestinal System