PURPOSE: 1 To build high pressure cell culture model in vitro of Retinal Ganglion Cells(RGCs) and observe the RGCs effected by pressure .
目的:1建立高压体外培养视网膜神经节细胞模型并观察压力对视网膜神经节细胞的影响;
METHODS Based on cell culture model in vitro, MTT test was used to study the inhibitory effect of curcumin derivatives on tumor cell lines.
方法利用体外细胞培养模型,应用MTT法分析姜黄素衍生物对不同肿瘤细胞生长的影响。
METHODS:Methods of in vitro cell culture model of human primary PDLC, tetrazolium bromide reduction (MTT) assay and direct contact were used.
方法:体外细胞培养,MTT (噻唑蓝)比色法,材料直接接触法。
Organ culture model of intervertebral discs could preserve organ integrity and cell viability at least 4 weeks under iso-osmotic or hyperosmotic loading.
在等渗或高渗负荷下,椎间盘的器官培养模型可以保持器官完整性和细胞活力至少4周。
We have to do in-vitro cell culture experiments first, prove it in an animal model, and then develop a molecule or protein which will affect the mutated gene product.
我们首先得做一个体外细胞培养实验,在动物模型中证明它的存在,然后开发出一种能影响突变基因产物的分子或蛋白质。
And as the basic for the whole experimental work, designing the model of hypoxia cell culture is very important.
而构建缺氧培养环境作为确立细胞缺氧损伤模型实验的基础工作是极其重要的。
We also established the cell line of this transgenic mice model through primary cell culture to make use this model more efficiently.
为了更为有效地利用该模型小鼠,我们通过原代培养建立了该模型的肿瘤细胞系。
We further developed the primary cell culture if the tumor cells which would lead to better use of this genetic model.
同时还建立了原代培养的肿瘤细胞,提升了模型的利用效率。
A new, living 3d cell-culture model of the human blood-brain barrier will be used to screen the interaction initially between the nanoparticles and the brain.
一个人类血脑屏障细胞培养3d新模型将被用来拍摄纳米微粒和大脑之间最初的互动。
Conclusion:Organ culture model of intervertebral discs could preserve organ integrity and cell viability at least 4 weeks under iso-osmotic or hyperosmotic loading.
目的:建立一种可用于体外研究椎间盘退变的椎间盘器官培养模型,探讨渗透压负荷对模型椎间盘细胞活力和代谢的影响。
Methods: Using in vitro cell culture and animal model to observe the effects of SPA given by oral administration on tumor proliferation, immune function and the ability of IL1, IL2 secretion.
方法:采用体外细胞培养以及小鼠动物模型,观察spa对培养肿瘤细胞的抑制,及其对小鼠动物模型肿瘤增殖、免疫及白介素1和2产生的影响。
All the research achievements will be used to build a model of three-dimensional cell culture, in order to lay a solid foundation for culture of multifunctional organ in vitro.
所有的研究结果,将用于建立细胞三维培养模型,为将来能在体外培养出全功能的人体器官打下坚实的基础。
All the research achievements will be used to build a model of three-dimensional cell culture, in order to lay a solid foundation for culture of multifunctional organ in vitro.
所有的研究结果,将用于建立细胞三维培养模型,为将来能在体外培养出全功能的人体器官打下坚实的基础。
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