Schizophrenia,a severe mental illness characterized by high disability and chronicity,imposes a heavy disease burden on society and patients in China.Community-based management plays a crucial role in the long-term and comprehensive management of patients with schizophrenia.Through years of exploration,community-based management models—primarily focused on case management,assertive community treatment(ACT),and crisis intervention—have proven beneficial to the overall recovery of patients.However,notable differences exist in the implementation of these models between domestic and international practices.Given this context,we systematically analyze domestic and international research to examine the characteristics of different management models and the causes of the differences.Based on this analysis,we propose targeted recommendations for improving community-based management of schizophrenia in China.Regarding case management,a tiered approach should be adopted according to regional economic conditions and resource availability to optimize the efficiency of resource allocation.For ACT,we suggest developing a family-centered integrated intervention framework adapted to China's specific context.Finally,regarding crisis intervention,a collaborative family-community-police response mechanism should be established,complemented by enhanced professional training and streamlined referral procedures.We advocate enhancing resource allocation and theoretical research,along with broader involvement of all sectors of society,to jointly optimize the community-based management model for schizophrenia in China.

Objective To explore the anti-inflammatory properties of the ethyl acetate extract(ETCB)derived from Trollius chinensis Bge.using in vitro RAW264.7 cells stimulated with lipopolysaccharide and an in vivo mouse auricle model induced by xylene.Utilizing UHPLC-Q-TOF-MS(LC-MS)and network pharmacology,the components of ETCB were analyzed,and its anti-inflammatory mechanisms were preliminarily explored.Methods The anti-inflammatory activity of various solvent extracts of Trollius chinensis Bge.was assessed through the Griess assay.The impact of ETCB on the production of TNF-α and IL-6 in RAW264.7 cells induced by lipopolysaccharide was evaluated using ELISA.Real-time qPCR was conducted to determine the effect of ETCB on the expression levels of inflammatory factors such as TNF-α,IL-6,and iNOS in cells.The anti-inflammatory efficacy was further validated in a xylene-induced ear inflammation mouse model by measuring ear swelling and tissue levels of IL-6 and TNF-α.The composition of ETCB was analyzed using LC-MS.Network pharmacology was employed to screen for effective components,targets,and pathways involved in the anti-inflammatory effects of Trollius chinensis Bge.,followed by molecular docking verification between core components and targets.Results ETCB demonstrated the most potent inhibitory effect on NO production in RAW264.7 cells stimulated by lipopolysaccharide,indicating its primary role in the anti-inflammatory activity of Trollius chinensis Bge..ETCB significantly reduced TNF-α and IL-6 levels in inflammatory cells(P<0.01)and inhibited the mRNA expression of TNF-α,IL-6,and iNOS.In the xylene-induced mouse ear inflammation model,ETCB effectively alleviated ear swelling and decreased tissue levels of TNF-α and IL-6.LC-MS analysis identified 30 chemical components in ETCB,including 21 flavonoids,7 organic acids,1 polysaccharide,and 1 anthocyanin.Network pharmacology prediction and screening revealed TNF,Akt1,PTGS2,EGFR,SRC,and MMP9 as core targets,with hydroxyquercetin,lignin from fragrant leaves,zeaxanthin from willows,plantain,thistle,and sophora flavins as key anti-inflammatory active ingredients.The molecular docking analysis revealed positive interactions,characterized by favorable binding energy,between the active components and key targets.Conclusion ETCB demonstrates strong anti-inflammatory properties both inside and outside the body,functioning through various targets and pathways.This establishes a basis for deeper understanding of the anti-inflammatory mechanism of Trollius chinensis Bge.

Objective To explore the anti-inflammatory properties of the ethyl acetate extract(ETCB)derived from Trollius chinensis Bge.using in vitro RAW264.7 cells stimulated with lipopolysaccharide and an in vivo mouse auricle model induced by xylene.Utilizing UHPLC-Q-TOF-MS(LC-MS)and network pharmacology,the components of ETCB were analyzed,and its anti-inflammatory mechanisms were preliminarily explored.Methods The anti-inflammatory activity of various solvent extracts of Trollius chinensis Bge.was assessed through the Griess assay.The impact of ETCB on the production of TNF-α and IL-6 in RAW264.7 cells induced by lipopolysaccharide was evaluated using ELISA.Real-time qPCR was conducted to determine the effect of ETCB on the expression levels of inflammatory factors such as TNF-α,IL-6,and iNOS in cells.The anti-inflammatory efficacy was further validated in a xylene-induced ear inflammation mouse model by measuring ear swelling and tissue levels of IL-6 and TNF-α.The composition of ETCB was analyzed using LC-MS.Network pharmacology was employed to screen for effective components,targets,and pathways involved in the anti-inflammatory effects of Trollius chinensis Bge.,followed by molecular docking verification between core components and targets.Results ETCB demonstrated the most potent inhibitory effect on NO production in RAW264.7 cells stimulated by lipopolysaccharide,indicating its primary role in the anti-inflammatory activity of Trollius chinensis Bge..ETCB significantly reduced TNF-α and IL-6 levels in inflammatory cells(P<0.01)and inhibited the mRNA expression of TNF-α,IL-6,and iNOS.In the xylene-induced mouse ear inflammation model,ETCB effectively alleviated ear swelling and decreased tissue levels of TNF-α and IL-6.LC-MS analysis identified 30 chemical components in ETCB,including 21 flavonoids,7 organic acids,1 polysaccharide,and 1 anthocyanin.Network pharmacology prediction and screening revealed TNF,Akt1,PTGS2,EGFR,SRC,and MMP9 as core targets,with hydroxyquercetin,lignin from fragrant leaves,zeaxanthin from willows,plantain,thistle,and sophora flavins as key anti-inflammatory active ingredients.The molecular docking analysis revealed positive interactions,characterized by favorable binding energy,between the active components and key targets.Conclusion ETCB demonstrates strong anti-inflammatory properties both inside and outside the body,functioning through various targets and pathways.This establishes a basis for deeper understanding of the anti-inflammatory mechanism of Trollius chinensis Bge.

