THK5351_COA_25145_MedChemExpress

专家述评—认知障碍慢性阻塞性肺疾病合并症—常潇丹，黄丹辉，蔡绍曦基金项目：国家自然科学基金项目（编号=81970032）作者单位：510515广州，南方医科大学南方医院呼吸与危重症医学科,慢性气道疾病研究室作者简介：常潇丹（1998-），女，在读硕士研究生,研究方向:呼吸系统疾病护理。

*************************通讯作者；蔡绍曦（I960-），女，医学博士，主任医师，教授，博士研究生导师，研究方向:慢性气道炎症、呼吸机相关性肺损伤的临床与基础研究。

E-mail：hxkcai@126・com蔡绍曦，医学博士，主任医师，博士研究生导师，博士后合作导师，南方医科大学南方医院呼吸与危重症医学科主任,广东电预防医学会呼吸病预防与控制专业委员会主任委员，广东省医学会呼吸病学分会前任主任委员，广东塔医师协会呼吸\a k.,;B科医师分会副主任委员冲华医学会呼吸病学分会委员及慢阻肺学组委员，中国医厂/师协会变态反应医师分会副主任委员，中国医师协会呼吸医师分会常委，《中国呼I I'*吸与危重监护杂志》常务编委，《中华结核与呼吸杂志》《中华医学杂志》通讯编委，CHEST（中文版）杂志编委。

主要研究方向:慢性气道疾病临床与应用基础研究，肺部疑难危重症诊治。

主持承担国家自然科学基金项目6项,其他国家级基金项目2项，省级课题8项。

广东省“名医工程”首批专家之一，并获得专项基金资助。

拥有国家发明专利1项，实用新型专利4项。

获广东霜科技进步二等奖1项，广卿市科技进步三等奖1项，军队医疗成果三等奖2项，军队科技成果三等奖1项，发表学术论文200余篇，其中SCI收录论文50余篇。

已培养博士、硕士研究生80余人。

［摘要］慢性阻塞性肺疾病（COPD）合并认知障碍的发病率较高，目前被证实有发展为痴呆症的可能,并且对患者的生活和COPD的疾病管理造成障碍，值得关注。

基于其发病隐匿,易被临床医师及患者家属忽略，增加其诊治难度，现对其发病特点、影响、筛查和评估及治疗等方面的研究进展进行述评，为临床诊治提供参考。

Product Name:Bedaquiline fumarate CAS No.:845533-86-0Cat. No.:HY-14881A Product Data SheetMWt:671.58Formula:C36H35BrN2O6Purity :>98%Solubility:DMSOMechanisms:Biological Activity:Bedaquiline fumarate(TMC207; R207910) is an anti-tuberculosis drug which selectively inhibit the Pathways:Anti-infection; Target:Antibacterial q (;)g y mycobacterial energy metabolism i.e. ATP synthesis and found to be effective against all states ofMycobacterium tuberculosis.IC50 value:Target: anti-TB Preclinical studies have shown the efficacy of bedaquiline in terms of reduction in bacterial load and treatment duration. Phase II clinical studies have established the safety, tolerability and earliersputum conversion time in patients with MDR-TB. In 2012 FDA approved bedaquiline for treatment of MDR-TB and XDR-TB [1]. Bedaquiline possesses a unique mechanism of action that disrupts the ti it f th b t i l d i t i h h t th Cli i l t i l h b d t d References:[1]. Lakshmanan M, et al. Bedaquiline - The first ATP synthase inhibitor against multi drug resistanttuberculosis. J Young Pharm. 2013 Dec;5(4):112-115.[2]Chahine EB et al Bedaquiline:a novel diarylquinoline for multidrug-resistant tuberculosis Ann activity of the mycobacterial adenosine triphosphate synthase. Clinical trials have been conducted evaluating the use of bedaquiline in combination with a background regimen for the treatment of adults with pulmonary MDR-TB. Bedaquilin...[2]. Chahine EB, et al. Bedaquiline: a novel diarylquinoline for multidrug-resistant tuberculosis. AnnPharmacother. 2014 Jan;48(1):107-15.Caution: Not fully tested. For research purposes onlyMedchemexpress LLC18 W i l k i n s o n W a y , P r i n c e t o n , N J 08540,U S AT E m a i l : i n f o @m e d c h e m e x p r e s s .c o m W e b : w w w .m e d c h e m e x p r e s s .c o m。

