Ambulatory Care Facilities ; Humans ; Mental Disorders ; diagnosis ; Occupational Medicine ; Referral and Consultation ; Symptom Assessment

Objective To establish a method for simultaneous determination of 11 components of Solanum nigrum from different producing areas,and to evaluate the quality by chemometrics and entropy weight-technique for order preference by similarity to ideal solution(EW-TOPSIS).Methods The 17 batches of Solanum nigrum samples from 8 provinces were collected.The high performance liquid chromatography(HPLC)method was used to simultaneously determine the contents of medioresino,pinoresinol,quercetin,rutoside,solasonine,solamargine,khasianine,solasodine,desgalactotigonin,diosgenin and β-sitosterol,and the multi-components quantitative control mode of Solanum nigrum was established.The quality evaluation model of Solanum nigrum was established by using chemical recognition pattern and EW-TOPSIS method,and the overall quality was evaluated comprehensively.Results When the 11 components were in the 0.78-39.00,0.55-27.50,0.34-17.00,0.21-10.50,41.87-2 093.50,60.95-3 047.50,2.58-129.00,1.02-51.00,0.46-23.00,1.05-52.50 and 0.42-21.00 μg/mL(r＞0.999 0),their linear relationships were good.The average recovery was 96.81％-100.28％with the RSD＜2.0％(n=9).17 batches of samples clustered into 3 categories.Solamargine,solasonine,desgalactotigonin and medioresino may be the main potential markers affecting the quality of Solanum nigrum.The results of EW-TOPSIS method showed that,the quality evaluation closeness of 17 batches of Solanum nigrum were 0.433 6,0.416 8,0.624 2,0.500 8,0.479 1,0.636 1,0.568 3,0.250 0,0.190 9,0.222 1,0.170 7,0.720 0,0.698 3,0.744 7,0.717 9,0.720 9 and 0.718 3,respectively,indicating that the overall quality of Solanum nigrum from Liaoning,Jilin and Heilongjiang were better,followed by Jiangsu,Henan and Anhui.Conclusion The established HPLC method for simultaneous determination of 11 components in Solanum nigrum is convenient and accurate.Chemometrics and EW-TOPSIS method are objective and comprehensive,which can be used for the overall quality evaluation of Solanum nigrum.

Objective To explore the changes of the level of serum HCY in patients with unstable angina pectoris(UAP). Methods A total of 44 UAP patients were selected in our hospital, 53 patients with AMI and 50 healthy people were selected as control group. 2 mL vein blood was collected and the serum level of HCY was measured. Diagnostic accuracies of HCY was evaluated by receiver operating characteristic (ROC)curve analysis. Results The level of HCY [(16.33±2.06)μmol/L] in UAP group was higher than HCY [(10.43±2.32)μmol/L] in the healthy control group, lower than AMI group [(18.52±3.29)μmol/L], and the differences were statistically significant(P<0.05).Using a cut-off value of 12.26 μmol/L,HCY had the sensitivity of 72.1%,specificity of 76.0%. Conclusion The sensitivity and specificity of HCY on the early diagnosis of UAP was well, which could be a useful predictor for UAP and is worthy of clinical appli-cation.

Chronic liver disease has gradually become a serious health problem worldwide. Liver biopsy is the current gold standard to assess liver lesions; however, it is an invasive procedure that may cause severe complications. Therefore, there is an urgent need for an economical and rapid non-invasive detection method that can be used in clinic for diagnosis. In the past decade, protein glycosylation has become a research hotspot, and the concept of changes in serum proteoglycans structure has gradually been accepted by many researchers as an indication of liver injury. At the same time, N-linked glycans via DNA sequencing equipment-Fluorophore Assisted Carbohydrate Electrophoresis (DSA-FACE) has also brought high sensitivity and specificity diagnostic models (GlycoHepatoTest) for various chronic liver diseases, which is a new strategy for non-invasive diagnosis of liver diseases.

