ObjectiveTo observe the clinical effectiveness and safety of Xiaozhong Zhitong Mixture （消肿止痛合剂） combined with antibiotic bone cement in the treatment of diabetic foot ulcer （DFU） with damp-heat obstructing syndrome. MethodsA total of 72 DFU patients with damp-heat obstructing syndrome were randomly assigned to treatment group （36 cases） and the control group （36 cases）. Both groups received standard treatment and topical antibiotic bone cement for ulcer wounds， while the treatment group received oral Xiaozhong Zhitong Mixture （50 ml per time， three times daily） in additionally. Both groups underwent daily wound dressing changes for 21 consecutive days. Ulcer healing rate， serum levels of tumor necrosis factor-alpha （TNF-α）， interleukin-1 beta （IL-1β）， malondialdehyde （MDA）， superoxide dismutase （SOD）， C-reactive protein （CRP）， and white blood cell （WBC） count were observed before and after treatment， and visual analog scale （VAS） scores for wound pain， traditional Chinese medicine （TCM） syndrome scores， and the DFU Healing Scale （DMIST scale） were also compared. Liver and kidney function were evaluated before and after treatment， and adverse events such as allergic reactions， worsening ulcer pain were recorded. ResultsTotally 35 patients in the treatment group and 33 in the control group were included in the final analysis. The ulcer healing rate in the treatment group was （87.93±9.34）%， significantly higher than （81.82±12.02）% in the control group （P = 0.035）. Compared to pre-treatment levels， both groups showed significant reductions in serum CRP， WBC， MDA， IL-1β， and TNF-α levels， with an increase in SOD level （P＜0.05）. TCM syndrome scores， VAS， and DMIST scores also significantly decreased in both groups （P＜0.05）， with greater improvements in the treatment group （P＜0.05）. No significant adverse reactions were observed in either group during treatment. ConclusionXiaozhong Zhitong Mixture combined with antibiotic bone cement has significant advantages in promoting DFU healing， reducing inflammatory response， and alleviating oxidative stress in DFU patients with damp-heat obstructing syndrome， with good safety for DFU patients with damp-heat obstructing syndrome.

Objective To investigate the effects and potential mechanisms of polystyrene micro/nanoplastics(PS-MNPs)on testicular Sertoli cells.Methods Sixty male C57BL/6N mice(8 weeks old)were randomly divided into a control group(deionized water),a PS-NPs group[particle size of 20 nm,2.5 mg/(kg·d)],and a PS-MPs group[particle size of 5 μm,2.5 mg/(kg·d)],with 20 mice in each group.The corresponding agents were gavaged once daily for 6 months.HE staining was used to observe the histopathological and morphological changes in the testicular tissues.Immunohistochemistry of marker proteins was employed to evaluate the changes in the number of Sertoli cells.Gene Ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)enrichment analyses were performed to identify functions and signaling pathways enriched in the testicular transcriptome.Mouse testicular Sertoli cell line TM4 was divided into a control group(deionized water),a 2.5NPs group(2.5 μg/mL),and a 2.5MPs group(2.5 μg/mL).All groups received continuous exposure through 130 cell passages.Cell viability and proliferative capacity were evaluated using CCK-8 assay and EdU incorporation,while cell migration was assessed using transwell and cell scratch assays.RT-qPCR and Western blotting were used to detect the changes in the expression of key molecules regulating mesenchymal phenotypic transformation(MPT)at mRNA and protein levels.Results Pathological analysis revealed that,when compared to the control group,PS-NPs and PS-MPs treatment resulted in extended spaces between testicular seminiferous tubules,loosely arranged spermatogenic cells,and enhanced vacuolization.Immunohistochemical analysis of marker proteins indicated a decreasing trend in the number of testicular Sertoli cells in the PS-NPs and PS-MPs groups than the control group,with the PS-NPs group having statistical significance(P<0.01).GO and KEGG enrichment analyses revealed that PS-MNPs exposure-related altered genes were significantly enriched in cell adhesion signaling pathways(P<0.05).PS-MPs exposure significantly inhibited the growth and migration ability of TM4 cells(P<0.05),but PS-NPs exposure had no such effect on cell growth but notably enhanced cell migration ability.PS-NPs exposure inhibited the expression levels of E-cadherin and ZO-1(P<0.01)and up-regulated the expression of N-cadherin and vimentin(P<0.01),and PS-MPs exposure led to significant up-regulation of vimentin(P<0.01)and down-regulation of E-cadherin,N-cadherin,and ZO-1(P<0.05).Both PS-MPs and PS-NPs exposure up-regulated the mRNA levels of Snail2,Twist1,and Zeb2(P<0.01).Conclusion Exposure of PS-MNPs leads to abnormal proliferation and migration of TM4 cells,induces decreases in cell-cell contacts among Sertoli cells and spermatogenic cells at all levels possibly through MPT,and thus results in testicular damage.

