Oral solid dosage forms require processes such as disintegration and dissolution to release the drug before it can be absorbed and utilized by the body. In this manuscript, imaging technology was used to continuously visualize and characterize the in vitro static drug release process of gliclazide modified release tablets from 15 manufacturers, combined with the traditional method of in vitro dissolution testing, to determine the release profile of gliclazide modified release tablets, to evaluate the similarity of the release profiles by using the similarity factor (f₂) method and based on the analysis of the release profiles fitted with a variety of mathematical models. The results indicate that the gliclazide modified release tablets produced by 14 companies are hydrophilic gel matrix tablets. Compared to the reference listed drug, the release profiles of formulations from 11 companies show high similarity (f₂ > 50) to the reference. Among these, formulations with visual characteristics similar to the reference exhibit similar release curves. This study provides an alternative method for the in vitro consistency evaluation of gliclazide modified release tablets, aiming to assess the in vitro release behaviour of generic formulations more accurately and comprehensively.

Six compounds were isolated from the roots of Ephedra sinica Stapf using various chromatographic techniques such as silica gel column chromatography, thin layer chromatography and semi-preparative HPLC. Their chemical structures were identified by analysis of physicochemical properties and spectral data, and determined as (Z)-docosanylferulate (1), (E)-docosanylferulate (2), bis (2-ethylheptyl) phythalate (3), 2,2′-oxybis (1,4-di-tert-butylbenzene) (4), diisobutyl phthalate (5), bis (2-ethylhexyl) phthalate (6). Among them, compound 1 is a new compound, compounds 2-4 were first isolated from Ephedra. A corticosterone-induced PC-12 cell injury model was used for compound activity screening. The results showed that compounds 1 and 5 significantly improved corticosterone-induced PC-12 cell injury and significantly increased 5-HT₇ receptor protein expression in the cells, indicating potential antidepressant activity.

Cells undergo glucose metabolism reprogramming under the influence of the inflammatory microenvironment, changing their primary mode of energy supply from oxidative phosphorylation to aerobic glycolysis. This process is involved in all stages of inflammation-related diseases development. Glucose metabolism reprogramming not only changes the metabolic pattern of individual cells, but also disrupts the metabolic homeostasis of the body microenvironment, which further promotes aerobic glycolysis and provides favourable conditions for the malignant progression of inflammation-related diseases. The metabolic enzymes, transporter proteins, and metabolites of aerobic glycolysis are all key signalling molecules, and drugs can inhibit aerobic glycolysis by targeting these specific key molecules to exert therapeutic effects. This paper reviews the impact of glucose metabolism reprogramming on the development of inflammation-related diseases such as inflammation-related tumours, rheumatoid arthritis and Alzheimer's disease, and the therapeutic effects of drugs targeting glucose metabolism reprogramming on these diseases.

Four pyrazines were isolated from the n-butanol fraction of Hypecoum erectum L. by using various chromatographic methods, including MCI gel, ODS, silica gel and semi-preparative HPLC. The structures of the isolated compounds were identified as hyperectpyrazin A (1), 1′S-(6-methylpyrazin-2-yl)-ethane-1′,2′-diol (2), 2-hydroxymethyl-6-methylpyrazin (3) and pyrazine-2-carboxylic acid (4) by spectroscopy methods (1D NMR, 2D NMR, UV, IR, MS, etc.). The absolute configuration of compound 2 was determined by using the Mo₂(OAc)₄ induced CD analysis for the first time. Compound 1 was a new compound, compounds 2-4 were isolated from H. erectum for the first time. Compounds 1-4 were evaluated for their inhibition against acetylcholinesterase and nitric oxide generation induced by lipopolysaccharide-RAW264.7 macrophage cells. At a concentration of 50 μmol·L^-1, compounds 2 and 4 displayed inhibitory effects on acetylcholinesterase with the inhibition rates of 44.40% and 43.99%, respectively.

