Objective to evaluate the toxicity of chicken calamus keratin (CCK) conduit as a tissue-engineered scaffold material.
目的观察鸡羽根角蛋白管作为组织工程材料的毒性作用。
Conclusion: Engineered-adipose using PLGA as the scaffold can be used as the implanted material in adipose tissue engineering.
结论:以PLGA为支架材料形成的组织工程脂肪作为软组织填充材料提供了一个好的思路。
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。
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 reconstruct tissue engineered cartilage using temperature responsive chitosan hydrogel, which were prepared as scaffold materials.
目的验证自行制备的温敏性壳聚糖水凝胶作为软骨细胞支架材料构建组织工程化软骨的可行性。
Objective To construct tissue engineered cartilage using cartilage microparticle acellular tissue matrix(CMACTM)as scaffold.
目的探索以异体软骨微粒脱细胞基质为支架构建组织工程化软骨。
Objective To comment on the recent advances of production and application of the bio-derived scaffold in the tissue engineered peripheral nerve.
目的对近年有关组织工程周围神经生物衍生支架制备和应用方面的研究进展进行评述。
Conclusion Application of the bio-derived materials is a trend in the fabricating scaffold of the tissue engineered peripheral nerve.
结论生物衍生材料已经成为周围神经组织工程支架预构的趋势之一。
Objective To recellularize a novel tissue engineered blood vessel (TEBV) scaffold based on decellularized canine aorta which we had successfully constructed.
目的对已成功制备的以脱细胞犬动脉为基质的血管支架进行体外再细胞化研究。
Objective Preparing and testing CPC-PLGA polymer tissue engineered bone, providing a new-type scaffold material for bone tissue Engineering.
目的制备并检测CPC - PLGA复合物,为骨组织工程研究提供新的支架材料。
After cultured for 1 week, the tissue engineered heart valve and unseeded scaffold were tested by platelet adhesion experiments.
体外培养1周后,取组织工程瓣膜及未种细胞的空支架做血小板黏附试验。
Conclusion PGA fleece scaffold could be used as a proper biodegradable material for the formation of allogenic tissue engineered cartilage.
结论一定设计的PGA无纺网在组织工程化软骨形成过程中适合其生物降解性要求。
Conclusion: Human oral mucosa can be developed successfully with tissue-engineering methods, and PLGA can be used as scaffold for tissue-engineered oral mucosa.
结论:成功培养全层人口腔黏膜,PLGA可作为口腔黏膜组织工程支架材料。
Conclusion: Human oral mucosa can be developed successfully with tissue-engineering methods, and PLGA can be used as scaffold for tissue-engineered oral mucosa.
结论:成功培养全层人口腔黏膜,PLGA可作为口腔黏膜组织工程支架材料。
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