Interlaboratory T est …Microbial barrier testing of packa ging materials for medical devices which are tobe ster ili ze d“according to DIN 58953-6:2010Test re portJanuary 2013Author: Daniel ZahnISEGA Forschungs- und Untersuchungsgesellschaft mbHTest report Page 2 / 15Table of contentsSeite1.General information on the Interlaboratory Test (3)1.1 Organization (3)1.2 Occasion and Objective (3)1.3 Time Schedule (3)1.4 Participants (4)2.Sample material (4)2.1 Sample Description and Execution of the Test (4)2.1.1 Materials for the Analysis of the Germ Proofness under Humidityaccording to DIN 58953-6, section 3 (5)2.1.2 Materials for the Analysis of the Germ Proofness with Air Permeanceaccording to DIN 58953-6, section 4 (5)2.2 Sample Preparation and Despatch (5)2.3 Additional Sample and Re-examination (6)3.Results (6)3.1 Preliminary Remark (6)3.2 Note on the Record of Test Results (6)3.3 Comment on the Statistical Evaluation (6)3.4 Outlier tests (7)3.5 Record of Test Results (7)3.5.1 Record of Test Results Sample F1 (8)3.5.2 Record of Test Results Sample F2 (9)3.5.3 Record of Test Results Sample F3 (10)3.5.4 Record of Test Results Sample L1 (11)3.5.5 Record of Test Results Sample L2 (12)3.5.6 Record of Test Results Sample L3 (13)3.5.7 Record of Test Results Sample L4 (14)4.Overview and Summary (15)Test report Page 3 / 15 1. General Information on the Interlaboratory Test1.1 OrganizationOrganizer of the Interlaboratory Test:Sterile Barrier Association (SBA)Mr. David Harding (director.general@)Pennygate House, St WeonardsHerfordshire HR2 8PT / Great BritainRealization of the Interlaboratory Test:Verein zur Förderung der Forschung und Ausbildung fürFaserstoff- und Verpackungschemie e. V. (VFV)vfv@isega.dePostfach 10 11 0963707 Aschaffenburg / GermanyTechnical support:ISEGA Forschungs- u. Untersuchungsgesellschaft mbHDr. Julia Riedlinger / Mr. Daniel Zahn (info@isega.de)Zeppelinstraße 3 – 563741 Aschaffenburg / Germany1.2 Occasion and ObjectiveIn order to demonstrate compliance with the requirements of the ISO 11607-1:2006 …Packaging for terminally sterilized medical devices -- Part 1: Requirements for materials, sterile barrier systems and packaging systems“ validated test methods are to be preferably utilized.For the confirmation of the microbial barrier properties of porous materials demanded in the ISO 11607-1, the DIN 58953-6:2010 …Sterilization – Sterile supply – Part 6: Microbial barrier testing of packaging materials for medical devices which are to be sterilized“ represents a conclusive method which can be performed without the need for extensive equipment.However, since momentarily no validation data on DIN 58953-6 is at hand concerns emerged that the method may lose importance against validated methods in a revision of the ISO 11607-1 or may even not be considered at all.Within the framework of this interlaboratory test, data on the reproducibility of the results obtained by means of the analysis according to DIN 58953-6 shall be gathered.1.3 Time ScheduleSeptember 2010:The Sterile Barrier Association queried ISEGA Forschungs- und Unter-suchungsgesellschaft about the technical support for the interlaboratory test.For the realization, the Verein zur Förderung der Forschung und Ausbildungfür Faserstoff- und Verpackungschemie e. V. (VFV) was won over.November 2010: Preliminary announcement of the interlaboratory test / Seach for interested laboratoriesTest report Page 4 / 15 January toDecember 2011: Search for suitable sample material / Carrying out of numerous pre-trials on various materialsJanuary 2012:Renewed contact or search for additional interested laboratories, respectively February 2012: Sending out of registration forms / preparation of sample materialMarch 2012: Registration deadline / sample despatchMay / June 2012: Results come in / statistical evaluationJuly 2012: Despatch of samples for the re-examinationSeptember 2012: Results of the re-examination come in / statistical evaluationNovember 2012: Results are sent to the participantsDecember 2012/January 2013: Compilation of the test report1.4 ParticipantsFive different German laboratories participated in the interlaboratory test. In one laboratory, the analyses were performed by two testers working independently so that six valid results overall were received which can be taken into consideration in the evaluation.To ensure an anonymous evaluation of the results, each participant was assigned a laboratory number (laboratory 1 to laboratory 6) in random order, which was disclosed only to the laboratory in question. The complete laboratory number breakdown was known solely by the ISEGA staff supporting the proficiency test.2. Sample Material2.1 Sample Description and Execution of the TestUtmost care in the selection of suitable sample material was taken to include different materials used in the manufacture of packaging for terminally sterilized medical devices.With the help of numerous pre-trials the materials were chosen covering a wide range of results from mostly germ-proof samples to germ permeable materials.Test report Page 5 / 15 2.1.1 Materials for the Analysis of Germ Proofness under Humidity according to DIN 58953-6, section 3:The participants were advised to perform the analysis on the samples according to DIN 58953-6, section 3, and to protocol their findings on the provided result sheets.The only deviation from the norm was that in case of the growth of 1 -5 colony-forming units (in the following abbreviated as CFU) per sample, no re-examination 20 test pieces was performed.2.1.2 Materials for the Analysis of Germ Proofness with Air Permeance according to DIN 58953-6, section 4:The participants were advised to perform the analysis on the samples according to DIN 58953-6, section 4, and to protocol their findings on the provided result sheets.2.2 Sample Preparation and DespatchFor the analysis of the germ proofness under humidity, 10 test pieces in the size of 50 x 50 mm were cut out of each sample and heat-sealed into a sterilization pouch with the side to be tested up.Out of the 10 test pieces, 5 were intended for the testing and one each for the two controls according to DIN 58953-6, sections 3.6.2 and 3.6.3. The rest should remain as replacements (e.g. in case of the dropping of a test piece on the floor etc.).For the analysis of the germ proofness with air permeance, 15 circular test pieces with a diameter of 40 mm were punched out of each sample and heat-sealed into a sterilization pouch with the side to be tested up.Test report Page 6 / 15 Out of the 15 test pieces, 10 were intended for the testing and one each for the two controls according to DIN 58953-6, section 4.9. The rest should remain as replacements (e.g. in case of the dropping of a test piece on the floor etc.).The sterilization pouches with the test pieces were steam-sterilized in an autoclave for 15 minutes at 121 °C and stored in an climatic room at 23 °C and 50 % relative humidity until despatch.2.3 Additional Sample and Re-examinationFor the analysis of the germ proofness under humidity another test round was performed in July / August 2012. For this, an additional sample (sample L4) was sent to the laboratories and analysed (see 2.1.2). The results were considered in the evaluation.For validation or confirmation of non-plausible results, occasional samples for re-examination were sent out to the laboratories. The results of these re-examinations (July / August 2012) were not taken into consideration in the evaluation.3. Results3.1 Preliminary RemarkSince the analysis of germ proofness is designed to be a pass / fail – test, the statistical values and precision data were meant only to serve informative purposes.The evaluation of the materials according to DIN58953-6,sections 3.7and 4.7.6by the laboratories should be the most decisive criterion for the evaluation of reproducibility of the interlaboratory test results. Based on this, the classification of a sample as “sufficiently germ-proof” or “not sufficiently germ-proof” is carried out.3.2 Note on the Record of Test Results:The exact counting of individual CFUs is not possible with the required precision if the values turn out to be very high. Thus, an upper limit of 100 CFU per agar plate or per test pieces, respectively, was defined. Individual values above this limit and values which were stated with “> 100” by the laboratories, are listed as 100 CFU per agar plate or per test piece, respectively, in the evaluation.Test report Page 7 / 153.3 Comment on the Statistical EvaluationThe statistical evaluation was done based on the series of standards DIN ISO 5725-1ff.The arithmetic laboratory mean X i and the laboratory standard deviation s i were calculated from the individual measurement values obtained by the laboratories.The overall mean X of the laboratory means as well as the precision data of the method (reproducibility and repeatability) were determined for each sample3.4 Outlier testsThe Mandel's h-statistics test was utilised as outlier test for differences between the laboratory means of the participants.A laboratory was identified as a “statistical outlier” as soon as an exceedance of Mandel's h test statistic at the 1 % significance level was detected.The respective results of the laboratories identified as outliers were not considered in the statistical evaluation.3.5 Record of Test ResultsOn the following pages, the records of the test results for each interlaboratory test sample with the statistical evaluation and the evaluation according to DIN 58953-6 are compiled.Test report Page 8 / 153.5.1 Record of Test Results Sample F1Individual Measurement values:Statistical Evaluation:Comment:Laboratory 4, as an outlier, has not been taken into consideration in the statistical Evaluation.Outlier criterion: Mandel's h-statistics (1 % level of significance)Overall mean X:91.0CFU / agar plateRepeatability standard deviation s r:17.9CFU / agar plateReproducibility standard deviation s R:19.8CFU / agar plateRepeatability r:50.0CFU / agar plateRepeatability coefficient of variation:19.6%Reproducibility R:55.5CFU / agar plateReproducibility coefficient of variation:21.8%Evaluation according to DIN 58953-6, Section 3.7:Lab. 1 - 6:Number of CFU > 5, i.e. the material is classified as not sufficiently germ-proof.Conclusion:All of the participants, even the Laboratory 4 which was identified as an outlier, came to the same results and would classify the sample material as “not sufficiently germ-proof”Test report Page 9 / 153.5.2 Record of Test Results Sample F2Individual Measurement values:Statistical Evaluation:Comment:Laboratory 4, as an outlier, has not been taken into consideration in the statistical Evaluation.Outlier criterion: Mandel's h-statistics (1 % level of significance)Overall mean X:0CFU / agar plateRepeatability standard deviation s r:0CFU / agar plateReproducibility standard deviation s R:0CFU / agar plateRepeatability r:0CFU / agar plateRepeatability coefficient of variation:0%Reproducibility R:0CFU / agar plateReproducibility coefficient of variation:0%Evaluation according to DIN 58953-6, Section 3.7:Lab. 1 – 3:Number of CFU = 0, i.e. the material is classified as sufficiently germ-proofLab. 4:Number of CFU ≤ 5, i.e. a re-examination on 20 test pieces would have to be done Lab. 5 – 6:Number of CFU = 0, i.e. the material is classified as sufficiently germ-proofConclusion:All of the participants, except for the Laboratory 4 which was identified as an outlier, came to the same results and would classify the sample material as “sufficiently germ-proof”.Test report Page 10 / 153.5.3 Record of Test Results Sample F3Individual Measurement values:Statistical Evaluation:Overall mean X:30.1CFU / agar plateRepeatability standard deviation s r:17.2CFU / agar plateReproducibility standard deviation s R:30.9CFU / agar plateRepeatability r:48.2CFU / agar plateRepeatability coefficient of variation:57.1%Reproducibility R:86.5CFU / agar plateReproducibility coefficient of variation:103%Evaluation according to DIN 58953-6, Section 3.7:Lab. 1 - 4:Number of CFU > 5, i.e. the material is classified as not sufficiently germ-proof. Lab. 5:Number of CFU = 0, i.e. the material is classified as sufficiently germ-proof. Lab. 6:Number of CFU > 5, i.e. the material is classified as not sufficiently germ-proof.Conclusion:Five of the six participants came to the same result and would classify the sample as “not sufficiently germ-proof”. Only laboratory 5 would classify the sample material as “sufficiently germ-proof”.Test report Page 11 / 153.5.4 Record of Test Results Sample L1Individual Measurement values:Statistical Evaluation:Overall mean X:0.09CFU / test pieceRepeatability standard deviation s r:0.32CFU / test pieceReproducibility standard deviation s R:0.33CFU / test pieceRepeatability r:0.91CFU / test pieceRepeatability coefficient of variation:357%Reproducibility R:0.93CFU / test pieceReproducibility coefficient of variation:366%Evaluation according to DIN 58953-6, Section 4.7:Lab. 1 - 6:Number of CFU < 15, i.e. the material is classified as sufficiently germ-proof.Conclusion:All participants came to the same result and would classify the sample as “sufficiently germ-proof”.Test report Page 12 / 153.5.5 Record of Test Results Sample L2Individual Measurement values:Statistical Evaluation:Overall mean X:0.73CFU / test pieceRepeatability standard deviation s r: 1.10CFU / test pieceReproducibility standard deviation s R: 1.18CFU / test pieceRepeatability r: 3.07CFU / test pieceRepeatability coefficient of variation:151%Reproducibility R: 3.32CFU / test pieceReproducibility coefficient of variation:163%Evaluation according to DIN 58953-6, Section 4.7:Lab. 1:Number of CFU > 15, i.e. the material is classified as not sufficiently germ-proof. Lab. 2 - 6:Number of CFU < 15, i.e. the material is classified as sufficiently germ-proof.Conclusion:Five of the six participants came to the same result and would classify the sample as “sufficiently germ-proof”. Only laboratory 1 exceeds the limit value slightly by 1 CFU, so that the sample would be classified as “not sufficiently germ-proof”.Test report Page 13 / 153.5.6 Record of Test Results Sample L3Individual Measurement values:Statistical Evaluation:Overall mean X:0.36CFU / test pieceRepeatability standard deviation s r: 1.00CFU / test pieceReproducibility standard deviation s R: 1.06CFU / test pieceRepeatability r: 2.79CFU / test pieceRepeatability coefficient of variation:274%Reproducibility R: 2.98CFU / test pieceReproducibility coefficient of variation:293%Evaluation according to DIN 58953-6, Section 4.7:Lab. 1 - 6:Number of CFU < 15, i.e. the material is classified as sufficiently germ-proof.Conclusion:All participants came to the same result and would classify the sample as “sufficiently germ-proof”.Test report Page 14 / 153.5.7 Record of Test Results Sample L4Individual Measurement values:Statistical Evaluation:Overall mean X:35.1CFU / test pieceRepeatability standard deviation s r:18.8CFU / test pieceReproducibility standard deviation s R:42.6CFU / test pieceRepeatability r:52.7CFU / test pieceRepeatability coefficient of variation:53.7%Reproducibility R:119CFU / test pieceReproducibility coefficient of variation:122%Evaluation according to DIN 58953-6, Section 4.7:Lab. 1 - 3:Number of CFU > 15, i.e. the material is classified as not sufficiently germ-proof. Lab. 4:Number of CFU < 15, i.e. the material is classified as sufficiently germ-proof. Lab. 5 - 6:Number of CFU > 15, i.e. the material is classified as not sufficiently germ-proof.Conclusion:Five of the six participants came to the same result and would classify the sample as“not sufficiently germ-proof”.Test report Page 15 / 15 4. Overview and SummarySummary:In case of four of the overall seven tested materials, a 100 % consensus was reached regarding the evaluation as“sufficiently germ-proof”and“not sufficiently germ-proof”according to DIN 58 953-6.As for the other three tested materials, there were always 5 concurrent participants out of 6 (83 %). In each case, only one laboratory would have evaluated the sample differently.It is noteworthy that the materials about the evaluation of which a 100 % consensus was reached were the smooth sterilization papers. The differences with one deviating laboratory each occurred with the slightly less homogeneous materials, such as with the creped paper and the nonwoven materials.。