Objective To investigate whether long-term low-dose exposure to polystyrene microplastics(PS-MPs)induces ferroptosis in testicular Sertoli cells and then leads to testicular injury.Methods Forty 8-week-old male C57BL/6 mice were randomly divided into a control group(deionized water group)and a PS-MPs group[2.5 mg/(kg·d)],with 20 mice in each group.Corresponding agents were gavaged once a day for 12 consecutive months.HE staining and Prussian blue staining were used to detect histopathological damage and accumulation of ferrous ions in the testes.Electron transmission microscopy was employed to observe the mitochondrial morphology of testicular Sertoli cells.Mouse Sertoli cell line TM4 was divided into a Con group(standard culture)and an MPs group(2.5 μg/mL PS-MPs).After both groups underwent continuous exposure and passed up to the 100th generation,morphological changes were observed under the microscope;cell viability was detected with CCK8 assay,and production of reactive oxygen species(ROS)and mitochondrial membrane potential(MMP)were detected with a ROS probe and a mitochondrial membrane potential probe(JC-1),respectively.Flow cytometry,ferrous ion(Fe2+)kit and Western blotting were applied to detect cell apoptosis,intracellular iron ion content,and protein levels of key molecules of ferroptosis in tissues and cells.Results Long-term exposure to PS-MPs resulted in significantly reduced diameter and thickness of mouse varicocele(P<0.01),fewer testicular Sertoli cells(P<0.05),with characteristic ferroptosis alterations in the mitochondria,and increased accumulation of ferrous ions in testicular tissue.Exposure to PS-MPs down-regulated the key molecules of ferroptosis,glutathione peroxidase 4(GPX4)and ferritin light chain(FTL)when compared with the control group(P<0.05).In the cell model,long-term PS-MPs exposure led to morphological changes and decreased cell viability(P<0.05),more production of ROS(P<0.01),and decrease in MMP(P<0.05)of TM4 cells.The exposure had no effect on cell apoptosis,but elevated the intracellular content of ferric ions(P<0.01),and down-regulated GPX4 and FTL protein levels(P<0.05).Conclusion Long-term low-dose exposure to PS-MPs induces mitochondrial damage and oxidative stress in testicular Sertoli cells,activates the ferroptosis pathway,and ultimately leads to testicular injury in mice.

Objective To determine the median effective concentration(EC50)of ropivacaine at the volume of 0.5 mL/kg for ultrasound-guided interscalene brachial plexus block in children aged 6 to 10 years.Methods A prospective dose-finding trial was conducted based a sequential Dixon up-and-down allocation.We recruited children aged 6 to 10 years who were scheduled for unilateral surgery on upper extremity regions in our hospital from April to December 2022.All of them were subjected to general intravenous anaesthesia combined with ultrasound-guided interscalene brachial plexus block.The ropivacaine volume for each patient was 0.5 mL/kg.The concentration of 0.2%for the first patient,subsequent concentrations were adjusted based on the block effect of previous patient,increase or decrease by 0.02%.The trial was stopped when there were 7 turning points.Isotonic regression and Bootstrap were used to calculate the values of EC50 and 95%effective concentration(EC95),along with their 95%confidence intervals(CI).General data,incidence of adverse events,and score of postoperative pain were recorded.Results A total of 26 children aged 6 to 10 years were included.The EC50 of ultrasound-guided interscalene brachial plexus block was determined to be 0.091%(95%CI:0.077%～0.105%),and the EC95 was estimated to be 0.117%(95%CI:0.110%～0.118%).Successful blockade was achieved in 16 cases(61.5%),while 10 cases(38.5%)failed.No statistical differences existed between successful and failed cases regarding sex,age,body weight,surgical site,surgical laterality,operative time,or anesthesia duration.None of the patients experienced adverse events such as pneumothorax,vascular injury,or Horner's syndrome,and the score of postoperative pain were all<6 by modified Children's Hospital of Eastern Ontario Pain Scale.Conclusion In children aged 6 to 10 years,the EC50 of ropivacaine is 0.091%at a volume of 0.5 mL/kg for ultrasound-guided interscalene brachial plexus block,and this low dose of regional anesthetic can reduce the risks such as systemic toxicity and direct neurotoxicity.

