Objective To study the inhibition of anti-PDGF on proliferation of cultured human retinal pigment epithelial cells(hRPE) in vitro.Methods hRPE were cultivated and were exposed to different concentrations of anti-PDGF(0,1?10-6,5?10-6,1?10-5,5?10-5 and 1?10-4 mg?L-1) respectively .Growth curves were measured with cell counting and the vitalities of cells were examined by percentage of vital cells and total cells.Using MTT staining colorimetric to measure the inhibitory rate.The changes of cell cycle of hRPE were collected and their growth were detected with FCM analysis and the morphological changes of cells were observed by light microscope and electron microscope.Results Anti-PDGF of 1?10-6mg?L-1 stimulated hRPE proliferation slightly.AntiPDGF at dosages ranging from 5?10-6mg?L-1 to 1?10-4mg?L-1 inhibited cell proliferation effectively in a dose-dependent and time-dependent manner(P

Objective: To clone and express the recombinant human Vasostatin120-180aa domain and to investigate its activity of inhibiting angiogenesis in CAM. Methods: After amplifying gene of human Vasostatin120-180aa domain, we sub-cloned it into pQE30 vector and expressed Vasostatin120-180aa domain by E. coli. We also tested its ability of inhibiting angiogenesis in CAM. Results: The total gene length of human Vasostatin120-180aa domain is 180 bp. Expressed by pQE30 system in E. coli and purified by IMAC, Vasostatin120-180aa was detected by SDS-PAGE, in which there is a positive band and molecular weight is about 8 kD. Conclusions: Recombinant human Vasostatin120-180aa could play effective role in anti-angiogenesis in CAM and it showed a dose dependent effect in some degree.

Objective To observe the effect on Foxg1 gene expression in the subgranular zone (SGZ) of cerebral tissue from neonatal rats with hypoxic-ischemic brain damage (HIBD) after transplantation of neural stem cells (NSCs) derived from umbilical cord blood.Methods Mononuclear cells separated from umbilical cord blood by density gradient centrifugation were cultured with orientated induction to differentiate the NSCs.The neuronal phenotype was identified using immunocytochemical methods.A total of 150 Sprague-Dawley rats were randomly divided into a sham-operation group,an HIBD group and an HIBD-NSCs group.Rats in the HIBD group and the HIBD-NSCs group were subject to ligation of the left carotid artery and then kept in a box under 8％ oxygen and 92％ nitrogen for 2.5 hours to establish the HIBD animal model.The artery was separated but not ligated in the sham operation group,which was not subjected to hypoxia.Twenty-four hours after the operation,the cultivated NSCs were transplanted by caudal vein injection into the rats in the HIBD-NSCs group.Rats were then sacrificed on the 3rd,7th,14th,21st and 28th days after the operation.Foxg1 gene expression in the SGZ was examined using in-situ hybridization methods.Results The number of Nestin-positive cells peaked on the 6th day of cultivation and then decreased by the 9th day.The Foxg1 gene was expressed in the SGZs of each group.The expression increased by the 3rd day after surgery in the HIBD and HIBD-NSCs groups,and peaked on 7th day after the operation,then declined gradually.The average expression level of Foxg1 in the HIBD group was significantly lower than that in the HIBD-NSCs group on the 7th day and thereafter.Conclusions Human umbilical cord blood mesenchymal stem cells can be induced and differentiated into neural stem cells.Foxg1 genes can still be present in the SGZ after birth.HIBD can induce the expression of Foxg1 genes.Transplanting NSCs can promote the expression of Foxg1 genes and improve morphological and functional recovery after HIBD,at least in neonatal rats.

OBJECTIVE: To evaluate correlation between and agreement in light transmittance aggregation (LTA) and thromboelastography (TEG) in laboratory diagnosing aspirin resistance (AR), and to determine the prevalence of AR in old patients. METHODS: Patients in the Wanshoulu District of Beijing with ischemic atherothrombotic diseases were recruited. Inclusion criteria were age ≥ 65 years, and having received regular aspirin therapy (75-100 mg daily) for at least 4 weeks. On the basis of LTA assay, the definition of AR was taken as aggregation of ≥ 20% with AA (arachidonic acid), and of ≥ 70% with ADP (adenosine diphosphate). Aspirin-sensitivity was indicated by the absence of either of these criteria; aspirinsensitivity was indicated as both criteria being met. The definition of AR by TEG is ≥ 50% via AA-induced whole blood aggregation. RESULTS: There were 13.69% prevalence of aspirin resistance for LTA using AA as the agonist, 30.16% prevalence of aspirin resistance for LTA using ADP as the agonist, and 23.67% prevalence of aspirin resistance for TEG using AA as the agonist. Results from these tests showed poor agreement (Kappa<0.4). However, by the method of LTA using AA and ADP as the agonists, prevalence of AR was 8.35%. By methods of AA-induced LTA and AA-induced TEG, prevalence of AR was 8.82%. Results from these two latter methods showed good agreement (Kappa = 0.793). CONCLUSION Combined methods, as described here, have good correlation and agreement in the assays of AR, and the results with them represent a realistic measure of the prevalence of AR. Prevalence of AR of elderly patients from Wanshoulu district of Beijing is about 9%.
Aged ; Aspirin ; pharmacology ; therapeutic use ; Cerebrovascular Disorders ; blood ; drug therapy ; Coronary Disease ; blood ; drug therapy ; Drug Resistance ; Female ; Humans ; Male ; Platelet Aggregation ; drug effects ; Platelet Aggregation Inhibitors ; pharmacology ; therapeutic use ; Prevalence ; Surveys and Questionnaires

The composition and concentration of volatile organic compounds (VOCs) in exhaled breath are closely related to human health and the analysis of VOCs by collecting human exhaled breath has been widely used in disease surveillance research. This article reviewed the collection, enrichment, and detection methods of exhaled VOCs, which can provide a reference for selecting appropriate technology for follow-up research. The exhaled breath collection devices mainly include sampling bags for mixed exhaled breath and biological volatile organic compound (Bio-VOC) samplers for alveolar air. The pre-enrichment equipment included thermal desorption (TD), solid-phase microextraction device (SPME), and needle trap device (NTD). The detection methods of exhaled VOCs include gas chromatography-mass spectrometry (GC-MS), proton transfer reaction mass spectrometry (PTR-MS), selective ion flow tube mass spectrometry (SIFT-MS), and electronic nose. At present, the collection and enrichment technology of exhaled breath is not mature yet, and its influence on the results of detection is lack of evaluation. In the future, the research on collection and enrichment technology of exhaled breath should be strengthened to further promote the application of exhaled breath in disease surveillance research.