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Synergistic Sustained Drug-Release System Based on Immobilized Rhamnus frangula L. Phytoextract into Layered Double Hydroxide Covered by Biocompatible Hydrogel.

Ana-Lorena NeaguAnamaria ZahariaOctavian Dumitru PavelAlina TîrşoagaIulia Elena NebleaSorin Viorel DolanaCarmen Elena ŢebrencuTanta-Verona IordacheAndrei SârbuRodica Zavoianu
Published in: Pharmaceutics (2023)
This work focuses on the synergetic effect obtained by immobilization of Rhamnus frangula L. (RfL) phytoextract in layered double hydroxides (LDHs) matrixes and their subsequent encapsulation into biocompatible hydrogels (HG). In this respect, the LDHs were used as hosts for the immobilization of the phytoextract by a reconstruction method, after which the LDHs RfL were embedded into biocompatible hydrogel (HG) matrixes, based on polyethylene glycol diacrylate (PEGDA), by a radical polymerization reaction. The resulted biocompatible hydrogel composites were characterized by modern methods, while the swelling and rheology measurements revealed that the HG composites steadily improved as the content of RfL phytoextract immobilized on LDHs (LDHs RfL ) increased. The following in vitro sustained release of the RfL phytoextract was highlighted by measurements at pH 6.8, in which case the composite HGs with LDHs RfL presented an improved release behavior over the LDHs RfL , thus, underlining the synergistic effect of PEGDA network and LDH particles on the slow-release behavior. The kinetic models used in the RfL release from composite HGs clearly indicate that the release is diffusion controlled in all the cases. The final composite HGs described here may find applications in the pharmaceutical field as devices for the controlled release of drugs.
Keyphrases
  • drug release
  • drug delivery
  • cancer therapy
  • ionic liquid
  • aqueous solution
  • hyaluronic acid
  • reduced graphene oxide
  • tissue engineering
  • fluorescent probe
  • wound healing
  • living cells
  • single cell
  • magnetic nanoparticles