Mark Rank Abbreviated Journal Title ISSN JCR Data More Information (linked to journal information)Total Cites Impact5-YearFactor ImpactFactor NATURE0028-0836********.2836.235SCIENCE0036-807548083631.20132.452P NATL ACAD SCI USA0027-84245042439.68110.4721CHEM REV0009-266510370240.19742.0542NAT MATER1476-11223924232.84136.7323CHEM SOC REV0306-00123591828.7628.0984ACCOUNTS CHEM RES0001-48423966421.6422.5075NAT CHEM1755-4330526020.52420.5336ALDRICHIM ACTA0002-5100110016.09116.8827NANO TODAY1748-0132217015.35516.0788ANNU REV PHYS CHEM0066-426X665714.1317.489ADV MATER0935-96487986013.87712.81310ANGEW CHEM INT EDIT1433-785120986213.45513.19511NANO LETT1530-69847528713.19813.84312COORDIN CHEM REV0010-85452506212.1112.74413SURF SCI REP0167-5729370211.69618.09514ACS NANO1936-0851*******.77411.17115MED RES REV0198-6325309610.710.0316J PHOTOCH PHOTOBIO C1389-5567165410.3612.45817ADV FUNCT MATER1616-301X2850310.1799.9218J AM CHEM SOC0002-78634083079.9079.76619NAT PROD REP0265-056857749.799.67120ENERG ENVIRON SCI1754-569250879.6110.81321PROG INORG CHEM0079-637914959.3338.33322ANNU REV ANAL CHEM1936-13278769.04811.80623PROG SURF SCI0079-681617288.6368.08824SMALL1613-6810151818.3498.26225ADV COLLOID INTERFAC0001-868664148.128.37226CURR OPIN COLLOID IN1359-029444788.017.83727ADV CARBOHYD CHEM BI0065-23188517.643 5.5628CHEM SCI2041-652016977.5257.54529CATAL REV0161-494027377.59.92730ANNU REV CHEM BIOMOL1947-54381587.2947.29431CHEM MATER0897-4756699267.286 6.94932ADV ORGANOMET CHEM0065-30559517 6.63633NANO RES1998-01242017 6.977.46134CHEMSUSCHEM1864-56313040 6.8277.17135GREEN CHEM1463-926212023 6.32 6.76136TRAC-TREND ANAL CHEM0165-99366620 6.273 6.87337J PHYS CHEM LETT1948-71854695 6.213 6.217 38CHEM COMMUN1359-7345105562 6.169 6.082 39ADV SYNTH CATAL1615-415014629 6.048 5.904 40J CATAL0021-951733570 6.002 6.201 41J MATER CHEM0959-942846166 5.968 5.992 42INT REV PHYS CHEM0144-235X1533 5.967 6.977 43CHEM-EUR J0947-653954127 5.925 5.866 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COMPOS ANAL0889-15753582 2.079 3.257 207APPL ORGANOMET CHEM0268-26052774 2.061 1.849 208POLYHEDRON0277-538713245 2.057 2.118209J BIOMOL SCREEN1087-05712131 2.049 2.066 210J FLUORINE CHEM0022-11394628 2.033 1.95 211SOLVENT EXTR ION EXC0736-******** 2.024 1.81 212J ANAL TOXICOL0146-47602651 2.022 1.994 213ADSORPTION0929-560713282 2.215 214SURF SCI0039-602823707 1.994 1.661 215J ENVIRON MONITOR1464-03253800 1.991 2.245 216J IND ENG CHEM1226-086X1844 1.977 1.647 216PROG ORG COAT0300-94404252 1.977 2.167 218INORG CHEM COMMUN1387-70036187 1.972 1.975 219BIOMED CHROMATOGR0269-38792728 1.966 1.88 220J PHYS ORG CHEM0894-32302668 1.963 1.648Eigenfactor® MetricsMore Information Immediacy Articles Cited Eigenfactor®Article Influence®Index Half-life Score Score9.698419.4 1.6565820.3536.0758719.4 1.4128217.5081.87436147.8 1.6033 4.8927.1581967.90.2146413.3056.246134 4.70.2208917.8915.471314 3.20.13678.0693.4612670.10127.2865.308120 1.80.032847.94472 5.70.00328 5.2462.32437 2.80.0121 5.1443.267309.70.016877.4672.15578950.26226 4.0612.8982002 5.40.513933.372.082955 4.20.34576 5.0592.1791517.70.04173.2063.2588.70.009037.8051.631114120.12069 3.5842.12524 6.80.00678 2.7330.37516 6.60.00367 3.3871.51453340.112652.9391.86531767.50.816772.7922.61172 5.70.01594 2.9722.049548 1.90.01802 2.6940>10.00.00081 2.9341.0520 3.10.0052 3.930.51290.00413 3.9451.221430 3.20.072332.5070.633797.80.01312 2.3720.829707.40.00919 2.2640.3336>10.00.00074 1.6142.8483280.90.00453 2.4890.4297>10.00.00219 2.9011.41724 1.40.000932.9691.637673 6.40.15823 1.910.52>10.00.00074 1.8340.918122 2.30.01112 2.3841.1142012.40.01339 1.8641.09442 4.20.03184 1.4971.022138 5.60.01667 1.8071.405529 1.40.024172.072 1.5033408 5.50.24077 1.547 1.003398 4.10.04809 1.4850.842389.60.04417 1.5691.0882527 4.30.12631 1.571 1.75127.10.004032.549 1.29416973.90.1688 1.527 1.187653 1.40.01164 1.561 1.48516804.90.18767 1.411 0.93313287.70.17541 1.5470.915331 6.70.04644 1.6491.143538 3.60.05012 1.7050.858471 5.40.04732 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0.30427650.011510.675 0.5575198.10.032360.622 0.531271 6.80.01050.542 0.3713267.50.020820.69 0.1503.90.001480.557 0.6211774.90.008970.574 0.37777 1.40.000560.519 0.325756 2.80.015320.517 0.658584>10.00.024370.447 0.4051265.80.006880.602 0.6922089.50.008880.572 0.451010>10.00.078030.694 0.401404>10.00.017360.539 0.51319590.007720.464 0.7552050 3.80.097330.507 0.376165 3.30.006880.645 0.66712>10.00.00110.509 0.4782497.40.017690.585 0.3366606.60.036250.587 0.5871098.60.00970.678 0.3982017.80.010420.532 0.974265 5.60.011680.86 0.575120 3.70.005470.581 0.3184918.50.029120.67 0.328274>10.00.010820.469 0.26411090.003750.484 0.4863257.70.015030.544 0.237257 5.10.005680.505 0.3831811 5.30.077130.549 0.29290 6.70.012010.475 0.2563950.001450.383 0.448163 5.60.008040.74 0.4131267.20.004260.402 0.4064617.20.019290.3870.46126 5.50.006040.602 0.2781807.30.008730.496 0.15645>10.00.001770.415 0.2139480.004840.536 0.29100 5.90.003030.562 0.511319>10.00.034280.619 0.318371 5.40.010620.649 0.2145 3.70.005160.354 0.275204 6.70.007280.481 0.454476 4.80.011950.353 0.422161 4.80.006940.423 0.466146 6.60.004980.398。