Metal-organic frameworks(MOFs)are porous materials composed of metal ions or metal clusters and organic ligands by coordination,which have the advantages of large specific surface area,good thermal stability and adjustable pore size,and have a promising application in gas chromatographic separation.In recent years,MOFs materials have been used as stationary phases for gas chromatography mainly including ZIF,MIL,UiO-66,HKUST-1,IRMOFs,etc.Based on the molecular sieve effect,van der Waals forces,hydrogen bonding and π-π interactions,the pore size,pore microenvironment,unsaturated metal site and special functional group of the MOFs stationary phase materials can be specifically designed and regulated.MOFs materials as stationary phases have unique separation performance for n-alkanes and their isomers,aromatic compounds and their isomers,alcohols/ketones/aldehydes and their isomers,and chiral compounds.The combination of organic polymers and novel nanomaterials with MOFs materials can improve the separation performance and stability of MOFs.Therefore,MOFs materials are expected to be the promising stationary phase that can be applied to gas separation in complex environments.In this article,the research advances of various stationary phases based on MOFs for gas chromatography in recent years were reviewed.The separation performance and separation mechanism of MOFs stationary phases for mixed gas samples were discussed,and the development trends in the future were prospected.

In this study,an ON/OFF type micro-valve with a sandwich(glass-silicon-glass)structure was designed and fabricated based on the micro-electro-mechanical system(MEMS)technique.The deformable membrane of this micro-valve was prepared on the silicon on insulator(SOI)substrate and sealed using Si-Si bonding and anodic bonding methods.The micro-valve had high-temperature stability and was suitable for integration with other gas chromatography components.The deformable membrane with a thickness of 10 μm was processed on the top silicon of the SOI substrate.The flow control of the micro-valve could be achieved by changing the driving pressure applied to the deformable membrane to deform it.Compared with polymer membranes,the deformable membrane prepared on the top layer silicon of SOI had better temperature stability and could be released using the deep reactive ion etching technique after silicon-silicon bonding,avoiding deformation during the preparation process.In addition,due to the small gap between the membrane and the inlet/outlet holes,the dead volume of the microvalve was very small.The test results indicated that the micro-valve achieved flow control and ON/OFF functions with good repeatability.

A pyrene-phenol-based fluorescent probe PyP which showed typical intramolecular charge transfer(ICT)and monomer-excimer activities was synthesized by using pyrene carboxaldehyde hydrazone and 4-tert-butyl-2,6-diformylphenol as the raw materials.The effects of solvents on PyP were studied,and the results showed that the color of protic polar solvents(Ethanol,N,N-dimethylformamide,methanol and H2O)were successfully identified.Based on the solvent polarity-regulated PyP monomer-excimer switching,the rapid and highly sensitive ratiometric probe,"Turn-off"and"Turn-on"multimodal probes were established for detection of trace water content in organic solvents(Dimethyl sulfoxide,N,N-dimethylformamide,ethanol and methanol),with detection limits(3σ/k)of 0.0021％,0.046％,0.062％and 0.024％.The method was successfully used to detect water content in dimethyl sulfoxide,N,N-dimethy lformamide,ethanol and methanol commercial organic solvents,with recoveries ranging from 97.2％to 108.0％.The developed method showed good accuracy and stability,and had good application prospect.

