组织工程学的出现为组织器官缺损的修复重建提供了一个颇具前景的选择,有望防止传统移植带来的并发症。
Tissue engineering has emerged as a promising alternative for the reconstitution of lost or damaged organs and tissues, circumventing the complications associated with traditional transplants.
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。
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.
结论皮瓣修复颌面组织缺损及行器官再造术是可行的,效果可靠。
Results all flaps heal well except part of pectoralis major myocutaneous flap necrosisConclusion Organ reconstruction and defect repair using flap is practical.
讨论了STL文件的优化,利用三维重建技术构造组织工程的缺损器官,为组织器官的修复提供实体模型。
Discusse STL files optimizing, how to use three-dimensional reconstruction to produce the defect organs structure of tissue engineered, provide entity model for the repair of tissues and organs.
期将扩张的皮肤岛状皮瓣转移修复缺损或进行器官再造。
During the second period, the expanded island skin flap was used to cure the injuries on the face or do organ reconstruction.
方法手术治疗方法为彻底切除皮损,应用直接缝合和皮片移植及皮瓣转移等方法整形修复创面或重建体表缺损器官。
Methods skin malignant tumor were removed and repaired in simple suture and free skin grafting and transferring of skin flap.
方法手术治疗方法为彻底切除皮损,应用直接缝合和皮片移植及皮瓣转移等方法整形修复创面或重建体表缺损器官。
Methods skin malignant tumor were removed and repaired in simple suture and free skin grafting and transferring of skin flap.
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