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Cancer Research
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使用有机体片 3D 模型、机器学习和共声断层扫描量化脑转移肿瘤微环境
JoVE Journal
Cancer Research
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JoVE Journal
Cancer Research
Quantifying the Brain Metastatic Tumor Micro-Environment using an Organ-On-A Chip 3D Model, Machine Learning, and Confocal Tomography
Please note that all translations are automatically generated.
Click here for the English version.
使用有机体片 3D 模型、机器学习和共声断层扫描量化脑转移肿瘤微环境
DOI:
10.3791/61654-v
•
09:53 min
•
August 16, 2020
•
C. Ryan Oliver*
1,2
,
Trisha M. Westerhof*
1,2
,
Maria G. Castro
3,4
,
Sofia D. Merajver
2
1
Department of Internal Medicine
,
University of Michigan Ann Arbor
,
2
Rogel Cancer Center
,
University of Michigan Ann Arbor
,
3
Department of Neurosurgery
,
University of Michigan Ann Arbor
,
4
Department of Cell and Developmental Biology
,
University of Michigan Ann Arbor
Chapters
00:04
Introduciton
00:49
Form and Assemble the Microfluidic BBN Device
03:24
Cancer Cell Seeding
04:02
3D Model Imaging Data Conversion
05:06
Plane Fitting
06:04
Individual Cancer Cell Analysis
07:05
Results: Representative Brain Metastatic Tumor Micro-Environment Analyses
08:56
Conclusion
Summary
Automatic Translation
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Automatic Translation
在这里,我们提出了一个协议,用于准备和培养血脑屏障转移肿瘤微环境,然后使用共体成像和人工智能(机器学习)量化其状态。
Tags
Confocal Tomography
Machine Learning
Organ-on-a-chip
Brain Metastasis
Tumor Microenvironment
Cell Behavior
Diagnostic Tool
Microfluidic Device
Collagen
Astrocyte
Endothelial Cells
Cell Culture
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