1) retinal prosthesis
视网膜假体
1.
Furthermore,the progress of Parylene based implantable biotechnology microsystem,such as artificial cochlear and retinal prosthesis,are discussed.
着重介绍了Parylene在微流体系统的应用,包括微阀、微泵和微通道;在可植入微系统中的应用,包括人工耳蜗和视网膜假体。
2.
Prosthesis by implantation can be divided into different parts,the visual cortex prosthesis,optic nerve and retinal prosthesis.
按其植入部位的不同可分为视皮层假体、视神经假体和视网膜假体。
2) subretinal prosthesis
视网膜下人工假体
1.
Research advance of retinal changes after subretinal prosthesis implantation;
视网膜下人工假体植入后视网膜变化的研究进展
3) vitreoretinopathy
玻璃体视网膜病
1.
Expression of nuclear transcription factor-κB and proinflammatory factors mRNA in membrane of proliferative vitreoretinopathy;
增生性玻璃体视网膜病变增生膜内核因子κB与炎前因子mRNA表达
2.
Expression of survivin gene in periretinal membranes of proliferative vitreoretinopathy;
增生性玻璃体视网膜病变增生膜中survivin基因的表达
3.
Expression of nuclear transcription factor-κB in vitrectomy specimens of proliferative vitreoretinopathy;
增生性玻璃体视网膜病变玻璃体切除物内核因子NF-κB的表达
4) Retinal progenitor cells
视网膜前体细胞
1.
Research on the isolation, culture and identification of rabbit retinal progenitor cells in vitro;
兔胚胎视网膜前体细胞体外培养纯化方法探究
2.
Muller glia induce retinal progenitor cells to differentiate into retinal ganglion cells;
Muller细胞诱导视网膜前体细胞向视网膜神经节细胞分化
3.
Long-term Expansion of Retinal Progenitor Cells in Vitro by Culturing Intact Neurospheres in Monolayer;
全神经球贴壁培养法体外长期扩增视网膜前体细胞
5) retinal progenitor cell
视网膜前体细胞
1.
Expansion culture and differential induction of rat retinal progenitor cells in vitro;
大鼠视网膜前体细胞的传代培养及体外分化诱导
2.
Differentiation of human retinal progenitor cells induced by different conditional culture medium;
条件培养液对人视网膜前体细胞分化的诱导
3.
ObjectiveHow to modulate the retinal progenitor cells(RSCs) differentiating into special cells is still the hot point.
目的研究人视网膜前体细胞移植到体外培养的人视网膜组织片下的细胞分化。
补充资料:假利血平16,17-立体异构体
分子式:
CAS号:
性质:属育亨宾型的一个新的吲哚生物碱。此结构有待进一步证明。无色闪光细针晶(由无水乙醇中结晶),熔点179.5~180.5℃,旋光度-125.7°(c=0.315,氯仿)。硝酸盐为白色针状结晶,熔点163~165℃(分解)。存在于夹竹桃科植物云南萝芙木[Rauwolfia yunnanenais Tsiang]的根。具有降压作用,但作用较弱。
CAS号:
性质:属育亨宾型的一个新的吲哚生物碱。此结构有待进一步证明。无色闪光细针晶(由无水乙醇中结晶),熔点179.5~180.5℃,旋光度-125.7°(c=0.315,氯仿)。硝酸盐为白色针状结晶,熔点163~165℃(分解)。存在于夹竹桃科植物云南萝芙木[Rauwolfia yunnanenais Tsiang]的根。具有降压作用,但作用较弱。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条