第52卷第9期 辽 宁 化 工 Vol.52，No. 9 2023年9月 Liaoning Chemical Industry September，2023收稿日期： 2022-09-12HPLC 法测定阿瑞匹坦中基因毒性杂质3-氯甲基-1,2,4-三唑啉-5-酮常月赏，兰公剑*，王阔，陶蕾（南京正大天晴制药有限公司，江苏 南京 210046）摘 要：建立了液相色谱法测定阿瑞匹坦基因毒性杂质3-氯甲基-1,2,4-三唑啉-5-酮的分析方法。

采用安捷伦Poroshell 120系列EC -C18柱为色谱柱，0.1%磷酸溶液为流动相A，乙腈为流动相B，进行线性梯度洗脱，流速为1.0 mL ·min -1，柱温为30 ℃；检测波长为210 nm。

结果表明：溶剂空白及主峰不干扰该杂质的测定；该杂质在限度浓度20%~200%的范围内线性关系良好；该杂质的回收率在99.3%~101.0%范围内，RSD 小于5.0%；对照品溶液及供试液在室温放置18 h 内稳定；重复性和中间精密度RSD 均小于5.0%。

本方法专属性及精密度好，准确度高，可以用于本品中基因毒性杂质3-氯甲 基-1,2,4-三唑啉-5-酮的检测。

关 键 词：阿瑞匹坦；基因毒性杂质；3-氯甲基-1,2,4-三唑啉-5-酮；液相色谱法（HPLC） 中图分类号：TQ460.7 文献标识码： A 文章编号： 1004-0935（2023）09-1399-04阿瑞匹坦与其他止吐药物联合用药，适用于预防高度致吐性抗肿瘤化疗的初次和重复治疗过程中出现的急性和迟发性恶心和呕吐[1-6]。

阿瑞匹坦具有全新的药理作用机制，其作为首个神经激肽-1（NK -1）受体拮抗剂为预防和治疗癌症患者化疗引起的恶心呕吐提供了更多的药物治疗选择[7-9]。

3-氯甲基-1,2,4-三唑啉-5-酮是合成阿瑞匹坦的关键物料，属三唑啉酮类衍生物[10]。

3-氯甲基-1,2, 4-三唑啉-5-酮为单卤代烷烃化合物[11-12]，依据ICH M7，该化合物具有基因警示结构。

Peptides, Inhibitors, AgonistsProduct Data SheetProduct Name: THK5351Cat. No.:GC30814Chemical Name:CHEMICAL PROPERTIESCas No.: 1707147-26-9Molecular Formula: C18H18FN3O2Molecular Weight: 327.35Storage: PowderSolubility: Soluble in DMSOChemical Structure:BackgroundTHK5351 can be radiolabeled and used as a radiotracer for in vivo imaging of tau pathology in the brain.Aggregated tau protein is a major neuropathological substrate central to the pathophysiology of neurodegenerative diseases such as Alzheimer's disease (AD). 18F−THK5351 binds to Alzheimer disease hippocampal homogenates with hi gh affinity (Kd=2.9 nM; maximum number of binding sites=368.3 pmol/g tissue). It has fast dissociation from white−matter tissue. The THK5351 binding amount correlates with the amount of tau deposits in tissue[1].THK5351 exhibits favorable pharmacokinetics and no defluorination in mice. 18F−THK5351 enters the brain immediately after intravenous injection and shows a fast washout from the brain. At 0.1 and 1 mg/kg, no animals died and no treatment−related c hanges in any animal are noted in clinical observations, body weight measurement, and pathologic examination[1]. Autoradiography in the brain sections of patients with PSP demonstrates [3H]THK−5351 binding to tau deposits with a high selectivity. Although patie nts with PSP exhibits no remarkable [18F]THK−5351 retention in the temporal cortex, significantly higher tracer retention is observed in the globus pallidus and midbrain[2].References:[1]. Harada R, et al. 18F-THK5351: A Novel PET Radiotracer for Imaging Neurofibrillary Pathology in Alzheimer Disease. J Nucl Med. 2016 Feb;57(2):208-14.[2]. Ishiki A, et al. Tau imaging with [18 F]THK-5351 in progressive supranuclear palsy. Eur J Neurol. 2017 Jan;24(1):130-136.Research Update1. Effect of Hydrofluoric Acid Concentration and Etching Time on Bond Strength to Lithium Disilicate Glass Ceramic. Oper Dent. 2017 Nov/Dec;42(6):606-615. doi: 10.2341/16-215-L. Epub 2017 Jul 14. PMID:28708007AbstractThe aim of this study was to evaluate the influence of different concentrations of hydrofluoric acid (HF) associated with varied etching times on the microshear bond strength (μSBS) of a resin cement to a lithium disilicate glass ceramic. Two hundred seventy-five ceramic blocks (IPS e.max Press [EMX], Ivoclar Vivadent), measuring 8 mm × 3 mm thickness, were randomly distributed into five groups according to the HF concentrations (n=50): 1%, 2.5%, 5%, 7.5%, and 10%.2. Does acid etching morphologically and chemically affect lithium disilicate glass ceramic surfaces? J Appl Biomater Funct Mater. 2017 Jan 26;15(1):e93-e100. doi: 10.5301/jabfm.5000303. PMID:27647389AbstractBACKGROUND: This study evaluated the surface morphology, chemical composition and adhesiveness of lithium disilicate glass ceramic after acid etching with hydrofluoric acid or phosphoric acid.METHODS: Lithium disilicate glass ceramic specimens polished by 600-grit silicon carbide paper were subjected to one or a combination of these surface treatments: airborne particle abrasion with 50-μm alumina (AA), etching with 5% h ydrofluoric acid (HF) or 36% phosphoric acid (Phos), and application of silane coupling agent (Si).3. Fatigue failure load of feldspathic ceramic crowns after hydrofluoric acid etching at different concentrations. J Prosthet Dent. 2018 Feb;119(2):278-285. doi: 10.1016/j.prosdent.2017.03.021. Epub 2017 May 26. PMID:28552291AbstractSTATEMENT OF PROBLEM: Hydrofluoric acid etching modifies the cementation surface of ceramic restorations, which is the same surface where failure is initiated. Information regarding the influence of hydrofluoric acid etching on the cyclic loads to failure of ceramic crowns is lacking.PURPOSE: The purpose of this in vitro study was to evaluate the influence of different hydrofluoric acid concentrations on the fatigue failure loads of feldspathic ceramic crowns.。

(19)中华人民共和国国家知识产权局(12)发明专利申请(10)申请公布号 (43)申请公布日 (21)申请号 202010017406.6(22)申请日 2020.01.08(71)申请人 浙江省肿瘤医院地址 310022 浙江省杭州市拱墅区半山东路1号(72)发明人 凌志强　(74)专利代理机构 广州市越秀区哲力专利商标事务所(普通合伙) 44288代理人 杨艳(51)Int.Cl.G01N 33/574(2006.01)(54)发明名称一种p53自身抗体检测试剂盒及其应用(57)摘要本发明公开了一种p53自身抗体检测试剂盒，包括辣根过氧化物酶标记多肽、蛋白AGL琼脂糖磁珠、血清稀释液、TBST缓冲液、50％二甲基亚砜水溶液、3,3’,5,5’-四甲基联苯胺底物溶液、反应终止液；多肽的氨基酸序列如SEQ ID No.1所示。

采用辣根过氧化物酶标记特异性强的多肽抗原，可与血清中自身抗体充分、有效结合，并采用蛋白AGL琼脂糖磁珠俘获、定量自身抗体，检测灵敏度高，非特异性本底弱，便于自动化检测，特别适用于肿瘤早期自身抗体筛查。

本发明还公开了一种上述试剂盒在肺癌p53自身抗体检测中的应用，检测特异性强，灵敏度高、假阴性率低，成本低廉，操作简便，更有利于自动化、大样本筛查技术的实现。

权利要求书1页 说明书7页序列表1页 附图2页CN 111175505 A 2020.05.19C N 111175505A1.一种p53自身抗体检测试剂盒，其特征在于，包括：辣根过氧化物酶标记多肽、蛋白AGL琼脂糖磁珠、血清稀释液、TBST缓冲液、50％二甲基亚砜水溶液、3,3’,5,5’-四甲基联苯胺底物溶液、反应终止液；所述多肽的氨基酸序列如SEQ ID No.1所示。

