种子细胞

沙漠植物种子细胞壁结构CPMAS~（13）cNMR研究

Study of whole seed cell wall structure in desert plants via CP MAS ~ ( 13 ) c NMR spectroscopy

骨髓间充质干细胞（MSCs）来源丰富、安全，是软骨组织工程的理想种子细胞；

The plentiful and safe bone MSCs is an expected seed cell of cartilage 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。

Conclusion MSCs are ideal seeded cells in bone tissue engineering .

胚胎干细胞（Embryonicstemcell，ESC）的全能性使之成为再生医学的最佳的种子细胞。

The pluripotency of embryonic stem cells make them one of the best cell types for regenerative medicine .

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。

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

人MSCs可能成为组织工程软骨的种子细胞。

Human MSCs can therefore be used as the seed cells to construct tissue-engineered cartilage .

EPCs联合MSCs作为组织工程心脏瓣膜种子细胞实验研究

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

目的：探讨不同种子细胞及种植方法对构建组织工程心脏瓣膜（tissueengineeringheartvalve，TEHV）的影响。

Objective : To evaluate the feasibility of fabrication of tissue engineering heart valve ( TEHV ) with different seeding cells and multiple implantation methods .

方法：分离培养新生SD大鼠毛囊外根鞘细胞和真皮鞘细胞，以这两种细胞为种子细胞构建全层组织工程全层皮肤。

Methods Separated the dermal sheath cells and outer root sheath cells form the hair follicle of newborn rats to culture composite tissue engineering skin .

目的：骨髓间充质干细胞（bonemarrowMesenchymalstemcells，BMSCs）已经成为组织工程中重要的的种子细胞，在多种疾病的临床治疗中具有广阔的应用前景。

Objective Bone marrow mesenchymal stem cells ( BMSCs ) have become important seed cells of organizational project , and have widest application prospect in clinical treatment of many diseases .

PRF凝胶可作为骨组织工程种子细胞体外培养生长因子源。

It can be the sourse of growth factor for bone tissue engineering .

人端粒酶反转录酶cDNA编码区的克隆及重组表达载体的构建用于延长组织工程种子细胞寿命的研究

CDNA coding region cloning of human human telomerase reverse transcriptase and construction of recombinant expression vector for prolonging the life span of seed cells of tissue engineering

动物胚胎干细胞（ES）为研究早期胚胎发育、基因打靶、动物克隆和再生医学提供了种子细胞。

Animal embryonic stem cells ( ES ) provide a powerful tool for studies of early embryonic development , gene targeting , cloning and regenerative medicine .

胚胎干细胞（ES）具有多向的分化潜能，可以作为组织工程种子细胞有效的来源。

Pluripotent embryonic stem cells ( ES ) have the potential to differentiate to all kinds of cells and might represent a useful source for tissue engineering .

而骨髓间充质干细胞（mesenchymalstemcell，MSCs）具有高增殖率、多分化潜能以及低免疫原性等特性，是最理想的组织工程用种子细胞。

Mesenchymal stem cells ( MSCs ) derived from bone marrow are an ideal seeding cells for cell therapy and tissue engineering due to its strong regeneration potential , multi-differentiation potential and immunosuppressive properties .

结论以鼠MSCs为种子细胞，可在人耳脱细胞软骨支架上良好生长，构建组织工程软骨。

Conclusion The MSCs can be used as seed cells of tissue engineering and can well proliferate in the acellular cartilage matrix and become tissue engineering cartilage .

目的：建立能够获得高活性、高纯度和足够数量雪旺细胞（SchwannCells，SCs）的培养方法，为周围神经缺损的修复提供优质、足量的种子细胞。

Objective : To establish the methods to get high activated , purified and adequate Schwann cells ( schwann cells , SCs ), and provide sufficient seed cells for peripheral nerve repairment .

治疗性肝癌单克隆抗体HAb18生产用种子细胞的质量控制

Quality Control of Seed Cells for Production of Therapeutic Hepatocellular Carcinoma McAb HAb18

8周后，植入的种子细胞标记Brdu会发现血管壁三层。

Eight weeks after implantation , the labeled seed cells by Brdu were found in the three layers of the vessel wall .

目的：观察豚鼠海马神经干细胞（NSCs）修复兔面神经缺损的效果，探讨其作为组织工程的种子细胞修复周围神经缺损的可行性。

Aim : To evaluate the feasibility of using guinea pig neuronal stem cells ( NSCs ) as seed cells in peripheral nerve tissue engineering .

结论：1.成功分离培养大鼠BMSCs，证明了BMSCs可作为基因强化骨组织工程中理想的种子细胞。

Successfully isolated and cultured BMSCs , and furter proofs BMSCs can be proved as an ideal seed cells to gene bone enhanced tissue engineering . 2 .

结论：体外成骨定向诱导的BMSCs具有典型的成骨细胞的形态和功能性特征，可以作为骨组织工程的种子细胞。

Conclusion : BMSCs after osteogenic stimulation show the phenotype characteristics of osteoblast , and can be used for the seed cells of tissue engineering of bone .

以BMSCs为种子细胞构建的组织工程软骨已经在治疗骨关节炎（ostarthritis，OA）患者受损的关节软骨方面取得了满意的效果。

BMSCs-based tissue engineering has obtained satisfactory results in repairing the articular cartilage defects in osteoarthritis ( OA ) models and patients .

结论密度梯度离心法是分离兔MSCs的理想方法，MSCs能为未来组织工程提供足量种子细胞。

Conclusion The density gradient separation method is an ideal way for isolating of MSCs , and it can provide enough seed-cells for the bone tissue engineering in future .

结论初步建立了hMSCs库，可为骨及软骨组织工程提供较好的种子细胞。

Conclusion The bank of hMSCs is incipiently established and can provide eligible seed cells for tissue engineering .

目的：研究SD大鼠颌下腺细胞体外培养的生物学特征，为组织工程化涎腺样组织的体外构建提供有功能的种子细胞。

Objective : To study biological characteristics of primary submandibular gland cells from SD rats , we developed culture system that could obtain plenty of seeding cells for salivary gland organoid tissue engineering .

皮下组管腔结构不完整，内皮及平滑肌种子细胞增殖弱，SIS支架材料分解慢，腔面无内皮细胞覆盖；

In subcutaneous group , the wall structure integrity , seed cell proliferation and SIS scaffold decomposition were poor , lumen surface was covered without endothelial cells ;

目的：探讨用骨髓基质细胞（MSC）作为种子细胞，三维多孔纳米羟基磷灰石为支架材料构建组织工程化骨组织的可行性。

Objective : To investigate the feasibility of using marrow stromal cells ( MSC ) as seed cells and three-dimensional porous nano-hydroxylapatite as scaffolds for constructing tissue-engineered bone .

本研究第二部分首先进行了种子细胞-兔声带成纤维细胞（vocalfoldfibroblasts，VFFs）的体外培养。

The second part of this research was the culture of seed cells-fibroblasts in rabbit vocal fold ( vocal fold fibroblasts , VFFs ) in vitro .

制备种子细胞（MSCs）：取5~6周龄雄性灰色129小鼠10只，以Percoll密度梯度离心法和贴壁法相结合的方法分离、培养、纯化MSCs。

Cell preparation . The MSCs from 10 gray male 129-mice were isolated , cultured and purified by Percoll density gradient centrifugation combined with the adherent method .