对各代肌腱细胞的活性与手术中进行比较。
Each generation of tendon cell activity compared with surgery.
采用鸡的趾深屈肌腱细胞构建组织工程肌腱。
The engineered tendon was constructed with the tendon bioreactor.
肌腱组织的主要组成是胞外基质中的胶原纤维和镶嵌在胶原纤维内的肌腱细胞。
Tendons are composed of highly aligned collagen fibrils and elongated fibroblasts known as tenocytes.
目的在体外培养的条件下了解人工材料与肌腱细胞的相容性以及肌腱细胞在人工材料上的生长情况。
Objective To study in-vitro compatibility between artificial materials and tendon cells as well as the growth of the tendon cells on the artificial materials.
方法将第54代转化人胚肌腱细胞与碳纤维和聚羟基乙酸混合编织带体外复合培养构建组织工程肌腱。
Methods The 54th generation of transformed human embryonic tendon cells and artificial composite materials of carbon fibers(CF) and polyglycolic(PGA) were co-cultured in vitro to construct TET.
目的研究深低温冷冻方法对肌腱细胞活性的影响,比较程序性降温和普通深低温冷冻法对腱细胞活性的影响。
To investigate the effect of cryopreservation on the viability of tenocytes, and compare the difference between normal cryopreservation and programmed cryopreservation.
目的探讨梯度降解肌腱支架材料(GDBM)与肌腱细胞的生物相容性及肌腱细胞在三维支架上培养的生物学行为。
Objective To explore the biocompatibility of gradient degradation biomaterials(GDBM) and biological behaviors of cultured tenocytes combined with this three-dimension scaffold in tissue engineering.
结论周期性机械应变直接作用于肌腱细胞可以刺激其生长,这对于应用机械应变促进组织工程化肌腱的构建具有重要应用价值。
Conclusion Cyclic mechanical stretches act directly to stimulate tendon cell growth and these results are compatible with a significant role for stretch in tissue engineered tendon construction.
你全身的每个细胞和身体组织,每根骨骼和肌腱,每个器官和肌肉都是受你的潜意识的控制。
Every cell and body organization, bone and tendon and organ and muscle is under the control of your subconsciousness.
你全身的每个细胞和身体组织,每根骨骼和肌腱,每个器官和肌肉都是受你的潜意识的控制。
Every cell, body tissue, bone and tendon of your whole body is under the control of your subconsciousness.
你全身的每个细胞和身体组织,每根骨骼和肌腱,每个器官和肌肉都是受你的潜意识的控制。
Every cell and body organization, every bone and muscle tendon, as well as every organ and muscle in your body is controlled by your subconscious mind.
通过荧光显微镜可直接观察组织工程化肌腱上的细胞。
We could also observe the cells on the tissue engineered tendons by fluorescence image directly.
本文阐述了肌腱病的病理分类、形态学、光镜及电镜下的特点,以及光镜下凋亡细胞的形态学特点。
In this paper, the authors review its pathological classification, its macroscopic, light microscopic and electron microscopic features, and the morphology of apoptotic cells under light microscopy.
结论深低温冻存的同种异体肌腱移植后异体细胞在关节外环境存活不超过8周。
Conclusion Viable donor cells in cryopreserved tendon allografts did not survive longer than 8 weeks following transplantation in an extra-articular environment.
目的研究不同理化方法处理后的异种肌腱移植,对受体的细胞免疫特点及其机理。
Objective study the characteristics and working mechanism of receivers cell immunity towards heterogeneous tendon grafting which have been treated with different physical or chemical means.
指出有利于细胞生长与粘附的生物材料的研制必将推动组织工程化肌腱的研究。
It is considered that biomaterials favorable for cell growth and attachment will develop the research in tissue engineered tendon.
目的探讨组织工程肌腱保存过程中细胞存活率研究的方法。
Objective To study the research method of cell survival rate at the procedure of cryopreservation of tissue engineered tendons.
未经处理的同种异体肌腱组:偶见腱细胞,未见到新生的细胶原原纤维,粗胶原原纤维排列紊乱、疏松。
Fresh allograft group: No tenocyte, and few new collagen fibril could be seen, thick collagen fibril arranged at random and loose.
结果不同浸提液培养的瘢痕、皮肤和肌腱成纤维细胞的生长曲线均无明显差异。
Results There was no difference among cell growth curves of fibroblasts cultured by different soakages.
基因转染技术可克服外源性细胞因子在肌腱修复处作用短暂的不足。
A variety of gene transfer techniques can be used to maintain local concentrations of growth factor at tendon repair site.
现就有关细胞生长因子在肌腱损伤修复中作用的研究简要综述。
This article reviews researches about effects of cell growth factors on tendon repair.
结果术后8周见组织工程化肌腱呈白色、有光泽,组织学可见胶原组织平行排列,但仍可见未降解的PGA及少量炎性细胞;
Results At postoperative 8 weeks the engineered tendon assumed white and shiny, with parallel arrangement of the collagen tissue. Undegraded PGA and a few inflammatory cells could still be seen.
近年研究发现,在肌腱损伤修复过程中一些细胞生长因子起着极其重要的作用。
Recent researches showed that some cell growth factors play very important role in tendon repair.
当然啦,增强的细胞活性导致包裹肌腱的瘢痕组织增加,限制了活动范围。
Rather, increased cellular activity resulted in peritendinous scar formation and diminished range of motion.
因此,和在这个模型中的应用一样,我们不推荐滑膜内屈肌腱修复应用碱性成纤维细胞生长因子。
Therefore, as applied in this model, basic fibroblast growth factor is not recommended for intrasynovial flexor tendon repair.
目的追溯近阶段国内外有关细胞因子在肌腱损伤修复中的作用及其相关机制的研究进展。
Objective to review the effect of cytokines on repair of tendon injury and the relevant mechanism.
透射电镜示肌腱纤维排列整齐,细胞形态正常。
Under the electron microscope, tendon fibers arranged regularly, and the cell morphology was normal.
纳米纤维材料可以模拟细胞外基质的机关和成果,作为肌腱组织工程的支架有明明的优越性。
Nanofiber scaffolds can mimic the structure and function of extracellular matrix, and have advantages for tendon tissue engineering.
尽管有大量的生物学反应,但是屈肌腱修复后应用碱性成纤维细胞生长因子既不能提高肌腱的机械性能也不能促进其功能特性。
Despite a substantial biologic response, the administration of basic fibroblast growth factor failed to produce improvements in either the mechanical or functional properties of the repair.
尽管有大量的生物学反应,但是屈肌腱修复后应用碱性成纤维细胞生长因子既不能提高肌腱的机械性能也不能促进其功能特性。
Despite a substantial biologic response, the administration of basic fibroblast growth factor failed to produce improvements in either the mechanical or functional properties of the repair.
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