BACKGROUND:To investigate the research focus and follow-up research trend of exosomes in the diagnosis and treatment of chronic kidney disease,in order to provide a corresponding reference basis for the future research of exosomes in the diagnosis and treatment of chronic kidney disease,and promote the development of this field. OBJECTIVE:To conduct a bibliometric analysis of relevant studies in each database painstakingly until now for public publication on exosome diagnosis and treatment of chronic kidney disease,to explore the current state and trend of the field in this discipline,and to predict future research directions. METHODS:A computerized search was performed on WanFang,CNKI,CBM,VIP,Web of Science,Cochrane Library,PubMed,and Embase databases from inception to December 2022 for published literature related to the diagnosis and treatment of chronic kidney disease by exosomes.The literature transcripts were screened by NoteExpress for co-occurrence,clustering and mutational analysis among authors,institutions,and keywords through CiteSpace 6.1R4 and VOSviewer software,and the visual knowledge map was plotted. RESULTS AND CONCLUSION:(1)A total of 804 articles,including 133 in Chinese and 671 in English,were included,and the volume of publications climbed year by year with a rapid trend.We included 3 649 literature authors,including 326 Chinese authors and 3 323 English authors,and the field has formed a core team centered on scholars such as Liu Bicheng,Wang Bin,Lyu LinLi,Wang Xiaonan and Wang Haidong,and has formed a stable multicenter collaboration platform among institutions.Research focuses on the three functions of exosomes:carrier,diagnosis and therapy.(2)As a form of extracellular vesicles,exosomes have important mechanisms for carrying,transferring molecular mediators and signal transduction,and have an important role in the physiopathological development of chronic kidney disease,which can provide important health surveillance data for epidemiological studies and clinical decision-making.In recent years,the development of relevant studies on exosome-based diagnosis of chronic kidney disease has expanded dramatically,forming a development layout of collaborative cooperation among multiple institutions worldwide,led by our scientific research institutions.However,at present,the study of the specific function and mechanism of action of exosomes and contents in the disease process has not been fully validated.Their significance for the early diagnosis and prognosis evaluation of chronic kidney disease is not very clear.The intrinsic mechanism of action-related research is still relatively poor.Isolation and purification techniques still need to be improved,and high-quality evidence-based clinical trials with multicenter and large samples have not yet appeared,which still need to be verified by further studies.

Objective To explore the level of difficulty in the activity and participation among persons with disabilities and chronic illnesses in Hong Kong SAR. Methods A cross-sectional study with 954 subjects of disabilities and chronic illnesses based on the WHO Disability Assessment Schedule II (WHODAS 2.0). Results People with disabilities and chronic illnesses were facing moderate to severe level of difficulty in the activity and participation. Their most difficult aspects were found in the domestic responsibilities and social participation. Conclusion The Hong Kong SAR government should explore and adopt the Classification of Functioning, Disability and Health (ICF) framework and take the elements of activity and participation into consideration for the planning and formulation of rehabilitation policies and services which in the long run, help safeguard the rights of persons with disabilities and chronic illnesses and realize the implementation of the Convention on the Rights of Persons with Disabilities.

Nanoparticulate drug delivery systems (Nano-DDSs) have emerged as possible solution to the obstacles of anticancer drug delivery. However, the clinical outcomes and translation are restricted by several drawbacks, such as low drug loading, premature drug leakage and carrier-related toxicity. Recently, pure drug nano-assemblies (PDNAs), fabricated by the self-assembly or co-assembly of pure drug molecules, have attracted considerable attention. Their facile and reproducible preparation technique helps to remove the bottleneck of nanomedicines including quality control, scale-up production and clinical translation. Acting as both carriers and cargos, the carrier-free PDNAs have an ultra-high or even 100% drug loading. In addition, combination therapies based on PDNAs could possibly address the most intractable problems in cancer treatment, such as tumor metastasis and drug resistance. In the present review, the latest development of PDNAs for cancer treatment is overviewed. First, PDNAs are classified according to the composition of drug molecules, and the assembly mechanisms are discussed. Furthermore, the co-delivery of PDNAs for combination therapies is summarized, with special focus on the improvement of therapeutic outcomes. Finally, future prospects and challenges of PDNAs for efficient cancer therapy are spotlighted.

The unique characteristics of the tumor microenvironment (TME) could be exploited to develop antitumor nanomedicine strategies. However, in many cases, the actual therapeutic effect is far from reaching our expectations due to the notable tumor heterogeneity. Given the amplified characteristics of TME regulated by vascular disrupting agents (VDAs), nanomedicines may achieve unexpected improved efficacy. Herein, we fabricate platelet membrane-fusogenic liposomes (PML/DP&PPa), namely "platesomes", which actively load the hypoxia-activated pro-prodrug DMG-PR104A (DP) and physically encapsulate the photosensitizer pyropheophorbide a (PPa). Considering the different stages of tumor vascular collapse and shutdown induced by a VDA combretastatin-A4 phosphate (CA4P), PML/DP&PPa is injected 3 h after intraperitoneal administration of CA4P. First, CA4P-mediated tumor hemorrhage amplifies the enhanced permeation and retention (EPR) effect, and the platesome-biological targeting further promotes the tumor accumulation of PML/DP&PPa. Besides, CA4P-induced vascular occlusion inhibits oxygen supply, followed by photodynamic therapy-caused acute tumor hypoxia. This prolonged extreme hypoxia contributes to the complete activation of DP and then high inhibitory effect on tumor growth and metastasis. Thus, such a combining strategy of artificially-regulated TME and bio-inspired platesomes pronouncedly improves tumor drug delivery and boosts tumor hypoxia-selective activation, and provides a preferable solution to high-efficiency cancer therapy.