目的探讨组织工程化血管构建的初步实验方法。
Objective to explore the primary experimental methods to construct tissue engineering blood vessel.
构建组织工程化血管就必然涉及血管支架的预制。
The prefabrication of vascular scaffold will be involved in engineering a blood vessel substitute.
目的为培养组织工程化血管的实验研究提供细胞来源。
Objective To provide cells resource for experimental study on vascular tissue engineering.
组织工程化血管的出现为治疗血管缺损提供了新的希望。
Tissue engineered blood vessels (TEBVs) may provide a promising therapy for vessels defects.
结论应用生物反应器可构建具有良好弹性的组织工程化血管。
Conclusion Blood vessel with good elasticity can be constructed in a bioreactor using tissue engineering approach.
本发明还公开了在体外利用上述方法得到的血管平滑肌细胞构建组织工程化血管移植物的方法。
The invention also discloses a method for constructing tissue-engineered vascular grafts in vitro with the vascular smooth muscle cell obtained by using the same.
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。
The studies on the tissue engineered-bone, cartilage, skin, and vessels will exert a tremendous impact on the repair of orthopaedic trauma.
为组织工程化骨的血管神经化研究提供了一种新的方法。
And it providing a new method for the investigation of vascularization and neurotization of bone tissue engineering.
从组织工程骨的预制、血管化及预制骨骨缺损修复作用三个方面对组织工程化骨预制技术研究的现状和发展趋势进行了回顾和展望。
We review and preview the status quo and tendency of tissue engineering bone prefabrication from bone prefabrication, vascularization and the reconstruction action of bone defect.
从组织工程骨的预制、血管化及预制骨骨缺损修复作用三个方面对组织工程化骨预制技术研究的现状和发展趋势进行了回顾和展望。
We review and preview the status quo and tendency of tissue engineering bone prefabrication from bone prefabrication, vascularization and the reconstruction action of bone defect.
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