Objective:To investigate the relationship between the virulence and the carbapenem resistance phenotype of Klebsiella pneumoniae from blood infection,and to identify carbapenem-resistant and hypervirulent Klebsiella pneumoniae(CR-HVKP)strains.Methods:A total of 192 Klebsiella pneumoniae strains were isolated from blood culture of patients with bloodstream infections from 2016 to 2019,of which 96 isolates were carbapenem-resistant Klebsiella pneumoniae(CRKP)and 96 were carbapenem-sensitive Klebsiella pneumoniae(CSKP).The drug susceptibility was detected by VITEK-2 automatic microbial analyzer;carbapenemase genes,virulence genes and capsule typing were detected by polymerase chain reaction;the high viscosity phenotype of strains was detected by string test,and the genome characteristics of CR-HVKP were detected by whole genome sequencing.Serum killing and biofilm formation test were used to further verify the virulence of CR-HVKP.Results:There were significant differences in drug resistance to common antibiotics,except for minocycline between CSKP and CRKP isolates(all P<0.05).92 out of 96 CRKP isolates carried carbapenemase genes,mainly blaKPC-2.The string tests were positive in 4 isolates of CRKP and 36 isolates of CSKP(P<0.05).The detection rates of virulence genes Kfu,aerobictin,iutA,ybtS,rmpA,magA,allS,and capsule antigen K1 and K2 in CSKP group were significantly higher than those in CRKP group(all P<0.05).One HVKP strain was detected in the CRKP group(CR-HVKP)and 36 HVKP was detected in the CSKP group(P<0.05).The CR-HVKP strain belonged to the MLST412,serotype K57,expressed iutA,entB,mrkD,fimH,and rmpA virulence genes,and showed strong biofilm formation and significantly increased serum resistance.Whole genome sequencing results showed that this CR-HVKP isolate carried blaSHV-145,blaTEM-1,blaCTX-M-3,fosA6,oqxA5,oqxB26,and aac(3)-Ⅱd resistance genes,accompanied by abnormalities in outer membrane protein K(OmpK)35 and OmpK36.Conclusions:The drug resistance of CRKP is significantly higher than that of CSKP,while CRKP carrying fewer virulence genes in both number and types compared to CSKP.A new MLST type of carbapenem-resistant and hypervirulent Klebsiella pneumoniae strain has been detected,which requires clinical awareness and epidemiological monitoring.

Ovarian cancer has become the most lethal gynecological tumor due to the difficulty in early diagnosis,the late stage when diagnosed and the high recurrence rate.Resistance to platinum-based anti-tumor chemotherapy drugs is an important reason for the poor prognosis of ovarian cancer.circular RNA(circRNA)is more stable than mRNA in cells due to its special structure,and it is involved in the regulation of the occurrence,development and chemotherapy resistance of a variety of tumors.circRNA can be used as a competing endogenous RNA(ceRNA)of miRNA to bind to proteins,and regulates the phenotypic polarization of macrophages,it can also be used as an exosomal circRNA to regulate the sensitivity of platinum resistance in ovarian cancer.circRNA is expected to be a new marker of platinum resistance and a new target for the treatment of platinum resistance.In order to further explore the relationship between circRNA and platinum resistance in ovarian cancer,this article summarizes the recent literature related to circRNA and platinum resistance in ovarian cancer.

Objective To observe the efficacy of 577 nm subthreshold micropulse laser photocoagulation(SMLP)on central serous chorioretinopathy(CSC)and explore the baseline characteristics and prognostic features of multimodal ima-ging-based CSC.Methods A retrospective analysis was conducted on 44 patients(46 eyes)with CSC diagnosed at the Ophthalmology Department of the General Hospital of Central Theater Command,PLA from June 2017 to May 2022.The pa-tients were classified into the simple CSC group(23 eyes)and the complex CSC group(23 eyes)based on the multimodal imaging classification.All patients underwent 577 nm SMLP treatment.The best corrected visual acuity(BCVA)and cen-tral macular thickness(CMT)of patients between the two groups were compared before treatment and at 1,3 and 6 months after treatment.The intra-group and inter-group changes and the complete absorption rate of subretinal fluid(SRF)in CSC eyes of patients between the two groups were assessed before treatment and at 6 months after follow-up.Results The BCVA of patients in the simple CSC group significantly improved at 6 months after treatment compared with the base-line(P=0.010);the BCVA of patients in the complex CSC group significantly improved at 3 and 6 months after treatment compared with the baseline(both P＜0.01).The CMT of patients in the simple CSC group was significantly lower than the baseline at 1,3,and 6 months after treatment(all P＜0.05);the CMT of patients in the complex CSC group was signifi-cantly lower than the baseline at 1 and 6 months after treatment(both P＜0.05);the change in CMT from baseline after 6 months of treatment for simple CSC was(-163.74±88.10)μm,the change in CMT from baseline after 6 months of treat-ment for complex CSC was(-71.96±164.30)μm,and the difference between the two groups was statistically significant(P=0.023).During the follow-up period,the number of eyes with persistent SRF in the simple CSC group was significant-ly lower than that in the complex CSC group(P＜0.05).The complete absorption rate of SRF at 6 months after treatment in the simple CSC group was greater than that in the complex CSC group(P＜0.05).Conclusion The prognosis of sim-ple CSC treated with 577 nm SMLP is better than that of complex CSC,and the new multimodal imaging classification has a certain value in predicting the prognosis of CSC after SMLP.

