Nanofibrous silica microparticles/polymer hybrid aerogels for sustained delivery of poorly water-soluble camptothecin.

The surface functionalization of nanoporous silica materials with chemical agents opens up numerous possibilities, including improvement in the materials' ability to carry high payloads of drugs. In this study, KCC-1 nanofibrous silica microparticles are functionalized with methyl groups and then combined with poly(vinyl alcohol) (PVA) and poly(acrylic acid) (PAA) to produce hybrid aerogels that can deliver a poorly water-soluble anticancer drug. The synthetic steps involve freeze-drying a polymer solution of PVA and PAA that contains methyl-modified KCC-1 microparticles and then cross-linking the two polymers via a solid-state reaction. Benefiting from the incorporated methyl-modified KCC-1 microparticles, the hybrid aerogels can load and deliver a payload of camptothecin (CPT), an anticancer drug with antitumor activity but limited clinical application due to its hydrophobicity. The aerogels also show a sustained release of CPT for more than two weeks. The drug release profile can further be tuned by varying the relative amounts of PVA, PAA, and methyl-modified KCC-1. The aerogels are biocompatible to healthy cells, such as immortalized human epithelial (HaCaT), African green monkey kidney (Vero) and murine fibroblast (L929) cells. When loaded with CPT, they show potent antitumor activity against HeLa (HPV18-positive), SiHa (HPV16-positive) and C33A (HPV-negative) cancer cells, significantly inhibiting cell growth.

The antioxidant activity of teas measured by the FRAP method adapted to the FIA system: optimising the conditions using the response surface methodology.

This study proposes a FRAP assay adapted to FIA system with a merging zones configuration. The FIA system conditions were optimised with the response surface methodology using the central composite rotatable design. The optimisation parameters studied were: the carrier flow rate, the lengths of the sample and reagent loops, and reactor length. The conditions selected in accordance with the results were: carrier flow rate of 1.00 ml/min, length of the loops 18.2 cm and length of the reaction coil 210.1 cm. The detection and quantification limits were, respectively, 28.6 and 86.8 µmol/l Fe(2+), and the precision was 1.27%. The proposed method had an analytical frequency of 30 samples/h and about 95% less volume of FRAP reagent was consumed. The FRAP assay adapted to the FIA system under the optimised conditions was utilised to determine the antioxidant activity of tea samples.