Antimicrobial
modification of poly(ethylene terephthalate) (PET)
is effective in preventing the adhesion and growth of microorganisms
on its surface. However, few methods are available to modify PET directly
at its backbone to impart the antimicrobial effect. Herein, menthoxytriazine-modified
PET (PMETM) based on the stereochemical antimicrobial strategy was
reported. This novel PET was prepared by inserting menthoxytriazine
into the PET backbone. The antibacterial adhesion test and the antifungal
landing test were employed to confirm the antiadhesion ability of
PMETM. PMETM could effectively inhibit the adhesion of bacteria, with
inhibition ratios of 99.9 and 99.7% against Escherichia
coli (Gram-negative) and Bacillus subtilis (Gram-positive), respectively. In addition, PMETM exhibited excellent
resistance to Aspergillus niger (fungal)
contamination for more than 30 days. Cytotoxicity assays indicated
that PMETM was a noncytotoxic material. These results suggested that
the insertion of menthoxytriazine in the PET backbone was a promising
strategy to confer antimicrobial properties to PET.
Asthma is a chronic inflammatory lung disease that leads to 250 000 deaths annually. There is a need to better understand asthma by identifying new pathogenic molecules. We conducted a liquid-chromatography time-of-flight mass spectrometry (LC-Q-TOF-MS)-based metabolomics study to test for asthma and investigate the interventional mechanisms of surfactant protein A (SPA) in OVA-induced asthma mice. The results revealed that asthma disturbed 32 metabolites in 9 metabolic pathways. After SPA treatment, the metabolomics profile found in asthma was significantly reversed, shifting much closer to that of the control group, indicating that SPA has therapeutic effects against asthma. Metabolomic pathway analysis by the ingenuity pathway analysis demonstrated that several pathways including fatty acid metabolism, lipid metabolism, and purine metabolism were significantly altered in asthma. This study offers new methodologies for the understanding of asthma and the mechanisms of SPA in treating asthma.
A bacterial biofilm is one of the
main reasons that many diseases
are difficult to cure. Herein, a teicoplanin (TPN)-loaded self-adapting
chitosan-based hydrogel (CPH) system, called TPN-CPH, was prepared
by encapsulating antibacterial TPN into CPH. This TPN-CPH can effectively
combat preformed biofilms in vitro of Staphylococcus aureus (S. aureus). It has a good therapeutic effect on full-thickness cutaneous wounds in vivo of mice infected with biofilms. In addition, TPN-CPH
can accelerate wound healing by self-adapting the wound and providing
a moist environment. The operation process of TPN-CPH is simple, and
no external stimulation such as light and heat is needed in the treatment
process, making it more convenient for clinical application. Furthermore,
this is a challenge to use self-adapting hydrogels to adapt the micro-size
channels of biofilms. TPN-CPH provides a chitosan-based self-adapting
hydrogel system for loading drugs to kill bacteria in biofilms, and
thus it is promising for infection control.
A restricted‐access material–hybrid monolithic column was prepared based on single‐component organosiloxane and dynamic grafting of δ‐gluconolactone for on‐line solid phase extraction of tetracycline antibiotic residues from milk. The hybrid monolithic column was prepared in a stainless‐steel chromatographic column using methyltrimethoxysilane as the single precursor. δ‐Gluconolactone was covalently coupled to aminopropyl derivatized hybrid monolithic column, which formed hydrophilic structures on the surface of the pore of the restricted‐access material–hybrid monolithic column. The columns were characterized by scanning electron microscopy, thermogravimetric analysis, Fourier transform infrared spectroscopy, nitrogen adsorption, contact angle analysis, dynamic adsorption, and chromatographic performance evaluation. The restricted‐access material–hybrid monolithic column was applied to the on‐line extraction of tetracycline residues from milk. An enrichment factor of 15.8 and a good sample clean‐up effect were obtained under the optimized conditions. The recoveries of the three spiked milk samples were between 81.7 and 102.5% with relative standard deviations (n = 3) in the range of 2–5%. The limits of detection (S/N = 3) for target compounds were in the range of 3.80–9.03 μg/kg. The results show that the on‐line extraction using the restricted‐access material–hybrid monolithic column was powerful for food sample pretreatment with high selectivity and good clean‐up effect.
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