The wound healing in patients with DM is the result of multiple factors.The difficulty of macrophage M1 to M2 transformation is the key factor affecting wound healing.The biological function of macrophages is closely related to epigenetic modifications.This article reviews the research progress of macrophage polarization epigenetic regulation in diabetic wound healing.

Objective To clone the full-length sequence,subcellular localization,and analyze the expression patterns of the β-caryophyllene synthase gene(AaCPS)of Artemisia argyi,in order to lay a foundation for the gene function analysis of sesquiterpene biosynthesis pathway in A.argyi.Methods The genes annotated as CPS were selected from the transcriptome data of A.argyi.The full-length cDNA sequence of the target gene was obtained by PCR,and the coding region was analyzed using bioinformatics.A prokaryotic expression vector was constructed and transformed into Escherichia coli competent cells to express recombinant protein.A green fluorescent protein(GFP)fused expression vector was constructed,and the subcellular localization of AaCPS was observed using Agrobacterium tumefaciens transient expression method in tobacco.Real-time quantitative PCR(qRT-PCR)was used to analyze the expression patterns of the AaCPS at different harvest times(April,May,June,July).Determination of β-caryophyllene by HS-SPME-GC-MS and correlation analysis.Results The AaCPS gene was cloned from A.argyi.The full-length open reading frame(ORF)was 1647 bp,encoding 548 amino acids.The molecular weight was 63 667 Da with a theoretical pI of 5.94.AaCPS contained conserved Terpen_synth and Terpen_synth_C domains.Phylogenetic analysis indicated that AaCPS was closely related to the CPS protein of Artemisia annua.SDS-PAGE showed the presence of target protein bands between 75 000-120 000 Da(containing 28 132 Da of the labeled protein),indicating successful expression of the AaCPS protein.The protein was found to be localized in the cytoplasm.As shown by qRT-PCR,the expression of AaCPS gene showed an upward trend,reaching the highest in July.The results of HS-SPME-GC-MS showed that the content of β-caryophyllene increased gradually from April to the highest in June.It is consistent with the trend of AaCPS gene expression from April to June.Conclusion Through the cloning and analysis of AaCPS gene,a foundation has been laid for further study of the functional identification of the AaCPS gene in the sesquiterpenes biosynthesis pathway in A.argyi.

Wubeizi(Galla Chinensis)is a commonly used traditional Chinese medicine in modern clinical practice,which is widely used to treat hemorrhoids,bleeding,mouth ulcers and other diseases.Based on the incopat patent database,the global Galla Chinensis sub-patent search in the past 20 years was conducted,and a total of 8123 related patents were retrieved;Using the basic chart analysis method,the pattern analysis of Galla Chinensis sub-patents was carried out from the aspects of application trend,patent value,technical field,legal status,etc.The analysis results show that the development of Galla Chinensis is in the rapid development stage,Galla Chinensis has in-depth research in the treatment of hemorrhoids,oral ulcers,bleeding,Chinese herbal medicine,Chinese patent medicine and cosmetics are the hot spot of research and development at present,China and South Korea are the main distribution countries of Galla Chinensis patents.The number of Chinese Galla Chinensis patents is large,but the patent quality,value and patent level of the world have a certain gap.In view of the current development trend of Galla Chinensis,there is still a large amount of patent application space in this field.Chinese Galla Chinensis patent applicants can combine their own advantages,development trend and short board to formulate scientific development strategy,thus improving the core competitiveness of Galla Chinensis industry fundamentally.

