bmsc

Perform ossific inducing differentiation to the generation of BMSC with strongest proliferation capability according to the growth curve , observing the changes in cell morphology and follow by alkaline phosphatase staining test .

方法是依据生长曲线取增值能力最强的一代骨髓间充质干细胞进行成骨诱导分化，显微镜下观察细胞形态变化，然后碱性磷酸酶染色检验。

Experimental conditions in this test are suitable for the culture of BMSC .

本实验采用的培养方法适合骨髓基质细胞的体外培养。

Experimental study on culture and differentiation of BMSC from rhesus monkey

恒河猴骨髓基质细胞体外诱导分化成神经干细胞的实验研究

Effects of different dosages of BMSC on lung fibrosis in mice

不同剂量BMSC尾静脉输注对小鼠肺组织纤维化的影响

BMSC and FG Compound Repair Obsolete Joint Cartilage Damage Experimental Study

BMSC与FG复合修复陈旧性关节软骨缺损的实验研究

BMSC have a strong activity of proliferation and osteogenic capacity .

而且其分化增殖能力较强，成骨能力确定。

Shape and ultrastructure of the neuron-like cells derived from human BMSC

人骨髓源性神经样细胞的形态及超微结构

Effect of BMSC on the Spine Cord Regeneration and Neuronal Stem Cells Differentiation

脊髓骨髓间充质干细胞促进损伤脊髓修复和神经干细胞的分化

Conclusion Ad BMP 2 could infect BMSC with high efficiency and promote its differentiation .

结论AdBMP2可高效转染BMSC，且促进细胞分化。

Morphological study on in vitro inducement and differentiation of nerve cells derived from rat BMSC

体外诱导骨髓基质细胞向神经细胞分化的形态学观察

These data suggest that vitamin D can protect BMSC from apoptosis induced by irradiation .

这些资料说明维生素D具有保护照射引起的BMSC凋亡的作用。

Osteogenic Potential of the Cultured Bone Marrow Stem Cell ( BMSc ) in Vitro

骨髓基质细胞体外培养骨发生潜能及条件研究

BMSC conditioned medium could decrease the rate of apoptosis of spinal cord neurons induced by heat shock .

BMSC条件培养液可以减少热休克诱导的脊髓神经元凋亡的比率，并且BMSC条件培养液含量高者有更好的保护作用。

Study on the Tissue Engineered Bone Composed of Freezing and Drying Bone and BMSC Transfected VEGF

转染VEGF的BMSC复合冻干骨组织工程骨研究

Objective To study the effects of cryopreservation on biological characters of human bone marrow stromal cell ( BMSC ) .

目的：探讨温固化水凝胶作为骨髓基质干细胞的载体修复软骨缺损的可行性。

Bone marrow stromal cells ( BMSC ) play a key role in the support and regulation of hematopoiesis .

骨髓基质细胞（BoneMarrowStromalcells，BMSC）是支持和调节造血细胞存活、定居、增殖、分化、发育和成熟的内环境，在机体造血调控中具有重要作用。

The study on the mechanism of BMSC transplantation for acute liver failure focused on the potential differentiation ability of stem cell .

目前，对于BMSC治疗肝衰竭作用机制的研究主要集中在BMSC的分化潜能方面。

The expression of ICAM-1 on the surface of BMSC in acute period of ALL is much lower than that of control group .

急性期组ALLBMSC表面ICAM-1表达明显降低。

Conclusion BMSC had unique cytogenetic and immunologic characteristics and provided a base for further investigation on purifying cells .

结论BMSC具有独特的细胞遗传学和免疫学特征。

Methods : Human fetus bone marrow prepared from thighbones was cultured to establish BMSC feeder layer .

方法：以非意愿妊娠流产胎儿股骨为材料制备BMSC饲养层；

Repairing porcine knee joint osteochondral defects at non-weight bearing area by autologous BMSC

骨髓基质细胞修复猪膝关节非负重区软骨与骨复合缺损的实验研究

Conclusion Ad-BMP-2 could infect BMSC with high efficiency and promote the conversion to osteoblast and chondrocyte .

结论：Ad-BMP-2可高效转染BMSC，且促进其向成骨细胞和软骨细胞方向转化。

The adhesion ability of BMSC in long term remission period of ALL to Raji cells higher than that of control group .

长期缓解组ALLBMSC对肿瘤细胞的粘附能力明显增高。

RESULTS : The adhesion ability of BMSC in acute period of ALL to BMMC was lower than that of control group .

结果：急性期组ALLBMSC对骨髓造血细胞的粘附能力明显下降。

Conclusion BMP microspheres possessed satisfactory biocompatibility , and could increase the osteogenic capability of BMSc in vitro .

结论骨形态发生蛋白微球生物相容性良好，能够提高骨髓基质细胞的体外成骨能力。

Autologus bone marrow stem cell ( BMSC ) transplantation ; Lower limb ischemia ; Therapeutic angiogenesis .

自体骨髓干细胞移植；下肢缺血；治疗性血管生成。

Conclusion BMSC can be used as the seed cells for bone tissue engineering , the construction of the artificial bone in vitro is feasible .

在体外，生物可降解材料ε-己内酯与环氧乙烷共聚物与种子细胞复合培养后可以构建出具有活细胞成分的组织工程骨。

Objective To investigate the feasibility of gene transfection of bone marrow mesenchymal stem cell ( BMSC ) by cationic lipid .

目的探讨阳离子脂转染方法在骨髓基质干细胞（BMSC）基因转染中的应用。

Methods : The BMSC was cultured in vitro with different concentrations of bFGF ( 0,60,120,240 ng / ml ) .

方法：采用全麻下抽取兔股骨骨髓，经体外培养的方法并在培养液中加入4种不同浓度的bFGF（0,60120240ng/ml）培养后经倒置显微镜观察；

Conclusion BMSC can express BDNF and NGF , and BMSC can improve functional outcome in SCI rats .

结论BMSC表达神经营养因子BDNF和NGF，移植后能促进大鼠脊髓损伤的运动功能恢复。