2.根据权利要求1所述的p53自身抗体检测试剂盒，其特征在于，所述辣根过氧化物酶标记多肽是通过碘酸钠法制备而得的。

3.根据权利要求1所述的p53自身抗体检测试剂盒，其特征在于，所述血清稀释液为含1％脱脂奶粉的TBST缓冲液；所述反应终止液为2mol/L的硫酸溶液。

Inhibitors, Agonists, Screening Libraries Data SheetBIOLOGICAL ACTIVITY:CHIR–99021 is a GSK–3α/β inhibitor with IC 50 of 10 nM/6.7 nM; > 500–fold selectivity for GSK–3 versus its closest homologs CDC2 and ERK2, as well as other protein kinases.IC50 & Target: IC50: 10 nM/6.7 nM (GSK–3α/β)[1]In Vitro: CHIR 99021inhibits human GSK–3β with K i values of 9.8 nM [1]. CHIR 99021 is a small organic molecule that inhibits GSK3α and GSK3β by competing for their ATP–binding sites.In vitro kinase assays reveal that CHIR 99021 specifically inhibits GSK3β (IC 50=~5 nM) and GSK3α (IC 50=~10 nM), with little effect on other kinases [2]. In the presence of CHIR–99021 the viability of the ES–D3 cells is reduced by 24.7% at 2.5 μM, 56.3% at 5 μM, 61.9% at 7.5 μM and 69.2% at 10 μM CHIR–99021 with an IC 50 of 4.9μM [3].In Vivo: In ZDF rats, a single oral dose of CHIR 99021 (16 mg/kg or 48 mg/kg) rapidly lowers plasma glucose, with a maximal reduction of nearly 150 mg/dl 3–4 h after administration [1]. CHIR99021 (2 mg/kg) given once, 4 h before irradiation, significantly improves survival after 14.5 Gy abdominal irradiation (ABI). CHIR99021 treatment significantly blocks crypt apoptosis andaccumulation of p–H2AX + cells, and improves crypt regeneration and villus height. CHIR99021 treatment increases Lgr5+ cellsurvival by blocking apoptosis, and effectively prevents the reduction of Olfm4, Lgr5 and CD44 as early as 4 h [4].PROTOCOL (Extracted from published papers and Only for reference)Kinase Assay:[2]Kinases are purified from SF9 cells through use of their His or Glu tag. Glu–tagged proteins are purified, and His–tagged proteins are purified. Kinase assays are performed in 96–well plates with appropriate peptide substrates in a 300–μL reaction buffer (variations on 50 mM Tris–HCl, pH 7.5, 10 mM MgCl 2, 1 mM EGTA, 1 mMdithiothreitol, 25 mMβ–glycerophosphate, 1mM NaF, and 0.01% bovine serum albumin). Peptides has K m values from 1 to 100 μM. CHIR 99021 or CHIR GSKIA is added in 3.5μL of Me 2SO, followed by ATP to a final concentration of 1 μM. After incubation, triplicate 100–μL aliquots are transferred to Combiplate 8 plates containing 100 μL/well of 50 μM ATP and 20 mM EDTA. After 1 hour, the wells are rinsed five times with phosphate–buffered saline, filled with 200 μL of scintillation fluid, sealed, and counted in a scintillation counter 30 min later. All of the steps are at room temperature. The percentage of inhibition is calculated as 100×(inhibitor–no enzyme control)/(Me 2SO control–no enzyme control)[2].Cell Assay: CHIR 99021 is dissolved in DMSO and stored, and then diluted with appropriate media before use [3].[3]The viability of the mouse ES cells is determined after exposure to different concentrations of GSK3 inhibitors for three days using the MTT assay.The decrease of MTT activity is a reliable metabolism–based test for quantifying cell viability; this decrease correlates with the loss of cell viability. 2,000 cells are seeded overnight on gelatine–coated 96–well plates in LIF–containing ES cell medium. On the next day the medium is changed to medium devoid of LIF and with reduced serum and supplemented with 0.1–1 μM BIO, or 1–10 μM SB–216763, CHIR–99021 or CHIR–98014. Basal medium without GSK3 inhibitors or DMSO is used as control. All tested conditions are analyzed in triplicates [3].Product Name:CHIR–99021Cat. No.:HY-10182CAS No.:252917-06-9Molecular Formula:C 22H 18Cl 2N 8Molecular Weight:465.34Target:GSK–3; GSK–3; Autophagy Pathway:Stem Cell/Wnt; PI3K/Akt/mTOR; Autophagy Solubility:DMSO: ≥ 5.1 mg/mLAnimal Administration: CHIR 99021 is formulated as solutions in 20 mM citrate–buffered 15% Captisol or as fine suspensions in0.5% carboxymethylcellulose (Rat)[1].CHIR 99021 is prepared in DMSO and diluted (Mice)[4].[1][4]Rat[1]Primary hepatocytes from male Sprague Dawley rats that weighed <140 g are prepared and used 1–3 h after isolation. Aliquotsof 1×106cells in 1 mL of DMEM/F12 medium plus 0.2% BSA and CHIR 99021(orally at 16 or 48 mg/kg) or controls are incubated in 12–well plates on a low–speed shaker for 30 min at 37°C in a CO2–enriched atmosphere, collected by centrifugation and lysed by freeze/thaw in buffer A plus 0.01% NP40; the GS assay is again performed.Mice[4]Mice 6–10 weeks old are used. The PUMA+/+ and PUMA–/– littermates on C57BL/6 background (F10) and Lgr5–EGFP(Lgr5–EGFP–IRES–creERT2) mice are subjected to whole body irradiation (TBI), or abdominal irradiation (ABI). Mice are injected intraperitoneally (i.p.) with 2 mg/kg of CHIR99021 4 h before radiation or 1 mg/kg of SB415286 28 h and 4 h before radiation. Mice are sacrificed to collect small intestines for histology analysis and western blotting. All mice are injected i.p. with 100 mg/kg of BrdU before sacrifice.References:[1]. Ring DB, et al. Selective glycogen synthase kinase 3 inhibitors potentiate insulin activation of glucose transport and utilization in vitro and in vivo. Diabetes. 2003 Mar;52(3):588–95.[2]. Bennett CN, et al. Regulation of Wnt signaling during adipogenesis. J Biol Chem. 2002 Aug 23;277(34):30998–1004.[3]. Naujok O, et al. Cytotoxicity and activation of the Wnt/beta–catenin pathway in mouse embryonic stem cells treated with four GSK3 inhibitors.BMC Res Notes. 2014 Apr 29;7:273.[4]. Wang X, et al. Pharmacologically blocking p53–dependent apoptosis protects intestinal stem cells and mice from radiation. Sci Rep. 2015 Apr 10;5:8566.Caution: Product has not been fully validated for medical applications. For research use only.Tel: 609-228-6898 Fax: 609-228-5909 E-mail: tech@Address: 1 Deer Park Dr, Suite Q, Monmouth Junction, NJ 08852, USA。