Objective To investigate the effect of long non-coding RNA(lncRNA)nuclear paraspeckle assembly transcript 1(NEAT1)in regulating osteogenic differentiation of human bone marrow-derived mesenchymal stem cells(hBMSCs)through regulating cell pyroptosis.Methods hBMSCs were cultured for 7 days to induce osteogenic differentiation,and then divided into the control group(common culture),the osteogenic differentiation group(osteogenic differentiation induction),the pcD-NEAT1 group(transfected with NEAT1 overexpression plasmid),the pcD-null group(transfected with negative control of NEAT1 overexpression plasmid),the osteogenic differentiation+CML group[treated with osteogenic differentiation induction and NOD-like receptor family protein 3(NLRP3)inflammasome activator of carboxy methyl lysine(CML)],and the osteogenic differentiation+CML+pcD-NEAT1 group(treated with osteogenic differentiation and pcD-NEAT1 as well as CML).The cell mineralization was detected using alizarin red staining,the alkaline phosphatase(ALP)activity was determined by ALP activity assay,the cell survival rate was determined by CCK-8,and the morphological change was observed under a high-power microscope.The cell apoptosis was determined using the TUNEL assay.The expression of NEAT1 was detected using qRT-PCR.The protein expression of IL-1β,IL-18,NLRP3,cleaved-caspase 1(cleaved-CASP1),gasdermin D,Runt-related transcription factor 2(RUNX2),ALP,and osteopontin(OPN)were detected using Western blot.Results Compared with the control group,the degree of cell mineralization in the osteogenic differentiation group was increased,the ALP activity was elevated(P<0.05),and the expression of NEAT1 and the protein expression of RUNX2,ALP,and OPN were upregulated(P<0.05).Compared with the pcD-null group,the degree of cell mineralization in the pcD-NEAT1 group was increased,the ALP activity was elevated(P<0.05),and the expression of NEAT1 and the protein expression of RUNX2,ALP,and OPN were upregulated(P<0.05).Compared with the osteogenic differentiation group,the degree of cell mineralization in the osteogenic differentiation+CML group was reduced,the ALP activity was decreased(P<0.05),the cell survival rate was reduced(P<0.05),the cell apoptosis was increased(P<0.05),cell membrane rupture occurred,cells showed enlarged deformation,the expression of NLRP3 and the protein expression of IL-1β,IL-18,cleaved-CASP1,and gasdermin D were significantly upregulated(P<0.05),while the protein expression of RUNX2,ALP and OPN were significantly downregulated(P<0.05).Compared with the osteogenic differentiation+CML group,the degree of cell mineralization in the osteogenic differentiation+CML+pcD-NEAT1 group was increased,the ALP activity was increased(P<0.05),the protein expression of RUNX2,ALP and OPN were significantly upregulated(P<0.05),the cell survival rate was increased(P<0.05),the cell apoptosis rate was decreased(P<0.05),the cell membrane was intact with the normal cell shape,the expression of NLRP3 and the protein expression of IL-1β,IL-18,cleaved-CASP1 and gasdermin D were significantly downregulated(P<0.05).Conclusion The overexpression of NEAT1 promotes the osteogenic differentiation of hBMSCs by inhibiting NLRP3 inflammasome-mediated cell pyroptosis.

The purpose of this study was to investigate the regulatory effects of biofilm associated non-coding small RNA(sRNA)00085 on the survival and environmental fitness of Listeria monocytogenes.Homologous recombination technology was used to construct a deletion mutant strain(△sRNA 00085)and a complementary strain(C △sRNA 00085)of the sRNA00085 target gene.The differences in biological characteristics were compared among the standard strain,△sRNA 00085,and C△sRNA 00085.The deletion of sRNA00085 led to a significant decrease in biofilm formation capacity and sensitivity to several antibiotics,including penicillin,piperacillin,doxycycline,tetracycline,vancomycin,and cotrimoxazole.However,only the minimum inhibitory concentration(MIC)of tetracycline exhibited a significant decrease in △sRNA00085.Meanwhile,the decreased biofilm formation and antibiotic resistance of the sRNA00085 mutant were restored in the C△sRNA00085 strain.Furthermore,we investigated the transcription levels of tetracycline resistance-related genes in L.monocytogenes.Down-regu-lated transcription of the tetS gene but no significant difference in transcription of the tetA gene were observed in △sRNA 00085 compared with the standard strain and C△sRNA00085.Moreover,the elimination of sRNA00085 did not affect bacterial growth ability or sensitivity to disinfectants.These findings highlight that sRNA00085 plays an important role in the environ-mental adaptability of L.monocytogenes by affecting bacterial biofilm formation and resistance.

In the process of seeking new strategies to improve the efficacy of antidepressants,traditional Chinese medicine inter-vention has gradually revealed its unique prevention and treat-ment advantages.The dopamine reward system is closely in-volved in the pathological occurrence and development of depres-sion.Currently,research has mostly focused on the functional mechanism of a specific nucleus in the dopamine reward system,and there is less research focused on the functional mechanism of the neural circuit.In the current micro research on reward cir-cuits,the association between abnormal reward circuits and neg-ative emotions such as anxiety and depression has been widely recognized.Traditional Chinese medicine intervention can exert antidepressant effects by influencing reward circuits.This article provides a review on the loop mechanism of dopamine reward system involvement in depression and research on traditional Chinese medicine intervention.