简介:目的利用Micro-CT扫描数据建立中耳听骨链三维有限元模型。方法用Micro—CT扫描成人颞骨标本,将获得的图像数据通过MicroView、Mimics等软件进行三维重建。再将模型转入其有限元分析(finiteelementanalysis,FEA)模块的Remesh环境中进行调整、细化及面网格优化,通过SOLIDEWORK软件转换为实体网格。结果初步形成的三维几何模型可较清晰地辨别鼓室腔、听小骨和内耳系统,但部分图像不同程度存在噪点。最终形成了FEA软件可识别的成人中耳听骨链三维有限元网格模型,网格划分后的听骨链有限元模型中,完整听骨链的节点数降低,由原来包括805个不合理节点在内的12498个节点降低到2050个,在此基础上建立的有限元模型共1350个8节点四面体单元。结论结合Micro—CT技术及Mimics软件的三维建模方法可以快速获得较精确的听骨链三维数据,是建立听骨链三维有限元模型的有效途径。(中国眼耳鼻喉科杂志,2009.9.83。85)
简介:目的:建立链脲佐菌素(streptozotocin,STZ)诱导的小鼠增殖性糖尿病视网膜病(proliferativediabeticretinopathy,PDR)动物模型,并观察在增殖性糖尿病视网膜病发生、发展过程中血管内皮生长因子(vascularendothelialgrowthfactor,VEGF)及其受体(VEGFR1,VEGFR2),金属基质蛋白酶(matrixmetalloproteinase,MMP)2,MMP9表达的变化。方法:C57BL/6J小鼠连续5d腹腔注射STZ(55mg/kg)。末次注射后7d检测血糖浓度。糖尿病诱导成功的小鼠和正常小鼠继续饲养3~5mo。实验结束后进行视网膜病理组织观察,并利用CD31免疫荧光染色检测视网膜血管的分布情况。采用实时定量荧光PCR分析检测VEGF,VEGFR1,VEGFR2,MMP2,MMP9的基因表达。结果:视网膜组织病理观察和CD31免疫荧光染色实验结果均表明5月龄的糖尿病小鼠视网膜组织中血管数目明显比同月龄正常小鼠多。同时,与同月龄正常小鼠相比,5月龄糖尿病小鼠视网膜组织中VEGF,VEGFR1,VEGFR2,MMP2,MMP9的基因表达也明显增加。结论:本研究表明STZ诱导的糖尿病小鼠在5月龄时发生了增殖性糖尿病视网膜病的病变,期间视网膜组织中VEGF,VEGFR1,VEGFR2,MMP2,MMP9的基因表达都明显增加。
简介:目的:探讨裂隙灯眼前段处理系统在眼科临床工作中的各种实际应用状况及操作技巧。方法:应用配置佳能PowerShotA720IS型数码照相机(1200万像素)SLM型裂隙灯显微镜检查眼部病变情况,并在裂隙灯下根据不同的病变位置,在不同色彩、角度下进行照相(放大倍率×10;×16;×20)。结果:采集不同种类疾病具有代表性照片:眼睑及结膜肿物、结膜裂伤、角膜炎、角膜异物、翼状胬肉、前房积血、前房角异物等如图示。结论:裂隙灯眼前段处理系统的应用为临床医疗文献提供直接定性依据,给患者了解自身病情带来便利,照片直观、经济,在眼科领域的临床应用具有广阔的前景。
简介:目的评价海德堡视网膜断层扫描仪黄斑区视网膜分析系统(macularedemamodule,MEM)的三个技术参数,了解其变异性及可重复性来判断其临床应用价值。方法对78例(78只眼)正常健康志愿者应用海德堡视网膜断层扫描仪黄斑区视网膜分析系统进行检查。分析扫描深度值(Z)、视网膜信号宽度值(W)、水肿指数值(E)三参数的均值及变异系数,并分析黄斑反射图、地形图、信号宽度图、水肿指数图的图像特征。结果黄斑中心0.5mm范围内视网膜扫描深度均值(Z)为1.4430848,变异系数55.6%。W值为795.27±193.53,变异系数17.6%。E值为1.13±0.35,变异系数27.8%。不同个体三参数差异有高度显著性(P<0.01),个体变异较大。不同时间段三参数测量差异无显著性(P>0.05)。结论MEM可对黄斑区视网膜厚度进行量化分析,个体变异较大,但重复性好,HRT-Ⅱ检查适合黄斑疾病的个体随诊观察。
简介:目的探讨数字化多媒体系统矫治训练对大龄儿童弱视的治疗效果。方法选取2013年1月至2016年1月我院门诊收治的大龄弱视患儿86例(128眼),作为研究对象。根据患儿治疗方案的差异将其分为观察组与对照组,对照组45例患儿接受常规综合治疗措施,观察组41例患儿接受数字化多媒体系统治疗,比较两组患儿治疗后双眼视功能变化及疗效。结果观察组患儿治疗后总有效率明显高于对照组,并且观察组患者立体视改善率明显高于对照组,P〈0.05,差异具有统计学意义。结论对大龄弱视患儿采取数字化多媒体系统治疗可有效改善患儿弱视症状,提高患儿双眼视功能,缩短患儿视功能障碍治疗时间,具有临床应用及推广价值。
简介:AIM:Anaerobicbacteriacancauseocularinfections.WetestedtheOxyPlateTMAnaerobicSystem(OXY)toisolatepertinentanaerobicbacteriathatcancauseoculardisease.METHODS:OXY,whichdoesnotrequiredirectanaerobicconditions(i.e.bags,jars),wascomparedtoconventionalisolationofincubatingculturemediainanaerobicbags.Standardcoloniescountswereperformedonanaerobicocularbacterialisolatesunderaerobicandanaerobicconditions(anaerobicbags)usingagarmedia:1)OXY(aerobiconly),2)5%sheepblood(SB),3)Chocolate,and4)Schaedler.Thebacteriatestedwerede-identifiedocularisolatesculturedfromendophthalmitisanddacryocystitisthatinclude10Propionibacteriumacnesand3Actinomycesspecies.Thecolonycountsforeachbacteriaisolate,oneachculturingcondition,wererankedfromlargesttosmallest,andnon-parametricallycomparedtodeterminethebestculturingcondition.RESULTS:Allanaerobicconditionswerepositiveforalloftheanaerobicisolates.SBandSchaedler’sagarunderaerobicconditionsdidnotsupportthegrowthofanaerobicbacteria.SparsegrowthwasnotedonchocolateagarwithPropionibacteriumacnes.Asananaerobicsystem,SBinananaerobicbagisolatedhighercolonycountsthanOXY(P=0.0028)andchocolateagar(P=0.0028).CONCLUSION:AlthoughOXYdidnottesttobemoreefficientthanotheranaerobicsystems,itappearstobeareasonablealternativeforisolatinganaerobicbacteriafromocularsites.Theuseofanagarmediuminaspeciallydesignedplate,withouttherequirementofananaerobicbag,renderedOXYasanadvantageoverotheranaerobicsystems.
简介:AIM:Tomeasurecentralcornealthickness(CCT)andpre-cornealtearfilmthicknessusingtheGalileidualScheimpfluganalyzer(GSA)inNewZealandWhiterabbits.METHODS:TennormalNewZealandWhiterabbits(20eyes)wereincludedinthisstudy.Withtheassistanceof0.1%fluorescein,thepre-cornealtearfilmcanbewellvisualized.BotheyesofeachrabbitwerescannedoncewiththeGSApre-andpost-instillationof1μL0.1%fluorescein.ThedifferencebetweenthetwomeasurementsofCCT(4-mmdiameter)wasrecordedasthepachymetricvaluesofthecentraltearfilm.RESULTS:TheCCTofpre-andpost-instillationwas388.8±9.5μmand407.0±10.5μm,respectively.Afterapairedt-testanalysis,thecentralpre-cornealtearfilmthicknessof4mmdiameterwas18.2±5.31μmwitha95%confidenceintervalof(15.7,20.6)μm(P<0.001).CONCLUSION:GSAcanbeusedtomeasureCCTandanalyzecentraltearfilmthicknessofrabbitswiththehelpoffluorescein.
简介:AIM:Toevaluatetheaccuracyofsphericalequivalent(SE)estimatesofadouble-passsystemandtocompareitwithretinoscopy,subjectiverefractionandatablemountedautorefractor.METHODS:Non-cycloplegicrefractionwasperformedon125eyesof65healthyadults(age23.5±3.0years)fromOctober2010toJanuary2011usingretinoscopy,subjectiverefraction,autorefraction(AutokeratorefractometerTOPCONKR-8100,Japan)andadoublepasssystem(OpticalQualityAnalysisSystem,OQAS,VisiometricsS.L.,Spain).Nineconsecutivemeasurementswiththedouble-passsystemwereperformedonasubgroupof22eyestoassessrepeatability.ToevaluatethetruenessoftheOQASinstrument,theSElaboratorybiasbetweenthedoublepasssystemandtheothertechniqueswascalculated.RESULTS:TheSEmeancoefficientofrepeatabilityobtainedwas0.22D.SignificantcorrelationscouldbeestablishedbetweentheOQASandtheSEobtainedwithretinoscopy(r=0.956,P<0.001),subjectiverefraction(r=0.955,P<0.001)andautorefraction(r=0.957,P<0.001).ThedifferencesinSEbetweenthedouble-passsystemandtheothertechniquesweresignificant(P<0.001),butlackedclinicalrelevanceexceptforretinoscopy;Retinoscopygavemorehyperopicvaluesthanthedouble-passsystem-0.51±0.50Daswellasthesubjectiverefraction-0.23±0.50D;Moremyopicvalueswereachievedbymeansofautorefraction0.24±0.49D.CONCLUSION:Thedouble-passsystemprovidesaccurateandreliableestimatesoftheSEthatcanbeusedforclinicalstudies.Thistechniquecandeterminethecorrectfocuspositiontoassesstheocularopticalquality.However,ithasarelativelysmallmeasuringrangeincomparisonwithautorefractors(-8.00to+5.00D),andrequirespriorinformationontherefractivestateofthepatient.