1118　环球中医药2023年6月第16卷第6期　Global Traditional Chinese Medicine,June 2023,Vol.16,No.6㊃数据挖掘㊃基金项目:江苏省自然科学基金(BK20210687)作者单位:210023　南京中医药大学中医学院㊃中西医结合学院(周明㊁刘敏)作者简介:周明(1987-),博士,主治医师,讲师㊂研究方向:方药功效理论及中医药现代化研究㊂E⁃mail:290508@基于网络药理及分子对接探讨薏苡仁 浙贝母药对治疗慢性萎缩性胃炎的作用机制周明　刘敏【摘要】　目的　基于网络药理学方法配合分子对接验证,探讨薏苡仁 浙贝母治疗慢性萎缩性胃炎的可能机制㊂方法　利用TCMSP 数据库获取薏苡仁㊁浙贝母的主要活性成分及其对应靶点,通过5个疾病数据库,包括GeneCards㊁OMIM㊁PharmGkb㊁TTD 和DrugBank,收集慢性萎缩性胃炎疾病相关靶点,将药物对应靶点与疾病相关靶点取交集,得到薏苡仁 浙贝母治疗慢性萎缩性胃炎的作用靶点㊂Cytoscape 软件用于成分与靶点间的网络构建与分析㊂作用靶点的GO 功能富集与KEGG 通路富集分析使用R 语言完成㊂靶蛋白间的相互作用网络使用STRING 数据库平台构建,并筛选核心靶点㊂Autodock Vina 软件用于分子对接,对核心靶点进行进一步验证㊂结果　筛选出薏苡仁 浙贝母活性成分7个,对应作用靶点12个,进一步经拓扑分析筛选出CASP3㊁CASP8㊁PTGS2㊁JUN㊁PPARG 共5个核心靶点㊂KEGG 分析显示作用靶点主要富集在白细胞介素⁃17㊁P53㊁肿瘤坏死因子信号通路㊂通过分子对接证实,核心靶点与对应活性成分间均有较好的结合稳定性㊂结论　薏苡仁 浙贝母主要通过炎症及肿瘤相关的信号通路实现对慢性萎缩性胃炎的治疗作用㊂【关键词】　薏苡仁;　浙贝母;　慢性萎缩性胃炎;　网络药理学;　分子对接【中图分类号】　R573　【文献标识码】　A　doi:10.3969/j.issn.1674⁃1749.2023.06.008Mechanism of Coicis Semen⁃Fritillariae Thunbergii Drug Pair on Intervention of Chronic Atrophic Gastritis based on Network Pharmacology⁃Molecular Docking ZHOU Ming ,LIU MinSchool of Traditional Chinese Medicine and School of Integrated Chinese and Western Medicine ,Nanjing University of Chinese Medicine ,Nanjing 210023,ChinaCorresponding author :ZHOU Ming ,E⁃mail :290508@【Abstract 】　Objective To explore the possible mechanism of Coix seed⁃Fritillaria thunbergii in the treatment of chronic atrophic gastritis based on the methods of network pharmacology and the verification ofmolecular docking.Methods The TCMSP database was used to obtain the active components and potential targets.The disease targets related to chronic atrophic gastritis were collected through GeneCards,OMIM,PharmGKB,TTD and DrugBank databases.The potential drug targets and disease⁃related targets wereintersected to obtain the predicted targets.The component⁃target interaction network was constructed by Cy⁃toscape software,and R language was used for GO and KEGG analysis.Then the predicted targets were analyzed by protein⁃protein interaction using STRING database,and the core targets were screened.Autodock Vina software was used for molecular docking.Results 7active ingredients and 12corresponding action targets were screened,and 5core targets were screened through topological analysis,which were CASP3,CASP8,PTGS2,JUN and PPARG respectively.The enrichment of KEGG pathway isdominated by IL⁃17,P53,TNF pathways.The results of molecular docking showed that the active环球中医药2023年6月第16卷第6期　Global Traditional Chinese Medicine,June2023,Vol.16,No.61119　ingredients had good binding ability with the core targets.Conclusion　Coix seed and Fritillaria thunbergiican treat chronic atrophic gastritis mainly through inflammation and tumor related signal pathways.【Key words】　Coicis Semen;　Fritillariae Thunbergii;　Chronic atrophic gastritis;　Network phar⁃macology;　Molecular docking 慢性萎缩性胃炎(Chronic Atrophic Gastritis, CAG)是以不典型消化道症状为主要临床表现的慢性消化系统疾病[1],随着病情发展,常伴肠上皮化生或不典型增生[2⁃3],被视为胃癌的癌前疾病[4]㊂中医药在减轻患者临床症状,延缓或逆转病理进展方面有确切效果[5⁃6]㊂薏苡仁㊁浙贝母为中医临床治疗脾胃病的常用药㊂根据‘中华人民共和国药典(2020版)“记载,薏苡仁具有健脾渗湿㊁解毒散结等功效[7]㊂用于慢性萎缩性胃炎的治疗符合CAG本虚标实的病机共识[8⁃9]㊂现代药理研究发现,薏苡仁除有调节肠道菌群㊁增强免疫㊁镇痛抗炎㊁调节代谢㊁抗氧化等作用外,还有明确抗肿瘤效果,以其为原料药开发的康莱特系列药物已广泛用于多种癌症的临床治疗[10]㊂浙贝母是一味化痰药,传统认为其具有清热化痰㊁解毒散结等功效㊂而‘景岳全书本草正“谓其 善开郁结,止疼痛,消胀满”[11],可见浙贝母也能理中焦之气,可用来缓解CAG常见的脘腹胀满㊂此外, 百病多由痰作祟”,对于脾胃病中疑难者,国医大师徐景藩先生临证常配浙贝母,往往都有不错疗效[12⁃13]㊂现代药理研究发现,浙贝母具有祛痰㊁抗炎㊁抗菌㊁抗溃疡作用,同时也常用于肿瘤治疗[14]㊂两药配伍,在缓解CAG临床症状㊁减轻炎症反应㊁抑制 炎癌转化”等方面有可预期的效果㊂目前,单独针对薏苡仁或浙贝母的基础研究较为普遍,而对于薏苡仁 浙贝母药对及其治疗CAG的药效物质基础及分子作用机制研究相对较少,值得进一步探究㊂网络药理学基于生物学㊁药理学㊁计算机技术等多学科交叉融合的系统生物学理论,构建 药物 成分 靶点 通路”的相互作用网络,符合中药研究的需求,能够系统的揭示药物起效的作用机制[15⁃16]㊂本研究基于网络药理学理论和方法,筛选薏苡仁 浙贝母药对治疗CAG的活性成分及对应作用靶点[17],探寻其可能的作用机制,以期为CAG 治疗用药的进一步开发和应用奠定基础㊂1　资料与方法1.1　薏苡仁 浙贝母活性成分及对应靶点筛选以 薏苡仁” 浙贝母”为关键词,运用TCMSP 平台(https:///tcmsp.php)[18]检索两药的化学成分㊂根据药物代谢动力学特性,以口服生物利用度(oral bioavailability,OB)及类药性(drug⁃likeness,DL)[19]分别大于等于30%和0.18为条件,筛选薏苡仁 浙贝母药对的候选活性成分㊂以 薏苡仁” 浙贝母”为关键词,在TCMSP数据库中查找药对所有靶点,并利用Perl语言脚本及候选活性成分数据筛选对应靶点㊂进一步在UniProt数据库(/)下载人类基因注释文件[20],将靶点名称转换为标准基因名,用于后续分析处理㊂1.2　慢性萎缩性胃炎疾病相关靶点筛选以 atrophic gastritis”或 gastritis”为关键词,检索在线疾病数据库GeneCards(https://www. /)㊁OMIM(https:///)㊁DrugBank(https://www.drugbank.ca/)㊁PharmGkb (https:///)及TTD(http://db. /ttd/)[21],分别下载CAG相关疾病靶点,利用R语言 venn”程序包进行筛选㊁整理,获取疾病相关靶点数据㊂1.3　薏苡仁 浙贝母治疗CAG作用靶点预测及中药 活性成分 作用靶点网络构建将薏苡仁 浙贝母药对候选活性成分对应靶点基因与CAG疾病相关靶点基因进行匹配,获得的两者共同基因,即为薏苡仁 浙贝母治疗CAG的作用靶点㊂同时利用以上数据,通过Perl语言脚本建立 中药 活性成分 作用靶点”映射关系,使用Cytoscape3.9软件进行网络绘制及相应分析[22]㊂1.4　蛋白互作网络构建与核心靶点筛选使用预测出的作用靶点,在STRING(https:// string⁃/cgi/input.pl)网站,选择物种为人(Homo sapiens),设置置信度≥0.4,构建蛋白互作网络(Protein⁃Protein Interaction,PPI)[23],保存网络图及TSV格式分析结果㊂使用Cytoscape及其插件CytoNCA对PPI网络进行拓扑分析,计算网络中各节点的介度中心性(betweenness centrality,BC)㊁接近中心性(closeness centrality,CC)㊁度中心性(degree centrality,DC)㊁特征向量中心性(eigenvector centrality,EC)㊁局部边连通性(local1120　环球中医药2023年6月第16卷第6期　Global Traditional Chinese Medicine,June2023,Vol.16,No.6average connectivity⁃based method centrality,LAC)和网络中心性(network centrality,NC)[24],选出5个筛选指标均大于相应中位数的节点,即为筛选出的核心靶点,并构建核心靶点间的网络关系㊂1.5　基因本体富集与京都基因与基因组百科全书通路富集分析使用R语言完成富集分析,涉及 clusterProfiler” org.Hs.eg.db” enrichplot” ggplot2” pathview”等相关程序包㊂薏苡仁 浙贝母治疗CAG作用靶点的基因本体(Gene Ontology, GO)富集分析具体包含生物过程(biological process, BP)㊁细胞组分(cell component,CC)㊁分子功能(molecular function,MF)三部分[25],在结果中选择各部分显著富集的前10项绘制柱状图㊂京都基因与基因组百科全书(Kyoto Encyclopedia of Genes and Genomes,KEGG)通路富集分析用来搜索作用靶点涉及的主要信号通路[26],选择显著富集的前30项通路条目绘制气泡图㊂两富集分析均以P值及矫正P值小于0.05为筛选标准㊂1.6　分子对接验证在Pubchem数据库(https://pubchem.ncbi. /)中搜索下载核心靶点对应活性成分的2D数据,利用ChemOffice14.0软件构建3D结构,以mol2格式保存㊂核心靶点的3D结构数据通过PDB数据库(https://)获取,靶蛋白3D结构中包含的水分子和小分子配体均由PyMOL⁃2.4.0软件去除㊂蛋白加氢㊁活性成分及靶蛋白的格式转换及活性口袋的预设置,均在AutoDockTools⁃1.5.7软件平台处理㊂分子对接使用Autodock