A monolithic integrated gas chromatography chip,consisting of a micro gas chromatography column(μGCC)and a micro helium discharge ionization detector(μHDID)was proposed.The chip was fabricated using micro electromechanical system(MEMS)technique,and its sensitivity was improved from two aspects.On one hand,open tubular column was selected as the separation device,and the auxiliary helium channel width of μHDID was modulated based on the microchannel width of the μGCC to match the flow rates of μHDID and μGCC.On the other hand,the electrode structure inside the μHDID collection zone was optimized,a bias electrode group around the collection electrode was constructed,and the ion collection efficiency was improved.After coating HKUST-1 as the stationary phase,the monolithic integrated gas chromatography chip could achieve baseline separation and detection of light hydrocarbon gas mixture(methane,ethane,propane,andn-butane),with a detection limit for propane as low as 25 pg.The chip could carried out test under temperature-programmed conditions,with a resolution of 9.24 for ethane and propane.

A micro gas chromatographic column with mesoporous surface micro column array prepared by anodization method was proposed.A porous support layer with a characteristic pore size of about 30 nm inside the chromatographic column was prepared in situ using anodization method,and a uniform alumina stationary phase was deposited on the mesoporous support layer using atom layer deposition(ALD)technique.The existence of a mesoporous support layer increased surface area of the chromatographic column,thereby increasing the total amount of stationary phase loading and enhancing column capacity,which facilitated chromatographic separation.The test results showed that the porous support layer significantly reduced the longitudinal molecular diffusion and mass transfer resistance of the micro gas chromatographic column,and significantly increased the number of theoretical plates(n-nonane increased by 290.2%).Furthermore,column efficiency of the chromatographic column was less affected by flow rate,which was conducive to rapid separation of heavy hydrocarbon mixtures.

The phase changes and quantity-quality transfer of 17 batches of Ostreae Concha(Ostrea rivularis) during the raw material-calcined decoction pieces-standard decoction process were analyzed. The content of calcium carbonate(CaCO_3), the main component, was determined by chemical titration, and the extract yield and transfer rate were calculated. The CaCO_3 content in the raw material, calcined decoction pieces, and standard decoction was 94.39%-98.80%, 95.03%-99.22%, and 84.58%-90.47%, respectively. The process of raw material to calcined decoction pieces showed the yield range of 96.85% to 98.55% and the CaCO_3 transfer rate range of 96.92% to 99.27%. The process of calcined decoction pieces to standard decoction showed the extract yield range of 2.86% to 5.48% and the CaCO_3 transfer rate range of 2.59% to 5.13%. The results of X-ray fluorescence(XRF) assay showed that the raw material, calcined decoction pieces, and standard decoction mainly contained Ca, Na, Mg, Si, Br, Cl, Al, Fe, Cr, Mn, and K. The chemometric results showed an increase in the relative content of Cr, Fe, and Si from raw material to calcined decoction pieces and an increase in the relative content of Mg, Al, Br, K, Cl, and Na from calcined decoction pieces to standard decoction. X-ray diffraction(XRD) was employed to establish XRD characteristic patterns of the raw material, calcined decoction pieces, and standard decoction. The XRD results showed that the main phase of all three was calcite, and no transformation of crystalline form or generation of new phase was observed. Fourier transform infrared spectroscopy(FTIR) was employed to establish the FTIR characteristic spectra of the raw material, calcined decoction pieces, and standard decoction. The FTIR results showed that the raw material had internal vibrations of O-H, C-H, C=O, C-O, and CO■ groups. Due to the loss of organic matter components after calcination, no information about the vibrations of C-H, C=O, and C-O groups was observed in the spectra of calcined decoction pieces and standard decoction. In summary, this study elucidated the quantity-quality transfer and phase changes in the raw material-calcined decoction pieces-standard decoction process by determining the CaCO_3 content, calculating the extract yield and transfer rate, and comparing the element changes, FTIR characteristic spectra, and XRD characteristic pattern. The results were reasonable and reliable, laying a foundation for the subsequent process research and quality control of the formula granules of calcined Ostreae Concha(O. rivularis Gould), and providing ideas and methods for the quality control of the whole process of raw material-decoction pieces-standard decoction-formula granules of Ostreae Concha and other testacean traditional Chinese medicine.
Drugs, Chinese Herbal/isolation & purification* ; Calcium Carbonate/analysis* ; Quality Control