简介：pluri有势力干细胞的能力为治疗长期、退化的疾病在新奇房间代替治疗学的开发保持大诺言修理干细胞在住的纸巾。然而，众多的报告证明甚至在一个自体同源的背景，那干细胞治疗触发淋巴细胞渗入和发炎。因此，要回答的一个重要问题是主人免疫系统怎么对嫁接自体同源的干细胞或allogeneous干细胞作出回应。在这简短评论，我们在这块地里在几个相关区域总结进步，包括一些我们的数据，在四节：(1)干细胞的immunogenicity；(2)禁止有免疫力的拒绝到allograft干细胞的策略；(3)对癌症干细胞的有免疫力的回答；并且(4)在有免疫力的规定的间充质的干细胞。我们这些和有免疫力的系统茎细胞相互影响的另外的方面上的理解的改进将极大地便于茎的发展为再生目的基于房间的治疗学。

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简介：AbstractAs human life expectancy continues to increase and the birth rate continues to decline, the phenomenon of aging is becoming more prominent worldwide. Therefore, addressing the problems associated with global aging has become a current research focus. The main manifestations of human aging are structural degeneration and functional decline of aging tissues and organs, quality of life decline, decreased ability to resist diseases, and high incidence rates of a variety of senile degenerative diseases. Thus far, no ideal treatments have been found. Stem cell (SC) therapies have broad application prospects in the field of regenerative medicine due to the inherent biological characteristics of SCs, such as their plasticity, self-renewal, and multidirectional differentiation potential. Thus, SCs could delay or even reverse aging. This manuscript reviews the causes of human aging, the biological characteristics of SCs, and research progress on age reversal.

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简介：Inordertounderstandthedevelopmentofstemcellsintospecializedmaturecellsitisnecessarytostudythegrowthofcellsinculture.Forthispurposeitisveryusefultohaveanefficientcomputerizedcelltrackingsystem.Inthispaperaprototypesystemfortrackingneuralstemcellsinasequenceofimagesisdescribed.Inordertogetreliabletrackingresultsitisimportanttohavegoodandrobustsegmentationofthecells.Toachievethiswehaveimplementedthreelevelsofsegmentation.Theprimarylevel,appliedtoallframes,isbasedonfuzzythresholdandwatershedsegmentationofafuzzygrayweighteddistancetransformedimage.Thesecondlevel,appliedtodifficultframeswherethefirstalgorithmseemstohavefailed,isbasedonafastgeometricactivecontourmodelbasedonthelevelsetalgorithm.Finally,theautomaticsegmentationresultonthecrucialfirstframecanbeinteractivelyinspectedandcorrected.Visualinspectionandcorrectioncanalsobeappliedtootherframesbutthisisgenerallynotneeded.Forthetrackingallcellsareclassifiedintoinactive,active,dividingandclusteredcells.Differentalgorithmsareusedtodealwiththedifferentcellcategories.Aspecialbacktrackingstepisusedtoautomaticallycorrectforsomecommonerrorsthatappearintheinitialforwardtrackingprocess.

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简介：摘要目的探讨STEM（science，technology，engineering，mathematics）教育在融合社工理念的《护理综合实践》课程教学中的应用效果。方法构建融合社工理念的《护理综合实践》课程，并选取本校2019级护理本科2个班的学生作为研究对象。其中对照组学生46名，采用传统教学；另一个班学生设为研究组（43名），采用STEM教学。均教学2个月（28学时）。评价两组教学过程、教学总结及教学满意度。采用SPSS 25.0进行t检验、卡方检验和秩和检验。结果教学过程中研究组的STEM素养、实践能力、探究意识、学习情况、参与度和积极性评分均高于对照组（P<0.05）；教学结束后研究组的问题解决能力、作品展示情况、课程理论知识掌握情况得分均高于对照组（P<0.05）；研究组学生的教学满意度高于对照组（P<0.05）。结论构建融合社工理念的《护理综合实践》课程并采用STEM教育进行教学，可提高学生的学习能力、学习效果及学生对课程教学的满意度。

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简介：AbstractChronic obstructive pulmonary disease (COPD), characterized by persistent and not fully reversible airflow restrictions, is currently one of the most widespread chronic lung diseases in the world. The most common symptoms of COPD are cough, expectoration, and exertional dyspnea. Although various strategies have been developed during the last few decades, current medical treatment for COPD only focuses on the relief of symptoms, and the reversal of lung function deterioration and improvement in patient’s quality of life are very limited. Consequently, development of novel effective therapeutic strategies for COPD is urgently needed. Stem cells were known to differentiate into a variety of cell types and used to regenerate lung parenchyma and airway structures. Stem cell therapy is a promising therapeutic strategy that has the potential to restore the lung function and improve the quality of life in patients with COPD. This review summarizes the current state of knowledge regarding the clinical research on the treatment of COPD with mesenchymal stem cells (MSCs) and aims to update the understanding of the role of MSCs in COPD treatment, which may be helpful for developing effective therapeutic strategies in clinical settings.

