预构皮瓣可以很好地修复复杂鼻缺损的衬里。
The prefabricated flap is good to be used to reconstruct nasal lining in complicated cases.
目的总结预构皮瓣的实验研究进展及临床应用成果。
Objective To sum up the experimental development and clinical application of prefabricated flap.
预构皮瓣再血管化现象是从植入血管束的远端开始,血管束的主干始终不发生再血管化现象。
The phenomenon of revascularization is originated from the distal of the transferred vessel, the trunk appear no revascularization all the time.
目的研究预构扩张皮瓣微循环灌注量的动态变化。
Objective: To study the microcirculation dynamic changes in expanded pre-fabricated flaps.
方法:自1998年5月至2006年9月,对18例面部大面积瘢痕、血管瘤、黑痣的病人采用颞浅血管束预构颈部扩张皮瓣转移修复。
Methods From 1998.5 to 2006.9, we use prefabricated cervical expanded skin flap to repair large area of facial scar, hemangioma, melanotic nevus in 18 patients.
目的:探讨颞浅血管预构扩张皮瓣在修复面、颈部较大皮肤软组织缺损中的应用及其修复效果。
Objective To explore the application of expanded prefabricated flaps with superficial temporal vessels in repairing facial and cervical skin soft tissue defect.
结论:采用颞浅动、静脉颈部预构扩张皮瓣修复面、颈部皮肤软组织缺损是一种可行的方法。
Conclusion Repairing facial and cervical skin soft tissue defect with the superficial temporal vessel expanded prefabricated flaps is a feasible method.
目的探讨采用预构神经的趾短伸肌皮瓣移植重建第一背侧骨间肌功能的效果。
Objective To study the therapeutic effect of the operation of restoring the function of the first dorsal interosseous muscle(FDIM).
目的:探讨预构知名血管真皮下薄型皮瓣的可行性以及修复皮肤缺损的临床效果。
Objective: To study the feasibility and the clinical result of the subcutaneous thin skin flap pedicled with prefabricated vessel bundle implantation in the treatment of skin defects.
目的探讨预构带软骨复合组织皮瓣成活机制。
AIM To investigate the surviving mechanism of prefabricated flaps with compound cartilage tissue.
目的:报道应用颞浅血管束预构颈部扩张皮瓣修复面部缺损的手术效果,推广该术式在临床上的使用。
Objective To report the effect of prefabricated cervical expanded skin flap for facial reconstruction, and recommend the application of this operation method.
目的:研究预构扩张皮瓣的成活及其机制、微循环灌注量动态变化、超微结构改变。
To investigate the survival of expanded prefabricated flaps and its mechanism, microcirculation and ultrastructural changes.
目的:研究预构扩张皮瓣的成活及其机制、微循环灌注量动态变化、超微结构改变。
To investigate the survival of expanded prefabricated flaps and its mechanism, microcirculation and ultrastructural changes.
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