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4.1K Views
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07:46 min
April 30th, 2021
DOI :
10.3791/61895-v
Chapters
0:04
Introduction
1:02
2D Chip Cell Plating
2:10
Unlabeled Cancer and Immune Cell Time-Lapse Acquisition
2:43
3D Immuno-Competent Cancer On-Chip Model
5:15
Results I: Migratory and Interaction Patterns of the 2D Tumor-Immune Cells Co-Culture by Time-Lapse Data Analysis
6:19
Results II: Fluorescent Analysis of Infiltrated Immune Cells in a 3D Tumor Microenvironment
6:56
Conclusion
Transcript
该协议提供了实验设置,可在微型设备中进行可控制的2D和3D共培养,以可视化和监测肿瘤免疫细胞串扰并分析抗癌治疗的效果。该技术提供免疫细胞募集和相互作用的实时和轻松可视化,可用于人类和患者来源的样本。它与大多数最先进的显微镜兼容。
展示该程序的将是Istituto Superiore di Sanita肿瘤学和分子医学系的博士生Francesco Noto,以及Nicoleta Manduca和Esther Maccafeo,他们是Universita Cattolica del
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Summary
在免疫疗法和单细胞基因组分析时代,癌症生物学需要新颖的体外和计算工具,以便在适当的时空背景下研究肿瘤 - 免疫界面。我们描述了在2D和3D环境中利用肿瘤免疫微流体共培养的方案,与细胞功能的动态,多参数监测兼容。
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