BMP2-话题@MedSci

#BMP2#

16篇内容 | 500人围观

关注话题

话题活跃用户

#插入话题

插入图片

最新最热

[GetTopicListResponse(id=2226165, encodeId=aa5d2226165fb, content=<a href='/topic/show?id=6dab540565f' target=_blank style='color:#2F92EE;'>#成纤维细胞#</a> <a href='/topic/show?id=330410333110' target=_blank style='color:#2F92EE;'>#黑色素瘤#</a> <a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=Cell：男性成纤维细胞的年龄相关变化增加了治疗抵抗性黑色素瘤的产生, objectType=article, longId=843597, objectId=795284359ec4, topicUrl=null, isHasObj=0, objectCover=https://img.medsci.cn/bioon-com/20240916/1726480148520_2185383.png, objectUrl=/article/show_article.do?id=795284359ec4, replyNumber=0, likeNumber=15, createdTime=2024-09-17, rootId=0, userName=梅斯管理员, userId=cade5395722, projectId=0, avatar=, status=0, hasArticle=1, attachment=null, ipAttribution=江苏省, moduleDTOList=null, followStatus=false, userIsMember=false, type=null, lengthMark=0), GetTopicListResponse(id=1780412, encodeId=4eec1e804122d, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=Bone Rep：腺病毒介导的BMP2递送可有效促进颅骨缺损, objectType=article, longId=168539, objectId=97001685393b, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=97001685393b, replyNumber=0, likeNumber=67, createdTime=2019-06-18, rootId=0, userName=heli0118, userId=21015, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=97001685393b, moduleTitle=Bone Rep：腺病毒介导的BMP2递送可有效促进颅骨缺损, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=97001685393b)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780417, encodeId=51cb1e80417ed, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=J Orthop Res：去氯雷他定通过抑制BMP2-Smad1 / 5/8信号传导抑制异位骨化, objectType=article, longId=188107, objectId=c85018810e7b, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=c85018810e7b, replyNumber=0, likeNumber=80, createdTime=2020-12-14, rootId=0, userName=heli0118, userId=21015, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=c85018810e7b, moduleTitle=J Orthop Res：去氯雷他定通过抑制BMP2-Smad1 / 5/8信号传导抑制异位骨化, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=c85018810e7b)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780409, encodeId=ecf51e804090d, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=Dent Mater：通过注射BMP2固定的ECM模拟凝胶增强3D打印支架上细胞接种和成骨, objectType=article, longId=165159, objectId=ee8c1651597c, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=ee8c1651597c, replyNumber=0, likeNumber=91, createdTime=2020-03-05, rootId=0, userName=夏天与十三菇凉, userId=eb8e2500096, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=ee8c1651597c, moduleTitle=Dent Mater：通过注射BMP2固定的ECM模拟凝胶增强3D打印支架上细胞接种和成骨, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=ee8c1651597c)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780415, encodeId=7af81e8041566, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=Mater Sci Eng C Mater Biol Appl：MAO-CaP-BMP2多孔钛合金基植入物可更好的实现骨整合, objectType=article, longId=182330, objectId=51c61823300d, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=51c61823300d, replyNumber=0, likeNumber=70, createdTime=2020-09-08, rootId=0, userName=heli0118, userId=21015, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=51c61823300d, moduleTitle=Mater Sci Eng C Mater Biol Appl：MAO-CaP-BMP2多孔钛合金基植入物可更好的实现骨整合, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=51c61823300d)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780414, encodeId=2cd21e8041400, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=Biomater Sci：BMP2-/VEGF转染的脂肪干细胞同时增强成骨和血管生成, objectType=article, longId=178796, objectId=e9081e879685, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=e9081e879685, replyNumber=0, likeNumber=70, createdTime=2020-08-19, rootId=0, userName=heli0118, userId=21015, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=e9081e879685, moduleTitle=Biomater Sci：BMP2-/VEGF转染的脂肪干细胞同时增强成骨和血管生成, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=e9081e879685)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780413, encodeId=359a1e8041372, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=J Cell Physiol：MiR-137敲低通过LSD1/BMP2/SMAD4信号网络促进人脂肪干细胞的成骨分化, objectType=article, longId=174581, objectId=c4ff1e458199, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=c4ff1e458199, replyNumber=0, likeNumber=117, createdTime=2020-05-11, rootId=0, userName=heli0118, userId=21015, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=c4ff1e458199, moduleTitle=J Cell Physiol：MiR-137敲低通过LSD1/BMP2/SMAD4信号网络促进人脂肪干细胞的成骨分化, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=c4ff1e458199)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780416, encodeId=3c3f1e8041638, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=Blood：EREE通过隔离BMP2/6与1型BMP受体ALK3结合下调铁调素, objectType=article, longId=184506, objectId=38d218450695, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=38d218450695, replyNumber=0, likeNumber=77, createdTime=2020-09-08, rootId=0, userName=heli0118, userId=21015, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=38d218450695, moduleTitle=Blood：EREE通过隔离BMP2/6与1型BMP受体ALK3结合下调铁调素, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=38d218450695)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780410, encodeId=37641e804101e, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=Biomed Pharmacother：白藜芦醇苷通过激活BMP2-Wnt /β-catenin信号通路促进人骨髓间充质干细胞的成骨分化, objectType=article, longId=165168, objectId=afce1651681c, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=afce1651681c, replyNumber=0, likeNumber=62, createdTime=2019-05-15, rootId=0, userName=heli0118, userId=21015, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=afce1651681c, moduleTitle=Biomed Pharmacother：白藜芦醇苷通过激活BMP2-Wnt /β-catenin信号通路促进人骨髓间充质干细胞的成骨分化, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=afce1651681c)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780411, encodeId=a4651e80411e6, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=Cytokine：重组慢病毒介导的BMP2和TGF-β3对大鼠骨髓间充质干细胞成骨分化的协同作用, objectType=article, longId=165216, objectId=5c221652168c, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=5c221652168c, replyNumber=0, likeNumber=99, createdTime=2020-03-16, rootId=0, userName=heli0118, userId=21015, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=5c221652168c, moduleTitle=Cytokine：重组慢病毒介导的BMP2和TGF-β3对大鼠骨髓间充质干细胞成骨分化的协同作用, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=5c221652168c)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780405, encodeId=1cd41e80405cd, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=Stem Cells Int：Foxc2和BMP2诱导顶端乳头状人干细胞的成骨/牙源性分化和矿化, objectType=article, longId=148094, objectId=9b87148094ac, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=9b87148094ac, replyNumber=0, likeNumber=54, createdTime=2019-03-29, rootId=0, userName=夏天与十三菇凉, userId=eb8e2500096, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=9b87148094ac, moduleTitle=Stem Cells Int：Foxc2和BMP2诱导顶端乳头状人干细胞的成骨/牙源性分化和矿化, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=9b87148094ac)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780407, encodeId=13e01e804070c, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=Stem Cells Int：利用成骨诱导培养基和FGFb，BMP2或NELL1优化羊脂肪源性干细胞的成骨分化, objectType=article, longId=152584, objectId=eb57152584fa, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=eb57152584fa, replyNumber=0, likeNumber=56, createdTime=2018-11-04, rootId=0, userName=夏天与十三菇凉, userId=eb8e2500096, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=eb57152584fa, moduleTitle=Stem Cells Int：利用成骨诱导培养基和FGFb，BMP2或NELL1优化羊脂肪源性干细胞的成骨分化, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=eb57152584fa)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780408, encodeId=567b1e8040834, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=Exp Mol Pathol：LncRNA KCNQ1OT1通过海绵miRNA-214促进BMP2表达以调节成骨分化, objectType=article, longId=159382, objectId=5e8b159382ea, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=5e8b159382ea, replyNumber=0, likeNumber=65, createdTime=2019-05-22, rootId=0, userName=夏天与十三菇凉, userId=eb8e2500096, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=5e8b159382ea, moduleTitle=Exp Mol Pathol：LncRNA KCNQ1OT1通过海绵miRNA-214促进BMP2表达以调节成骨分化, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=5e8b159382ea)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780406, encodeId=17d11e8040648, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=JBMR Plus：BMP2诱导的骨缺损愈合与固定器刚度的相互作用调节基质形成, objectType=article, longId=150417, objectId=240815041e85, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=240815041e85, replyNumber=0, likeNumber=82, createdTime=2019-05-21, rootId=0, userName=夏天与十三菇凉, userId=eb8e2500096, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=240815041e85, moduleTitle=JBMR Plus：BMP2诱导的骨缺损愈合与固定器刚度的相互作用调节基质形成, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=240815041e85)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780404, encodeId=d3ab1e8040405, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=J Biomed Mater Res A：与rhBMP2相比，rhBMP9具有更强的骨诱导潜力, objectType=article, longId=132735, objectId=cd4b132e353c, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=cd4b132e353c, replyNumber=0, likeNumber=62, createdTime=2018-11-29, rootId=0, userName=夏天与十三菇凉, userId=eb8e2500096, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=cd4b132e353c, moduleTitle=J Biomed Mater Res A：与rhBMP2相比，rhBMP9具有更强的骨诱导潜力, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=cd4b132e353c)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780403, encodeId=0eb61e804034a, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=Int J Nanomedicine：BMP2相关肽负载矿化ECM/肝素复合支架骨诱导骨再生, objectType=article, longId=132561, objectId=bf5e1325615f, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=bf5e1325615f, replyNumber=0, likeNumber=77, createdTime=2018-10-08, rootId=0, userName=夏天与十三菇凉, userId=eb8e2500096, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=bf5e1325615f, moduleTitle=Int J Nanomedicine：BMP2相关肽负载矿化ECM/肝素复合支架骨诱导骨再生, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=bf5e1325615f)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1780402, encodeId=212f1e8040255, content=<a href='/topic/show?id=7591358092' target=_blank style='color:#2F92EE;'>#BMP2#</a>, objectTitle=Genes Dis：Sox9通过下调MSCs中的Smad7来增强BMP2诱导的软骨形成分化, objectType=article, longId=132516, objectId=e4751325161f, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=e4751325161f, replyNumber=0, likeNumber=76, createdTime=2019-01-01, rootId=0, userName=夏天与十三菇凉, userId=eb8e2500096, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=e4751325161f, moduleTitle=Genes Dis：Sox9通过下调MSCs中的Smad7来增强BMP2诱导的软骨形成分化, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=e4751325161f)], followStatus=false, userIsMember=false, type=1, lengthMark=0)] 梅斯话题小助手

