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。
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 The tissue engineered bone constructed by autogeneic MSC is advantageous in individual treatment.
结论应用自体骨髓基质干细胞构建的组织工程肋骨在个体化治疗中显示了优越性。
Objective: To study the effects of various methods of cryopreservation on the bioactivity of tissue engineered bone.
目的:了解不同冻存方法对组织工程骨生物活性的影响。
Objective To study the difference of repairing segmental bone defect by tissue engineered bone cryopreserved by various methods.
目的探讨不同方法低温保存的组织工程骨修复节段性骨缺损的差异。
To study the ossification effect by histology research on tissue engineered bone by transplanting nerval bundles of different types.
通过观察不同神经束植入组织工程骨后组织学的变化,探讨组织工程骨神经化构建的效果。
Objective To assess the diagnostic value of perfusion weighted MR imaging technique in monitoring vascularization of tissue engineered bone.
目的探讨磁共振灌注成像在组织工程骨血管化监测中的应用价值。
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。
Objective: To investigate the effects of treating patients with atrophic rhinitis by the reconstruction of inferior turbinate with tissue engineered bone.
目的:探讨利用组织工程技术治疗萎缩性鼻炎的效果。
Conclusion the living rabbit bone compounds can accelerate the adhesion of homologous osteoblasts from MSCs onto scaffolds to improve the quality of the tissue engineered bone.
结论兔活骨组织在体外可以促进同种成骨细胞与支架的粘附,从而提高体外构建活性骨的质量。
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。
Objective To investigate the ability of osteogenesis, repaired effect and possible mechanism of massive tissue engineered bone via RP technique to repair a segmental defect of long bone.
目的探讨基于快速成型技术(RP)的组织工程化人工骨修复长骨干缺损的成骨性能、修复效果及可能的修复机制。
The research achievements of the tissue engineering study will provide engineered tissues for clinical medicines, and repair bone defect, reconstruct or improve the tissues and organs.
组织工程学的研究成果将会为临床医学提供工程化组织,以修复组织缺损,重建或改善组织、器官功能。
Conclusions Biphasic seeding is an effective method for fabricating tissue-engineered bone, can improve the seeding efficiency and facilitate in vitro maturation of the tissue-engineered bone.
结论双相接种法是一种高效的组织工程骨构建方法,有利于提高接种效率和促进组织工程骨的体外成熟。
Conclusion: Injectable tissue-engineered bone using calcium alginate as carriers can be used as augmentation rhinoplasty implanted material.
结论:以藻酸钙为载体的可注射性组织工程骨可用于隆鼻术植入材料。
The results of the DEXA demonstrated that the vascularized tissue-engineered bone produced more boney tissue.
骨密度测量结果显示血管束植入后组织工程骨新骨生长较未植入血管束者多。
Objective: To study the efficacy of silica gel membrane (SGM) with tissue-engineered bone in repair of rabbit radial defect.
目的:探讨硅胶膜复合组织工程骨修复兔桡骨缺损的效果。
Objective To observe the effect of tissue-engineered bone grafts in repairing bone defect in rabbits, and assess the value of radionuclide for monitoring the therapeutic effect of this approach.
目的探讨组织工程骨对兔骨缺损的修复能力及放射性核素技术对其的监测作用。
The studies on the tissue engineered-bone, cartilage, skin, and vessels will exert a tremendous impact on the repair of orthopaedic trauma.
组织工程化骨与软骨、皮肤、血管等研究也将对骨科创伤修复产生积极影响。
It is a new way to repair bone defect caused by bone tumor, wound and other diseases with tissue-engineered bone and anticipated to provide potent alternatives to free autogenous bone grafts.
利用组织工程化骨修复骨肿瘤、创伤等疾病引起的骨缺损是一种新的思路,有望代替传统自体及异体骨移植而获得广泛的应用。
Objective To explore the methods of tissue-engineered bone prefabrication, and study the feasibility of bone defect repair by prefabricated tissue-engineered bone.
目的探索组织工程化骨预制的方法,研究组织工程化预制骨修复骨缺损的可行性及实用性。
Objective Study the mechanism of the healing of bone defect after transplantation of the tissue-engineered cartilage into the bone defects and with guided bone regeneration tubes.
目的通过引导性骨再生和组织工程软骨移植研究长骨骨缺损的修复机制。
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 explore the effect of different culture conditions on tissue-engineered bone repairing cranial defect.
目的探讨不同条件下所构建组织工程化骨对兔颅骨骨缺损修复的影响。
Values of radionuclide bone imaging to dynamically monitor revascularization of tissue-engineered bone graft in repairing bone defect of rabbits;
目的观察兔骨髓诱导的内皮细胞用纤维蛋白胶接种到骨组织工程支架上,在体外人工骨血管化效果。
Values of radionuclide bone imaging to dynamically monitor revascularization of tissue-engineered bone graft in repairing bone defect of rabbits;
目的观察兔骨髓诱导的内皮细胞用纤维蛋白胶接种到骨组织工程支架上,在体外人工骨血管化效果。
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