Vina软件完成,通过结合能计算验证活性成分与靶蛋白的结合能力㊂PyMOL⁃2.4.0软件用于对接结果的可视化㊂2　结果2.1药对活性成分及对应靶点在TCMSP数据库中,对薏苡仁㊁浙贝母分别进行成分搜索,以OB≥30%,DL≥0.18为筛选条件,共得到16个候选活性成分,其中薏苡仁9个㊁浙贝母7个,活性成分相关信息见表1㊂通过检索,获得薏苡仁 浙贝母药对所有靶基因共356个,其中薏苡仁246个,浙贝母110个㊂利用UniProt数据库下载的人类基因数据以及Perl语言脚本,将查询到的靶基因进行去重㊁筛选㊁规范基因名称,最终获得候选活性成分对应的靶基因数据98条㊂2.2　慢性萎缩性胃炎疾病相关靶点通过1.2中所述五个疾病数据库下载有关CAG的疾病相关靶点㊂利用R语言 venn”程序包进行分析,去除重复基因,取并集,合计获得769个疾病靶点,其中DrugBank18个,GeneCards449个, OMIM197个,PharmGkb159个,TTD1个,绘制韦恩图,结果见图1㊂表1　TCMSP数据库中薏苡仁 浙贝母药对活性成分相关信息中药名分子编号活性成分名称OB(%)DL 薏苡仁MOL001323Sitosterol alpha143.280.78薏苡仁MOL001494Mandenol420.19薏苡仁MOL002372(6Z,10E,14E,18E)⁃2,6,10,15,19,23⁃hexamethyltetracosa⁃2,6,10,14,18,22⁃hexaene33.550.42薏苡仁MOL002882[(2R)⁃2,3⁃dihydroxypropyl]　(Z)⁃octadec⁃9⁃enoate34.130.3薏苡仁MOL000359sitosterol36.910.75薏苡仁MOL000449Stigmasterol43.830.76薏苡仁MOL008118Coixenolide32.40.43薏苡仁MOL0081212⁃Monoolein34.230.29薏苡仁MOL000953CLR37.870.68浙贝母MOL001004pelargonidin37.990.21浙贝母MOL000358beta⁃sitosterol36.910.75浙贝母MOL004440Peimisine57.40.81浙贝母MOL004443Zhebeiresinol58.720.19浙贝母MOL004444Ziebeimine64.250.7浙贝母MOL0044466⁃Methoxyl⁃2⁃acetyl⁃3⁃methyl⁃1,4⁃naphthoquinone⁃8⁃O⁃beta⁃D⁃glucopyranoside33.310.57浙贝母MOL004450Chaksine65.630.66环球中医药2023年6月第16卷第6期　Global Traditional Chinese Medicine,June 2023,Vol.16,No.61121　图1　5个疾病数据库所得慢性萎缩性胃炎相关靶点取并集之韦恩图2.3　薏苡仁 浙贝母治疗CAG 作用靶点及中药 活性成分 作用靶点网络图分析通过Perl 语言脚本,对药对候选活性成分对应靶基因与CAG 疾病相关靶点进行整理后取交集,得到12个共有靶点,即为预测出的薏苡仁 浙贝母治疗CAG 的作用靶点,对应7个活性成分,准备网络构建及分析的关系文件㊂将关系文件导入Cytoscape 3.9软件,生成中药 活性成分 作用靶点相互作用网络图,如图2所示,节点代表活性成分或作用靶点,节点连线说明成分与靶点之间产生相互联系㊂图中节点越大其关联的活性成分或作用靶点越多,此节点在网络中越重要㊂结果显示,7个活性成分中degree 值>3的有MOL000358(β⁃谷甾醇,beta⁃sitosterol,degree 值为8)㊁MOL001004(天竺葵素,pelargonidin,degree 值为5)㊁MOL000449(豆甾醇,Stigmasterol,degree 值为3)㊂β⁃谷甾醇和天竺葵素来自浙贝母,豆甾醇为薏苡仁的活性成分㊂β⁃谷甾醇degree 值为8,表示其与12个靶基因中的8个发生联系㊂2.4　PPI 网络构建与关键靶点筛选蛋白相互作用分析显示,薏苡仁 浙贝母治疗CAG 的12个作用靶点间共产生34条相互作用关系㊂进一步采用CytoNCA 对网络的拓扑属性进行分析,筛选大于所有指标中位值的节点,得到5个核心靶点,分别为PTGS2㊁CASP3㊁CASP8㊁JUN㊁PPARG,如图3所示,进一步建立核心靶点间的互作关系网络㊂ 注:图中紫色节点代表来自浙贝母的活性成分,绿色节点代表来自薏苡仁的活性成分,蓝色节点表示药对活性成分调控慢性萎缩性胃炎的作用靶点㊂图2　薏苡仁 浙贝母治疗慢性萎缩性胃炎 中药 活性成分 作用靶点”网路图注:图中黄色节点为经拓扑分析筛选出的核心靶点图3　薏苡仁 浙贝母药对治疗慢性萎缩性胃炎靶点蛋白相互作用网络图2.5　GO 富集及KEGG 通路富集分析12个作用靶点的 gene symbol(基因名)”通过R 语言 org.Hs.eg.db”程序包转换为 entrezID”, enrichplot”程序包用于GO 富集分析㊂分别选取在BP㊁MF㊁CC 上显著富集的前10个条目绘制柱状图,如图4所示㊂分析结果显示,薏苡仁 浙贝母治疗CAG 的作用靶点在生物过程方面主要与脂多糖㊁细菌来源分子及氧水平降低等反应相关;在细胞组成上主要位于细胞器外膜㊁线粒体外膜㊁膜微域等;在分子功能方面主要包括血红素结合㊁DNA 结合转录因子结合㊁四吡咯结合等㊂作用靶点的KEGG 通路富集分析使用 enrichplot”和 pathview”程序包,以P 值及矫正P1122　环球中医药2023年6月第16卷第6期　Global Traditional Chinese Medicine,June 2023,Vol.16,No.6值均小于0.05进行筛选,结果得到87条富集的信号通路㊂选择前30条通路绘制气泡图,见图5㊂分析显示,薏苡仁 浙贝母治疗CAG 的作用靶点主要富集在白细胞介素⁃17(interleukin⁃17,IL⁃17)信号通路㊁P53信号通路㊁肿瘤坏死因子(tumor necrosis factor,TNF)信号通路等㊂以IL⁃17信号通路为例,通路中主要富集了PTGS2㊁JUN㊁CASP3㊁CASP8等靶基因,见图6㊂ 注:纵坐标表示富集到的GO 条目名称,横坐标表示富集到的基因数目㊂图4　薏苡仁 浙贝母药对治疗慢性萎缩性胃炎作用靶点的GO富集分析 注:纵坐标为富集到的通路名称,横坐标为参与该通路的靶点占总靶点的比例㊂图5　薏苡仁 浙贝母药对治疗慢性萎缩性胃炎作用靶点的KEGG 通路富集分析环球中医药2023年6月第16卷第6期　Global Traditional Chinese Medicine,June 2023,Vol.16,No.61123　图6　薏苡仁 浙贝母药对治疗慢性萎缩性胃炎作用靶点在IL⁃17信号通路上的富集图2.6　活性成分及核心靶点的分子对接验证根据 中药 活性成分 作用靶点”网络图中活性成分degree 值排名,将薏苡仁 浙贝母药对治疗CAG 的核心靶点PTGS2㊁CASP3㊁CASP8㊁JUN㊁PPARG 与对应的活性成分进行分子对接㊂配体与受体的结合能越低,说明两者形成的复合物结构越稳定,也预示着两者有较大的可能发生相互作用㊂一般情况下以结合能小于-5.0kcal /mol 作为稳定结合的评判标准[27]㊂结果显示,5个核心靶点与对应活性成分的结合能均小于-5.0kcal /mol,表明核心靶点与活性成分有较好的结合能力,对接结果见表2㊂利用PyMOL 软件对结果进行可视化,以PTGS2蛋白分子对接结果为例进行展示,对接模式图见图7㊂表2　薏苡仁 浙贝母药对核心作用靶点与对应活性成分分子对接结果核心靶点活性成分成分来源结合能(kcal /mol)CASP3β⁃谷甾醇(beta⁃sitosterol)浙贝母-7.6CASP8β⁃谷甾醇(beta⁃sitosterol)浙贝母-7.2JUNβ⁃谷甾醇(beta⁃sitosterol)浙贝母-7.1PPARG 天竺葵素(pelargonidin)浙贝母-8.9PTGS2β⁃谷甾醇(beta⁃sitosterol)浙贝母-8.6天竺葵素(pelargonidin)浙贝母-9.4豆甾醇(Stigmasterol)薏苡仁-8.6图7　薏苡仁 浙贝母药对活性成分与PTGS2蛋白分子对接模式图3　讨论上世纪90年代,有学者提出胃炎的 炎癌转化”路径,即慢性非萎缩性胃炎 慢性萎缩性胃炎 肠上皮化生 异型增生 胃癌,被医学界广泛认可[28]㊂有研究表明,我国萎缩性胃炎发病率在2014年已约占受检人群的25%,并且呈逐年上升趋势[29]㊂目前,常规治疗CAG 多用于缓解临床症状,1124　环球中医药2023年6月第16卷第6期　Global Traditional Chinese Medicine,June2023,Vol.16,No.6尚不能满足临床治愈的需求,且长期使用质子泵抑制剂等药物对胃肠道有明显副作用[30⁃31]㊂中药副作用小,其协同起效特征在复杂疾病的治疗中具有一定优势[32]㊂近年来越来越多的临床医生和患者开始关注并使用中医药来预防和治疗CAG[33],寻找治疗CAG效果确切的中药,并明确其作用机制具有重要的社会意义㊂本研究基于网络药理学理论和方法,筛选出薏苡仁 浙贝母药对治疗CAG的7个主要生物活性成分,映射12个CAG作用靶点㊂其中β⁃谷甾醇(beta⁃sitosterol)与核心靶点有着广泛的结合作用㊂β⁃谷甾醇作为甾醇类化合物,有明确的抗炎作用,其可通过抑制表皮细胞㊁巨噬细胞中炎症小体NOD样受体热蛋白结构域相关蛋白3,最终抑制丝裂原活化蛋白激酶(mitogen⁃activated protein kinase, MAPK)信号通路的激活,使得细胞中的白细胞介素⁃6㊁白细胞介素⁃8等炎症因子生成减少而起效[34]㊂同时,有研究表明,β⁃谷甾醇能够缓解阿司匹林导致的胃黏膜损伤,促进愈合,有一定的保护胃黏膜效果[35]㊂此外,β⁃谷甾醇具有抗菌作用,动物实验显示β⁃谷甾醇可使结肠炎模型小鼠肠上皮细胞㊁巨噬细胞上抗菌肽的表达显著增加,降低肠道菌的存活率,并且对肺炎链球菌㊁金黄葡萄球菌等均有抑制效果[36⁃38],或对控制CAG相关的幽门螺杆菌感染有一定作用㊂另有研究表明β⁃谷甾醇对胃癌有治疗效果,可抑制肿瘤细胞增值及诱导其凋亡[39⁃40],可见其或可延缓或逆转CAG的 炎癌转化”过程㊂本研究通过PPI网络拓扑分析,进一步筛选到5个核心靶点,包括PTGS2㊁CASP3㊁CASP8㊁JUN㊁PPARG,其中PTGS2与多个活性成分关联㊂PTGS2又称环氧酶⁃2(cyclooxygenase⁃2,COX⁃2),是前列腺素E2(prostaglandin E2,PGE2)形成的关键酶,后者有强烈的促炎作用,因此PTGS2与抗炎功效关系密切,一直是非甾体类抗炎药的重要靶点㊂此外, PTGS2是一种诱导型蛋白,正常组织或细胞中极少表达,当机体受到炎症因子㊁肿瘤促进剂㊁生长因子等因素刺激时表达上升[41],参与炎症反应㊁免疫调节㊁细胞增殖与凋亡等多种病理过程,并且与多种癌肿的发生密切相关[42⁃43]㊂本研究KEGG通路分析结果中涉及到的IL⁃17㊁TNF㊁核转录因子⁃κB (nuclear factor⁃kappa B,NF⁃κB)等炎症㊁肿瘤相关信号通路均与PTGS2基因有密切联系,表明PTGS2在薏苡仁 浙贝母药对治疗CAG中,通过抗炎㊁抗肿瘤机制起着重要作用㊂KEGG通路富集分析结果显示,大多数靶标蛋白的编码基因富集在与CAG 炎癌转化”相关的IL⁃17信号通路㊁P53信号通路和TNF信号通路上㊂研究证实IL⁃17信号通路在急慢性炎症反应中扮演着重要角色,IL17家族有6个成员(IL⁃17A⁃F),可通过与相应受体结合,激活下游MAPK,NF⁃κB和CCAAT/增强子结合蛋白通路中的抗细胞因子㊁趋化因子和抗菌肽,与CAG的发生发展显著相关[44⁃45]㊂P53信号通路是一经典的肿瘤相关通路, P53蛋白可促细胞凋亡,在肿瘤抑制中具有重要作用,其失活会促进肿瘤发生或发展,大量基因组测序证实,约一半的肿瘤伴有P53基因突变[46]㊂有研究发现,随着慢性胃炎程度的加重,患者胃黏膜中突变型P53基因表达明显升高[47],可见薏苡仁 浙贝母通过对P53通路的调控,或可减缓CAG病情恶化㊂TNF通路是与肿瘤和炎症均有关的信号通路, TNF⁃α可直接杀伤肿瘤细胞,同时参与全身炎症反应,其与相应受体结合后可激活下游,包括NF⁃κB 和MAPK途径,实现细胞毒性㊁免疫调节和细胞凋亡等生物学功能[48]㊂相关研究也发现,中药治疗CAG的起效机制与TNF信号通路相关[49]㊂综上所述,本研究以薏苡仁 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专利名称：一株发孢甲基弯菌及其应用专利类型：发明专利
发明人：邢新会,吴昊,李和平,王立言申请号：CN200710175425.6
申请日：20070929
公开号：CN101397543A
公开日：
20090401
专利内容由知识产权出版社提供
摘要：本发明公开了一株发孢甲基弯菌及其应用。