简介：Rats(Rattusnorvegicus)havemanyadvantagesovermiceinscientificstudies,forexample,theyaremorerelevanttohumaninphysiologicalandpharmacologicalresponses.Therefore,ratsarebroadlyusedinexperimentalstudies.Therecentbreakthroughinthegenerationofratembryonicstemcells(rESCs)opensthedoortoapplicationofgenetargetingtocreatemodelsforthestudyofhumandiseases.Inaddition,theinvitrodifferentiationofrESCsintoderivativesofthreegermlineswillserveasapowerfultoolandresourcefortheinvestigationofmammaliandevelopment,cellfunction,tissuerepair,anddrugdiscovery.However,thedistinctcultureconditionandsignalinhibitor-dependedmaintenanceofrESCsstandasaconsiderablechallengeforitsinvitrodifferentiation.Toaddressit,weinvestigatedwhetherrESCsarecapableofformingterminaldifferentiatedcardiomyocytes.Wefoundthattheembryoidbodies(EBs)-basedmethodusedinmouseESC(mESC)differentiationfailedtoworkinthecultivationofrESCs.WethenmodifiedthedifferentiationprotocolandsuccessfullydevelopedaninvitrodifferentiationsystemtodifferentiaterESCsintothreeembryonicgermlayers.Byusingthismethod,therESCsformspontaneousbeatingcardiomyocyteswiththepropertiessimilartothosederivedfromfetalratheartsandmESCs.Thisuniquecellularsystemwillprovideanewapproachtostudytheearlydevelopmentandcardiacfunctionaswellastoperformpharmacologicaltestandcelltherapystudy(Grants:theStateMajorResearchProgramofChina(2009ZX09503-024,2010CB945603)andCAS(XDA01030000).

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简介：Serioushearingandbalanceimpairmentscanoccurasaresultoflossofhaircellsrelatedtoaging,environmentalstresses(suchasnoisesexposure)orexposuretochemotherapeuticdrugs(suchascisplatinandaminoglycosideantibiotics).Becausealargeportionofhearingimpairmentinvolveslossofhaircells,regenerationorreplacementofthesecellsisapossiblealternativetoprostheticdevices1.Researchershavepaidhotattentiontothestudyofinnerearhaircellregenerationforhearingrestorationformanyyears.Besidestheimportantfunctionofhaircells,therearemanyothercontributorsessentialfornormalhearing.Haircellregenerationisoneoftheessentialstepsfortotalhearingrecovery,butnottheonlyone.Inthisarticle,wewillreviewtheprogressesinresearchonhearingloss,stemcellapplicationandhearingrestoration.

简介：Withinthenervoussystem,regenerationislimited,andthisisduetothesmallamountofneuralstemcells,theinhibitoryoriginofthestemcellnicheandoftentothedevelopmentofascarwhichconstitutesamechanicalbarrierfortheregeneration.Regardingtheseaspects,manyeffortshavebeendoneintheresearchofacellcomponentthatcombinedwithscaffoldsandgrowthfactorscouldbesuitablefornervousregenerationinregenerativemedicineapproaches.Autologousmesenchymalstemcellsrepresentnowadaystheidealcandidateforthisaim,thanktotheirmultipotencyandtotheiramountinsideadulttissues.However,issuesintheirharvesting,throughtheuseofinvasivetechniques,andproblemsinvolvedintheirageing,requiretheresearchofnewautologoussources.Tothispurpose,therecentdiscoveryofastemcellscomponentinteeth,andwhichderivefromneuralcrestcells,hascametothelightthepossibilityofusingdentalstemcellsinnervoussystemregeneration.Inthiswork,inordertogiveguidelinesontheuseofdentalstemcellsforneuralregeneration,webrieflyintroducetheconceptsofregenerationandregenerativemedicine,wethenfocustheattentiononodontogenesis,whichinvolvestheformationandthepresenceofastemcomponentindifferentpartsofteeth,andfinallywedescribesomeexperimentalapproacheswhichareexploitingdentalstemcellsforneuralstudies.