Diabetic retinopathy(DR)is a microvascular lesion in diabetes mellitus(DM),which is the main cause of irreversible blindness.The prevalence of DR increases as the number of DM patients increases.Due to limited treatment options,the overall cure rate is low.Mammalian target of rapamycin(mTOR)plays an important role in the occurrence and development of diabetic retinopathy as a hyperglycemic sensor.This article reviews the research progress on the role of mTOR signaling pathway in DR.

Objective To screen the main environmental factors affecting the growth of Prunella vulgaris L.based on MaxEnt model and ArcGIS;To predict its potential suitable habitats in China;To provide reference for the artificial cultivation of Prunella vulgaris L.Methods Totally 346 pieces of sample point data of Prunella vulgaris L.were collected.Combined with data of 38 ecological factors,the main environmental factors affecting the distribution of Prunella vulgaris L.were screened using MaxEnt model.ArcGIS software was used to evaluate the habitat suitability of Prunella vulgaris L.and analyze the distribution of suitable areas for Prunella vulgaris L.worldwide and in China.Results The main ecological factors affecting the distribution of Prunella vulgaris L.were upper(0-30 cm)soil gravel volume percentage,soil effective water content,upper(0-30 cm)soil exchangeable sodium salt,specific soil types related to agricultural use in soil units and upper(0-30 cm)soil sand content.The highly suitable areas of Prunella vulgaris L.were mainly in Yunnan,Heilongjiang,eastern Inner Mongolia and central Sichuan.Conclusion The predicted results can provide a reference for the introduction of cultivation and sustainable resource utilization of Prunella vulgaris L.

Artemsia argyi Levl.et Vant is a commonly used Chinese herbal medicine and moxibustion raw material plant,so far has more than two thousand years of medicinal history,as one of the most commonly used Chinese medicinal materials.The incopat patent database was used to search the worldwide patent data of the last 20 years,and a total of 25279 argyi related patents were retrieved.The pattern of argyi patents was analyzed from the perspectives of global application trend,main technical fields,national economy composition,applicant ranking,patent value and other aspects by means of graph combination.The analysis shows that the innovation and development of argyi is in the stage of rapid development;The medical,Chinese patent medicine,cosmetics and physiotherapy of argyi are the hot research and development of current technology;There are a large number of patents related to argyi in the world,but they are mainly distributed in China and South Korea.Among them,the number of patents related to argyi in China reaches 20381,far higher than that in other countries,but the number of high-value patents is not very large,and the value and quality of patents are still insufficient compared with other countries.From the perspective of the current development trend of argyi,with the deepening of clinical application recognition and scientific research of argyi,there is a large patent space in the field of argyi.Patent applicants can formulate corresponding patent application strategies according to the global development opportunities,technological development status and existing weaknesses.

Objective To construct oligomeric hyaluronic acid(5 KDa)-modified ellagic acid-loaded liposomes(EA-HA-L)to improve the aqueous solubility,in vitro transdermal effect and whitening activity of ellagic acid.Methods Oligomeric hyaluronic acid-modified cholesterol(HA-Chol)was prepared by esterification reaction and structurally characterized by FTIR and 1H NMR;Oligomeric hyaluronic acid-modified ellagic acid-loaded liposomes were prepared by film dispersion-ultrasound method,and the prescribing process was optimized by Box-Behnken design-response surface method,and the particle sizes,the polydispersity index(PDI),zeta potential and encapsulation rate of liposomes under the optimal prescribing process were determined;the difference in solubility between EA-HA-L and free EA was evaluated;in vitro transdermal effect of liposomes were investigated using rat abdominal skin;inhibitory effect on tyrosinase and intracellular tyrosinase in mouse melanoma cells(B16-F10)was surveyed via dopa oxidation method.Results HA-Chol was synthesized and characterized;the optimized prescription process was mass ratio of 10:1 for soy phospholipids to HA-Chol,lipid-drug ratio of 40:1,hydration temperature of 30℃,hydration time of 60 min,ultrasound intensity of 35％,ultrasound time of 21 min,and the particle size of EA-HA-L produced under the optimized prescription process was(140.30±1.30)nm,PDI was(0.29±0.01),the encapsulation rate of ellagic acid was 91.16％±3.06％,and the zeta potential was(-5.67±0.09)mV;after EA was encapsulated by liposomes,the solubility of EA in water increased by about 40-fold;the cumulative transdermal amount of EA-HA-L was 46.98±2.17 μg·cm-2 in 24 h,and the intradermal retention was 66.15±0.61 μg·cm-2,which was 1.72 times higher than that of free EA(P<0.0001)and 1.23 times higher than plain liposome(EA-L)(P<0.01);and the tyrosinase inhibitory activity of EA-HA-L was higher than that of both free EA and EA-L in the EA concentration range of 50-400 μg·mL-1.Conclusion Oligomeric hyaluronic acid-modified ellagic acid-loaded liposomes with small particle size and high encapsulation rate were successfully prepared.EA-HA-L significantly improved the water solubility of EA and possessed better transdermal effect and stronger whitening activity than free EA and EA-L.