MScs

Study on tissue engineering skin containing MSCs repairing burn wounds

复合骨髓间充质干细胞的组织工程皮肤修复烧伤创面的实验研究

However , little is known about the factors that influence the functions of the transplanted MSCs .

但是，对于移植后的骨髓间充质干细胞受影响的因子尚少有研究。

MSCs can also regulate the function of the immune system .

MSCs同时还具有调节免疫系统的作用。

Conclusion MSCs are ideal seeded cells in bone tissue engineering .

结论大鼠骨髓间充质干细胞（MSCs）是骨组织工程中适宜的种子细胞。

The regional wall motion was better preserved in the MSCs group ;

实验组局部室壁运动情况明显优于对照组；

MAIN OUTCOME MEASURES : ① Form and growth of MSCs of rabbits ;

主要观察指标：①兔骨髓基质干细胞的形态及生长。

Generation of functional tissue engineering heart valve from human MSCs was feasible .

人骨髓基质干细胞种植在去细胞猪主动脉瓣叶上构建组织工程心脏瓣膜是可行的。

Conclusion The cultured cells are identified the bone marrow MSCs .

结论培养的细胞为骨髓MSCs；

The results will offer a morphological foundation for differentiation and application of MSCs .

实验结果为MSCs的诱导分化及应用提供了形态学基础。

Methods MSCs were obtained from rat bone marrow .

方法从大鼠骨髓中获得间充质干细胞，体外培养传代。

Influence Factors on Preparation of Recombinant BMP-2 Gene MSCs Cell Microcapsules

转BMP-2基因MSCs细胞微囊制备的影响因素

These characteristics of MSCs make them ideal engineering cells in cell and gene therapies .

这些特性使MSCs成为在细胞治疗、基因治疗中有效发挥作用的理想工程细胞。

After induction , MSCs were getting round and formed clusters .

hBMMSCs经诱导分化后，细胞逐渐变圆，并聚集成团；

Group D : Simple MSCs were cultured .

D组：单纯MSCs培养。

Experimental Study on EPCs and MSCs as Seeded Cells of Tissue Engineering Heart Valve

EPCs联合MSCs作为组织工程心脏瓣膜种子细胞实验研究

Conclusion : MSCs was promising seed for cell transplantation in tendon tissue engineering .

结论：MSCs在BMP-12诱导下具有向肌腱细胞分化潜能，可作为肌腱组织工程的有效种子细胞应用于组织工程化肌腱的构建。

CONCLUSIONS : In an in vitro model of simulated ischemia , MSCs reduce cell death .

结论：骨髓基质细胞可以减少缺血海马片细胞死亡；

About 20 % samples succeeded to obtain the cord blood MSCs after culture .

按照本实验所建立的培养体系，约20%的样本成功培养出脐血间充质干细胞。

Study on differentiation of fetus mice skin MSCs into osteoblasts cultured in vitro

胎鼠皮肤间充质干细胞的体外培养及成骨分化研究

MSCs also have profound immunomodulatory function both in vitro and in vivo .

而且间充质干细胞在体内和体外都有免疫调节作用。

Expression of ion channel gene during MSCs differentiating into cardiomyocytes

大鼠MSCs诱导分化为心肌样细胞时离子通道基因的表达

RESULTS : There was no significant difference between morphology and biological properties of the two kinds of MSCs .

结果：两种MSCs的细胞形态和生物学特性无明显差异。

In vitro study on multiple differentiation potential of swine synovium-derived MSCs

猪滑膜源性MSCs体外多向分化潜能的研究

MSCs obtained from adult bone marrow were cultured 、 isolated and purified .

取成年大鼠骨髓，培养、分离和纯化骨髓间充质干细胞。

The ultrastructure of MSCs was observed by transmission and scanning electron microscopy .

利用透射电镜和扫描电镜观察MSCs的超微结构。

MSCs had the capacity to differentiate into osteoblasts and fat cells .

MSCs可向成骨细胞和脂肪细胞分化。

RESULTS : Homogeneous MSCs were obtained by percoll density gradient centrifugation .

结果：Percoll密度梯度离心法培养可获得均一的MSCs；

Application of MRI Labeling in MSCs transplantation in hippocampus

磁共振示踪在间充质干细胞海马移植中的应用

4 , The increase of MSCs homing with hypoxic preconditioning could significantly improve heart function .

低氧预处理的干细胞归巢数量增加能明显改善心肌梗死后心功能。

Construction of recombinant retrovirus vector carrying EGFP and expression MSCs in human bone marrow

EGFP逆转录病毒载体构建及在人骨髓间质干细胞中的表达