BMP2

2020-05-29

梅斯管理员 (审核中...)

前往app查看评论内容

#成纤维细胞# #黑色素瘤# #BMP2#

2024-09-17发表于江苏省

heli0118 (审核中...)

前往app查看评论内容

#BMP2#

Bone Rep：腺病毒介导的BMP2递送可有效促进颅骨缺损

2019-06-18

heli0118 (审核中...)

前往app查看评论内容

#BMP2#

J Orthop Res：去氯雷他定通过抑制BMP2-Smad1 / 5/8信号传导抑制异位骨化

2020-12-14

夏天与十三菇凉 (审核中...)

前往app查看评论内容

#BMP2#

Dent Mater：通过注射BMP2固定的ECM模拟凝胶增强3D打印支架上细胞接种和成骨

2020-03-05

heli0118 (审核中...)

前往app查看评论内容

#BMP2#

Mater Sci Eng C Mater Biol Appl：MAO-CaP-BMP2多孔钛合金基植入物可更好的实现骨整合

2020-09-08

heli0118 (审核中...)

前往app查看评论内容

#BMP2#

Biomater Sci：BMP2-/VEGF转染的脂肪干细胞同时增强成骨和血管生成

2020-08-19

heli0118 (审核中...)

前往app查看评论内容

#BMP2#

J Cell Physiol：MiR-137敲低通过LSD1/BMP2/SMAD4信号网络促进人脂肪干细胞的成骨分化

2020-05-11

heli0118 (审核中...)

前往app查看评论内容

#BMP2#

Blood：EREE通过隔离BMP2/6与1型BMP受体ALK3结合下调铁调素

2020-09-08

heli0118 (审核中...)

前往app查看评论内容

#BMP2#

Biomed Pharmacother：白藜芦醇苷通过激活BMP2-Wnt /β-catenin信号通路促进人骨髓间充质干细胞的成骨分化

2019-05-15

heli0118 (审核中...)

前往app查看评论内容

#BMP2#

Cytokine：重组慢病毒介导的BMP2和TGF-β3对大鼠骨髓间充质干细胞成骨分化的协同作用

2020-03-16

夏天与十三菇凉 (审核中...)

前往app查看评论内容

#BMP2#

Stem Cells Int：Foxc2和BMP2诱导顶端乳头状人干细胞的成骨/牙源性分化和矿化

2019-03-29

夏天与十三菇凉 (审核中...)

前往app查看评论内容

#BMP2#

Stem Cells Int：利用成骨诱导培养基和FGFb，BMP2或NELL1优化羊脂肪源性干细胞的成骨分化

2018-11-04

夏天与十三菇凉 (审核中...)

前往app查看评论内容

#BMP2#

Exp Mol Pathol：LncRNA KCNQ1OT1通过海绵miRNA-214促进BMP2表达以调节成骨分化

2019-05-22

夏天与十三菇凉 (审核中...)

前往app查看评论内容

#BMP2#

JBMR Plus：BMP2诱导的骨缺损愈合与固定器刚度的相互作用调节基质形成

2019-05-21

夏天与十三菇凉 (审核中...)

前往app查看评论内容

#BMP2#

J Biomed Mater Res A：与rhBMP2相比，rhBMP9具有更强的骨诱导潜力

2018-11-29

夏天与十三菇凉 (审核中...)

前往app查看评论内容

#BMP2#

Int J Nanomedicine：BMP2相关肽负载矿化ECM/肝素复合支架骨诱导骨再生

2018-10-08

夏天与十三菇凉 (审核中...)

前往app查看评论内容

#BMP2#

Genes Dis：Sox9通过下调MSCs中的Smad7来增强BMP2诱导的软骨形成分化

2019-01-01

科室
- - 订阅+
  - 更多科室
工具
服务