[1]徐 佳,李 茜,乔 嘉,等.外源性VEGF联合 “夹心法”矫治半侧颜面短小的实验研究[J].中国美容医学,2018,(09):117-121.
 XU Jia,LI Xi,QIAO Jia,et al.The Foundation Research of “Sandwich” Method Combined with Exogenous VEGFfor the Treatment of Hemifacial Microsomia[J].Medical Aesthetics and Beauty,2018,(09):117-121.
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外源性VEGF联合 “夹心法”矫治半侧颜面短小的实验研究
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《中国美容医学》[ISSN:1008-6445/CN:61-1347/R]

卷:
期数:
2018年09期
页码:
117-121
栏目:
出版日期:
2018-10-10

文章信息/Info

Title:
The Foundation Research of “Sandwich” Method Combined with Exogenous VEGF
for the Treatment of Hemifacial Microsomia
作者:
徐 佳李 茜乔 嘉刘剑锋牛 峰归 来
Author(s):
XU JiaLI XiQIAO JiaLIU Jian-fengNIU FengGUI Lai
关键词:
[关键词]下颌骨外板劈开术珊瑚人工骨半侧颜面短小血管内皮生长因子纤维蛋白胶
Keywords:
Key words: osteotomy of the outer mandibular cortex coralline hydroxyapatite hemifacial microsomia vascular endothelialgrowth factor fibrin sealant
文献标志码:
A
摘要:
[摘要]目的:探索血管内皮生长因子、纤维蛋白胶及珊瑚人工骨复合物结合下颌骨外板劈开即“夹心法”成骨过程中组织
形态学变化,为进一步的实验研究及以后的临床应用提供理论依据。方法:以小型猪为实验对象,A组左侧行下颌骨外板劈
开,颗粒状珊瑚羟基磷灰石、血管内皮生长因子及纤维蛋白胶(CHA+VEGF+FS)复合物植入术,右侧作为正常对照组。B组左
侧行下颌骨外板劈开,颗粒状珊瑚羟基磷灰石、血管内皮生长因子及纤维蛋白胶(CHA+VEGF+FS)复合物植入术;右侧行下
颌骨外板劈开,颗粒状珊瑚羟基磷灰石及纤维蛋白胶(CHA+FS)复合物植入术。通过组织形态学观察等手段研究VEGF对新骨
形成过程的影响,评估术后效果。结果:研究发现CHA+VEGF+FS复合物植入后可以促进珊瑚人工骨实现早期血管化,从而减
低骨再生过程中珊瑚人工骨的无效降解。结论:CHA+VEGF+FS夹心法可以为珊瑚人工骨提供更好的成骨条件,从而更好实现
骨再生,最终使得其可以作为矫治半侧颜面短小导致的下颌骨发育不良畸形的有效手段之一。

Abstract:
Abstract: Objective To discuss the morphological changes in the process of vascular endothelial growth factor and fibrin
glue and coral artificial bone complex combined with the osteotomy of outer mandibular cortex,in order to carry out a further
study and provide theoretical basis for clinical application in the future. Methods 10 miniature pigs were selected as the
experimental animals and then were divided into 2 groups randomly: group A and group B. In group A, the outer cortex of
mandibular body and angle was split in one side and the compound of CHA+VEGF+FS was implanted into the gap between
the outer and inner cortex of mandible, and the other side was control group. In group B, two kinds of compounds (the left
side: the compound of CHA+VEGF+FS, the right side: the compound of CHA+FS ) was implanted into the gaps with the same
methods separately.The osteogenesis of this method was assessed by the morphological, histological observation. Results We
found that CHA+VEGF+FS complex can promote the vascularization of coral artificial bone earlier, along with reducing the
ineffective degradation of coral artificial bone during the process of bone regeneration. Conclusion The results of this pilot
study indicate that the osteotomy of the outer mandibular cortex combined with the compound of CHA+VEGF+FS can provide
a sufficient osteogenesis for the artificial coral bone during the process of bone regeneration, and finally, it can be used as one of
the effective methods to correct the dysplasia of the mandible caused by hemifacial microsomia.

相似文献/References:

[1]徐 佳,李 茜,乔 嘉,等. “夹心法”矫治半侧颜面短小的临床研究[J].中国美容医学,2018,(05):128.
 XU Jia,LI Xi,QIAO Jia,et al. The “Sandwich” Method for Treatment of Mandibular Hypoplasia Caused by Hemifacial Microsomia[J].Medical Aesthetics and Beauty,2018,(09):128.

更新日期/Last Update: 2018-11-02