Applications of a new In vivo tumor spheroid based shell-less chorioallantoic membrane 3-D model in bioengineering research.

Nzola De Magalhães, Lih-Huei L Liaw, Michael Berns, Vittorio Cristini, Zhongping Chen, Dwayne Stupack, John Lowengrub
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引用次数: 12

Abstract

The chicken chorioallantoic membrane (CAM) is a classical in vivo biological model in studies of angiogenesis. Combined with the right tumor system and experimental configuration this classical model can offer new approaches to investigating tumor processes. The increase in development of biotechnological devices for cancer diagnosis and treatment, calls for more sophisticated tumor models that can easily adapt to the technology, and provide a more accurate, stable and consistent platform for rapid quantitative and qualitative analysis. As we discuss a variety of applications of this novel in vivo tumor spheroid based shell-less CAM model in biomedical engineering research, we will show that it is extremely versatile and easily adaptable to an array of biomedical applications. The model is particularly useful in quantitative studies of the progression of avascular tumors into vascularized tumors in the CAM. Its environment is more stable, flat and has a large working area and wider field of view excellent for imaging and longitudinal studies. Finally, rapid data acquisition, screening and validation of biomedical devices and therapeutics are possible with the short experimental window.

Abstract Image

Abstract Image

Abstract Image

基于活体肿瘤球体的无壳绒毛膜尿囊膜三维模型在生物工程研究中的应用。
鸡绒毛尿囊膜(CAM)是研究血管生成的经典体内生物模型。结合正确的肿瘤系统和实验配置,这一经典模型可以为研究肿瘤过程提供新的途径。随着癌症诊断和治疗生物技术设备的发展,需要更复杂的肿瘤模型,可以很容易地适应该技术,并为快速定量和定性分析提供更准确、稳定和一致的平台。当我们讨论这种新的基于肿瘤球体的无壳CAM模型在生物医学工程研究中的各种应用时,我们将表明它是非常通用的,并且很容易适应一系列生物医学应用。该模型在CAM中无血管肿瘤向血管化肿瘤进展的定量研究中特别有用。它的环境更稳定,平坦,工作区域大,视野更宽,非常适合成像和纵向研究。最后,快速数据采集,筛选和验证生物医学设备和治疗方法是可能的短实验窗口。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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