Carry out a primary study of artery tissue construction and provide a fundamental basis for tissue engineered artery and its clinical application.
进行组织工程动脉组织构建的初步实验,为最终获得组织工程动脉移植体并应用到临床奠定实验基础。
It specifically includes the isolation culture of muscle stem cells and the construction of tissue engineered corpus spongiosum.
它具体包括肌干细胞的分离培养和组织工程海绵体的构建。
Objective Construction tissue engineered epidermal membrane for clinical treatment of hypertrophic scar.
目的构建组织工程化表皮细胞膜片并应用于增殖性疤痕治疗。
Objective: To evaluate the effect of the tissue harmonic imaging (THI) on image quality and construction measurement.
目的:探讨组织谐波成像技术(THI)对图像质量及结构测量值的影响。
Objective To investigate the construction of tissue engineering collagen nerve conduits and repair peripheral nerve defects.
目的探讨组织工程化胶原神经导管的构建及对外周神经缺损的修复。
Conclusion: RCCS may be an ideal method for rapid construction of tissue engineered bone in vitro.
结论:旋转式细胞培养系统是体外快速构建组织工程化骨的理想方法。
This article introduces a three dimensional scaffold which is used to perform three dimensional cell culture under mechanical stretch from the point of construction of tissue engineered tissue.
我们从组织工程化组织构建的角度,提出了一种可用于应变场细胞三维培养的组织工程支架。
Objective: To explore the possibility of rapid construction of tissue engineered bone in vitro by RCCS.
目的:探讨利用旋转式细胞培养系统(RCCS)在体外快速构建组织工程骨的可行性。
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.
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。
Objective to study the feasibility of construction of the tissue engineered bone with coral-hydroxyapatite (CHA) scaffold and osteoblast in the self developed rotary bioreactor.
目的探讨联合运用成骨细胞、珊瑚-羟基磷灰石(CHA)支架材料和自行研制的旋转式生物反应器在体外构建组织工程化骨的可行性。
AIM: To study the in vitro construction process of cellular tissue engineering cornea stroma.
目的:研究体外构建组织工程角膜基质的方法。
After the broken bones are fixed, its activity is determined by the load, the construction stiffness of fixation system and bridging tissue.
对骨折进行骨板固定后,骨折端的活动度取决于外部负荷的大小、固定系统的刚度以及骨折间桥接组织的刚度。
To investigate the effect of compressive strain on tissue engineered cartilage construction in vitro.
在压应变作用下构建组织工程化软骨。
The successful construction and clinical application of tissue-engineered skin TE skin mark the major breakthrough in treatment of skin defect.
组织工程皮肤的成功构建并应用于临床,标志着皮肤缺损治疗的重大突破。
Objective to develop a new bioreactor for tissue-engineering vascular construction in vitro.
目的:研制适合于组织工程血管体外构建的生物反应器。
Objiective to probe into the methods of tissue-engineering bone construction in vitro by building osteoblasts-decalcification bone scaffolds complex and observing its ability of inducing osteogenesis.
目的:建立成骨细胞-脱钙骨支架复合物,观察其诱导成骨能力,从而探寻组织工程化骨的体外构建方法。
Results: in experiment of rabbit cranial defect, immediate construction of tissue-engineered bone led to poor bone formation, but application of GTR membrane increased the bone formation.
结果:兔骨缺损修复实验显示,细胞-支架复合体即刻种植新骨形成较差,联合应用引导组织再生膜可提高新骨形成面积百分比。
Objective to use the new technique of seeding cells labeled with fluorescent protein for monitoring the construction process of tissue-engineering bone in vitro.
目的应用荧光蛋白标记技术对组织工程骨体外构建过程进行细胞示踪。
Construction of SD rats tissue-engineering skin of full thickness: keratinocytes and fibroblasts were isolated from the back skin of new-born SD rats.
SD大鼠全层组织工程皮肤的制备:分离SD仔鼠角阮细胞和成纤维细胞。
Objective To study the construction of tissue-engineering growth plate with co-cultured epiphyseal plate cells and allograft articular cartilage extracellular matrix (CACEM).
目的探索兔骺板细胞和异种脱细胞软骨基质共同培养构建组织工程骺板的可行性。
Objective To study the construction of tissue-engineering growth plate with co-cultured epiphyseal plate cells and allograft articular cartilage extracellular matrix (CACEM).
目的探索兔骺板细胞和异种脱细胞软骨基质共同培养构建组织工程骺板的可行性。
应用推荐