本发明所提供的发孢甲基弯菌为发孢甲基弯菌(Methylosinus trichosporium)LEB－5，其保藏编号为CGMCC No.2173。

本发明还提供了一种生产甲烷单加氧酶的方法即发酵发孢甲基弯菌(Methylosinus trichosporium)LEB－5 CGMCC
No.2173得到甲烷单加氧酶。

本发明的发孢甲基弯菌(Methylosinus trichosporium)LEB－5 CGMCC No.2173生长速度快、遗传稳定性高，而且易于培养、培养效率高，能以甲烷为唯一碳源和能源产生具有高酶活的甲烷单加氧酶。

本发明用发孢甲基弯菌(Methylosinus trichosporium)LEB－5 CGMCC No.2173生产甲烷单加氧酶的方法，克服了目前甲烷氧化菌利用甲烷效率低、生长速度慢、含有的甲烷单加氧酶的催化活性不高等问题，在天然气利用、大宗化学品生产、生物材料开发、瓦斯气体治理、环境污染物的生物修复等方面将会有广阔的应用前景。

申请人：清华大学
地址：100084 北京市海淀区清华园
国籍：CN
代理机构：北京纪凯知识产权代理有限公司
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DOI：10.16658/ki.1672-4062.2023.19.084德谷门冬双胰岛素注射液治疗2型糖尿病的疗效及安全性研究戴卉，张开凤，朱凤丽江苏省镇江市丹徒区人民医院内分泌科，江苏镇江212000[摘要]目的探讨德谷门冬双胰岛素注射液在2型糖尿病中的效果以及安全性。

方法选取2022年1月—2023年7月江苏省镇江市丹徒区人民医院收治的62例2型糖尿病患者为研究对象，按随机数表法分为对照组（n=31）和观察组（n=31）。

对照组患者接受门冬胰岛素30注射液治疗，观察组患者接受德谷门冬双胰岛素注射治疗。

对比两组患者临床疗效、血糖变化和不良反应发生率。

结果观察组治疗有效为96.77%，高于对照组的77.42%，差异有统计学意义（χ2=5.167，P=0.023）。

治疗前，两组患者血糖水平比较，差异无统计学意义（P>0.05）；治疗后，两组患者血糖水平均改善，且观察组血糖指标低于对照组，差异有统计学意义（P< 0.05）。

观察组不良反应发生率低与对照组，差异有统计学意义（P<0.05）。

结论德谷门冬双胰岛素的应用可以明显改善2型糖尿病患者血糖水平，疗效更为确切，且安全性更高，不会增加用药后不良反应。

[关键词] 2型糖尿病；德谷门冬双胰岛素；门冬胰岛素30注射液；安全性[中图分类号] R587 [文献标识码] A [文章编号] 1672-4062（2023）10（a）-0084-04Study on the Efficacy and Safety of Insulin Degludec and Insulin Aspart Injection in the Treatment of Type 2 Diabetes MellitusDAI Hui, ZHANG Kaifeng, ZHU FengliDepartment of Endocrinology, Zhenjiang Dantu District People's Hospital, Zhenjiang, Jiangsu Province, 212000 China [Abstract] Objective To explore the effect and safety of insulin degludec and insulin aspart injection in type 2 diabe⁃tes mellitus.Methods 62 patients of type 2 diabetes mellitus patients admitted to Zhenjiang Dantu District People's Hospital, Jiangsu Province from January 2022 to July 2023 were selected as study objects and divided into the control group (n=31) and the observation group (n=31) by taking the random number table method. The patients in the control group were treated with insulin aspart 30 injection and the patients in the observation group were treated with insulin degludec and insulin aspart injection. Compared the clinical efficacy, the changes in blood glucose and the incidence of adverse reactions between the two groups of patients.Results The treatment effectiveness of the observation group was 96.77%, which was higher than that of the control group, which was 77.42%, and the difference was statistically significant (χ2=5.167, P=0.023). There was no statistically significant difference in blood glucose levels between the two groups before treatment (P>0.05). After treatment, blood glucose levels improved in both groups, and the level of blood glucose in the observation group were lower than those in the control group, and the difference was statistically significant (P<0.05). The incidence of adverse reactions in the observation group was lower than that in the control group, and the difference was statistically significant (P<0.05).Conclusion The application of insulin degludec and in⁃sulin aspart can significantly improve the blood glucose level of patients with type 2 diabetes mellitus, the efficacy is more accurate, and the safety is higher, and it will not increase the occurrence of adverse reactions after the use of medication.[作者简介]戴卉（1985-），女，本科，主治医师，研究方向为内分泌科。