Visualizing Angiogenesis by Multiphoton Microscopy<em> In Vivo</em> in Genetically Modified 3D-PLGA/nHAp Scaffold for Calvarial Critical Bone Defect Repair

Jian Li; Holger Jahr; Wei Zheng; Pei-Gen Ren

doi:10.3791/55381

Journal

/

생체공학

/

多显微镜下的血管生成术在基因修饰的 3 d-PLGA/nHAp 支架上进行颅骨临界骨缺损修复

JoVE 신문
생체공학

JoVE 비디오를 활용하시려면 도서관을 통한 기관 구독이 필요합니다. 전체 비디오를 보시려면 로그인하거나 무료 트라이얼을 시작하세요.

JoVE 신문 생체공학

Visualizing Angiogenesis by Multiphoton Microscopy In Vivo in Genetically Modified 3D-PLGA/nHAp Scaffold for Calvarial Critical Bone Defect Repair

Please note that all translations are automatically generated. Click here for the English version.

多显微镜下的血管生成术在基因修饰的 3 d-PLGA/nHAp 支架上进行颅骨临界骨缺损修复

DOI:

10.3791/55381-v

•

09:34 min

•

September 07, 2017

•

Jian Li, Holger Jahr³, Wei Zheng, Pei-Gen Ren

¹Center for Translational Medicine Research and Development,Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, ²Department of Orthopedic Surgery,Maastricht UMC+, ³Department of Orthopaedic Surgery,University Hospital RWTH, ⁴Research Laboratory for Biomedical Optics and Molecular Imaging,Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences

Chapters

00:05Title
00:58Scaffold Preparation
02:30Lentivirus Particle Release and Transduction Capacity
03:51Crtitical Bone Defect Model and Scaffold Transplantation
05:21In Vivo Imaging of Angiogenesis within the Bone Defect
07:00Results: 3D Scaffolds Promote Angiogenesis in Bone Defects
08:33Conclusion

Summary

자동 번역

在这里, 我们提出了一个协议, 以可视化血管形成在体内和在 real-time 的3D 支架的多显微镜。在小鼠颅骨临界骨缺损模型中研究了基因修饰支架的血管生成。治疗组发现更多的新血管。

多显微镜下的血管生成术在基因修饰的 3 d-PLGA/nHAp 支架上进行颅骨临界骨缺损修复

•

•

•

Chapters

Summary

자동 번역

Tags

Article

Embed

플레이리스트에 추가

Usage Statistics

Related Videos

三维光学分辨率的光声显微镜

负染色的EM可视化蛋白质和大分子复合物：从电网的制备图像采集

视频率扫描共聚焦显微镜和内窥镜

一个完整的皮肤缺损模型，以评估生物材料的血管化<em>体内</em

全球舒张功能通过静脉流的通过参数化舒张形式主义运动学建模为基础的定量分析

评估白细胞内皮的相互作用下水流条件的<em>离体</em>自动注入微流室法

独特的毛细管作用通过微通道骨般的模板可以增强细胞的招募大骨缺损修复

CRISPR/Cas9 复合原注射液生产基因工程金黄叙利亚仓鼠

用微计算机断层扫描法对无节段3D 组织学进行固定染色、全尺寸、毫米度试样的刚性嵌入

利用先进的纺额圆盘全内反射荧光显微镜观察细胞粘附形成

Read Article