学科分类
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23 个结果
  • 简介:近视眼的发病与多种因素相关,其中最主要的是遗传和环境因素.大量的近视相关研究提示近视的发生是在异常视觉信息的作用下,视网膜、脉络膜内多种神经递质和生长因子的表达发生改变,通过一系列信号传导过程引起巩膜重塑、眼轴延长而成.多种细胞因子通过NMDAR-1/NO-cGMP、TGF-β1/Smad3、JAK-Stat3等信号通路调控近视的形成与发展.本文就影响近视形成的几个主要信号传导通路的研究进展做一综述.

  • 标签: 近视眼 信号转导通路 细胞因子
  • 简介:AIM:ToinvestigatetheeffectofintravitrealinjectionofDL-alpha-aminoadipicacid(DL-α-AAA)onocularrefractivestateandretinaldopamine,transforminggrowthfactor-β2(TGFβ2),vasoactiveintestinalpolypeptide(VIP)inguineapigform-deprivedmyopia.METHODS:Four-week-oldpigmentedguineapigswererandomlyassignedto4groups:normalcontrol,deprivation,deprivationplusDL-α-AAA,deprivationplussaline.Formdeprivationwasinducedwiththeself-madetranslucenteyeshields,andlastedfor14days.8μgDL-α-AAAwasinjectedintothevitreouschamberofdeprivedeyes.Thecornealradiusofcurvature,refractionandaxiallengthweremeasured.Retinaldopaminecontentwasevaluatedbythehigh-performanceliquidchromatographywithelectrochemicaldetection,andTGFβ2andVIPproteinweredetectedbyWesternblotting.RESULTS:Fourteendaysofeyeocclusioncausedtheaxiallengthtoelongateandbecomemyopicintheform-deprivedeyes,withthedecreaseofretinaldopamineandtheincreaseofTGFβ2andvasoactiveintestinalpolypeptide(VIP)protein.IntravitrealinjectionofDL-α-AAAcouldinhibitthemyopicshiftfrom(-3.65±1.06)Dto(-1.48±0.63)D,P<0.01duetogogglesoccludingandcausethedecreaseofretinalTGFβ2proteininthedeprivedeyes.However,intravitrealinjectionofDL-α-AAAhadnosignificanteffectonretinaldopamineandVIPproteinindeprivedeyes.RetinalTGFβ2proteincorrelatedhighlywiththeocularrefraction(y=-3.34+0.31/x,F=74.75,P<0.001)andaxiallength(y=8.39-0.02/x,F=48.32,P<0.001)indifferenttreatmentgroups.·CONCLUSION:IntravitrealinjectionofDL-α-AAAiseffectivelyabletosuppressthedevelopmentofformdeprivationmyopia,whichmaybeassociatedwithretinalTGFβ2proteininguineapigs.

  • 标签: DL-alpha-aminoadipicacid form-deprivation MYOPIA TGFΒ2 Müller cell
  • 简介:阻塞性睡眠呼吸暂停低通气综合征(obstnactivesleepapneahypopneasyndrome,OSAHS)的发病机制涉及多方面,其中上气道神经肌肉的调控可能发挥着重要作用。本文对正常人和OSAHS患者在清醒和睡眠状态下的神经肌肉活动进行综述,以阐释上气道神经肌肉调控参与OSAHS发病的可能机制

  • 标签: 阻塞性睡眠呼吸暂停低通气综合征 神经肌肉 发病机制 上气道 调控 OSAHS