Calcium isotope determination in urine samples by HR CS GFMAS via CaF molecules. pH is a factor to consider guaranteeing the efficacy of CaF formation. Due to Cl interference, Ca should be separated from solutions by precipitation with (NH4)2C2O4.
Helicobacter pylori inhabits the
gastric epithelium and can promote the development of gastric disorders,
such as peptic ulcers, acute and chronic gastritis, mucosal lymphoid
tissue (MALT), and gastric adenocarcinomas. To use nanotechnology
as a tool to increase the antibacterial activity of silver I [Ag(I)]
compounds, this study suggests a new strategy for H.
pylori infections, which have hitherto been difficult
to control. [Ag (PhTSC·HCl)2] (NO3)·H2O (compound 1) was synthesized, characterized, and loaded
into polymeric nanoparticles (PN1). PN1 had been developed by nanoprecipitation
with poly(ε-caprolactone) polymer and poloxamer 407 surfactant.
System characterization assays showed that the PNs had adequate particle
sizes and ζ-potentials. Transmission electron microscopy confirmed
the formation of polymeric nanoparticles (PNs). Compound 1 had a minimum
inhibitory concentration for H. pylori of 3.90 μg/mL, which was potentiated to 0.781 μg/mL
after loading. The minimum bactericidal concentration of 7.81 μg/mL
was potentiated 5-fold to 1.56 μg/mL in PN. Compound 1 loaded
in PN1 displayed better activity for H. pylori biofilm formation and mature biofilm. PN1 reduced the toxicity of
compound 1 to MRC-5 cells. Loading compound 1 into PN1 inhibited the
mutagenicity of the free compound. In vivo, the system
allowed survival of Galleria mellonella larvae at a concentration of 200 μg/mL. This is the first
demonstration of the antibacterial activity of a silver complex enclosed
in polymeric nanoparticles against H. pylori.
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