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The Impact of Composites with Silicate-Based Glasses and Gold Nanoparticles on Skin Wound Regeneration.

Sorin M MârzaKlára MagyariSidonia BogdanMirela-Liliana MoldovanCosmin PeșteanAndras NagyAdrian Florin GalAlexandru-Flaviu TăbăranRobert Cristian PurdoiuEmilia LicareteSorina SuarasanLucian BaiaIonel Papuc
Published in: Molecules (Basel, Switzerland) (2021)
The silver content of the skin regeneration ointments can influence its regeneration process but in the meantime, it can take the benefit of the antibacterial properties of silver by avoiding the bacterial infection of an open wound. In the current study, the skin healing and regeneration capacity of bioactive glass with spherical gold nanocages (BGAuIND) in the Vaseline ointments were evaluated in vivo comparing the bioactive glass (BG)-Vaseline and bioactive glass with spherical gold (BGAuSP)-Vaseline ointments. Spherical gold nanocages are stabilized with silver and as a consequence the BGAuIND exhibits great antibacterial activity. Histological examination of the cutaneous tissue performed on day 8 indicates a more advanced regeneration process in rats treated with BGAuSP-Vaseline. The histopathological examination also confirms the results obtained after 11 days post-intervention, when the skin is completely regenerated at rats treated with BGAuSP-Vaseline compared with the others groups where the healing was incomplete. This result is also confirmed by the macroscopic images of the evolution of wounds healing. As expected, the silver content influences the wound healing process but after two weeks, for all of the post-interventional trials from the groups of rats, the skin healing was completely.
Keyphrases
  • wound healing
  • gold nanoparticles
  • silver nanoparticles
  • stem cells
  • reduced graphene oxide
  • randomized controlled trial
  • soft tissue
  • machine learning