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简介：Stemcellshavetheremarkablepotentialtodevelopintomanydifferentcelltypes,essentiallywithoutlimittoreplenishothercellsaslongasthepersonoranimalisstillalive,offeringimmensehopeofcuringAlzheimer’sdisease,repairingdamagedspinalcords,treatingkidney,liverandlungdiseasesandmakingdamagedheartswhole.Untilrecently,scientistsprimarilyworkedwithtwokindsofstemcellsfromanimalsandhumans:embryonicstemcellsandnon-embryonic'somatic'or'adult'stemcells.Recentbreakthroughmakeitpossibletoconvertor'reprogram'specializedadultcellstoassumeastemstem-likecellswithdifferenttechnologies.Thereviewwillbrieflydiscusstherecentprogressesinthisarea.更多还原

简介：Itiswellestablishedthatstemcellscandifferentiateintocelltypesoftheorganinwhichthesearetransplanted.However,theprocessisveryslowduetolackofunderstandingofsignalsimportantfortheirsurvivalanddifferentiation,mostoptimalstemcellsandtheirplasticity.Limitationsandadvantagesofvariouscellsubtypeswillbedescribed.Therateofstemcellsmobilizationandtheirsurvivalintheischemicenvironmentaremajorobstaclesinengraftmentanddifferentiationofstemcellsformeaningfulrepairoftheinfarctedmyocardium.Manipulationofstemcellswithischemicpreconditioning,combinedgeneandcelltherapytogetherwithsimultaneousactivationofdiversesignalingpathwaysformassivestemcellmobilization®enerationhassignificantimpactontherepairprocessbystemcells.Theseandotherdifficultiesencounteredinefficientuseofvariousstemcellshaveresultedininventionofinducedpluripotentstemcellswhichcouldrevolutionizethestemcellbasedtherapyandtheirapplicationsforunderstandingofhumandiseaseanddrugscreeninginthenearfuture.ReprogrammingofadultcellsintoiPScellswithouttheuseofviralvectorsisamajorchallengetowardsgettingiPScellswithoutviralintegrationintocells.Tomeetthischallengewehaverepro-grammedskeletalmyoblastsintoiPScellswithhighefficiencyusingepigeneticmodifiers.TransplantationofiPScellsderivedpurecardiacprogenitorsintoinfarctedmyocardiumledtoextensiverepopulationofscarareawithfullydevelopedmyocyteswithouttumorformationandresultinginmarkedimprovementincardiacfunction.Reprogrammingwithpurechemicalmeanswillmaketherapeuticuseofthesecellsmoresafer.Targetingtheinducedpluripotentstemcellstowardscardiacprogenitorsandtheirapplicationtowardstransplantationisamajorstepforwardinenhancingthemyocardialrepaircapacitybythesecells.

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简介：AbstractHematopoietic stem cell transplantation (HSCT) is a highly effective and unique medical procedure for the treatment of most hematological malignancies. The first allogeneic transplantation was performed by E. Donnall Thomas in 1957. Since then, the field has evolved and expanded worldwide. The first successful allogenic HSCT (allo-HSCT) in China was conducted in 1981. Although the development of allo-HSCT in China lagged, China has since made considerable contributions to the process of HSCT worldwide, with more than 10,000 HSCTs performed annually. In particular, haploid HSCT (haplo-HSCT) technology represented in the Beijing Protocol has demonstrated similar efficacy to human leukocyte antigen-matched HSCT and has gradually become the pre-dominant choice for allo-HSCT in China. Currently, the number of haplo-HSCT procedures exceeds 5000 per year, and the Beijing Protocol has been greatly improved by implementing updated individualized strategies for controlling complications, relapse, and infection management. In addition, innovative haplo-HSCT technologies developed by different medical transplantation centers, such as Soochow, Zhejiang, Fujian, Chongqing, and Anhui, have emerged, providing inspiration for the refinement of global practice. This review will focus on the current activity in this field and highlight important trends that are vital in China’s allo-HSCT process, examining the current viewpoint and future directions.

简介：产生导致的pluripotent干细胞(iPSCs)的曾经改进的技术作为疾病建模，屏蔽的药，再生药和房间治疗的新奇候选人增加了他们的潜在的使用。确实，为没有道德的担心的自强的广泛的能力由胚胎的干细胞(转换字符)面对了的iPSCs提议。关于在免疫系统的潜在的应用程序，许多研究提供证据给在另外的系统上使用iPSCs有独占的优点的支持。造血的干细胞和成熟有免疫力的房间的几种类型成功地是到iPSCs并且反过来也如此的reprogrammed，铺向我们有效地为病人特定的疾病建模并且提供为输送药的潜在地其他的房间来源的能力的一条路径。尽管有这些潜在的进展，关于在诊所的iPSCs的使用的一些限制尚待，包括iPSCs和他们的衍生物的immunogenicity，它当前在这块地里的争论下面。在这评论，我们主要集中于讨论关于免疫系统在最近的区别方法和iPSCs的临床的含意被取得的最近的进步。另外，关于iPSCs的临床的申请的当前的问题被处理，特别包围immunogenicity的争吵，与许多其他的观点一起。