Computed Tomography and Magnetic Resonance Imaging.

Q3 Medicine
Monique R Bernsen, Marcel van Straten, Gyula Kotek, Esther A H Warnert, Joost C Haeck, Alessandro Ruggiero, Piotr A Wielopolski, Gabriel P Krestin
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引用次数: 0

Abstract

Imaging in Oncology is rapidly moving from the detection and size measurement of a lesion to the quantitative assessment of metabolic processes and cellular and molecular interactions. Increasing insights into cancer as a complex disease with involvement of the tumor stroma in tumor pathobiological processes have made it clear that for successful control of cancer, treatment strategies should not only be directed at the cancer cells but should also take aspects of the tumor microenvironment into account. This requires an understanding of the complex molecular and cellular interactions in cancer tissue. Recent developments in imaging technology have increased the possibility to image various pathobiological processes in cancer development and response to treatment. For computed tomography (CT) and magnetic resonance imaging (MRI) various improvements in hardware, software, and imaging probes have lifted these modalities from classical anatomical imaging techniques to techniques suitable to image and quantify various physiological processes and molecular and cellular interactions. Next to a more general overview of possible imaging targets in oncology, this chapter provides an overview of the various developments in CT and MRI technology and some specific applications.

计算机断层扫描和磁共振成像。
肿瘤影像学正在迅速从病灶的检测和大小测量转向代谢过程和细胞与分子相互作用的定量评估。越来越多的人认识到癌症是一种复杂的疾病,肿瘤基质参与了肿瘤的病理生物学过程,这表明,为了成功地控制癌症,治疗策略不仅应该针对癌细胞,还应该考虑肿瘤微环境的各个方面。这需要了解癌症组织中复杂的分子和细胞相互作用。成像技术的最新发展增加了对癌症发展和治疗反应的各种病理生物学过程进行成像的可能性。对于计算机断层扫描(CT)和磁共振成像(MRI),硬件、软件和成像探针的各种改进已经将这些模式从经典的解剖成像技术提升到适合成像和量化各种生理过程以及分子和细胞相互作用的技术。接下来是对肿瘤学中可能的成像目标的更一般的概述,本章提供了CT和MRI技术的各种发展和一些具体应用的概述。
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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CiteScore
5.60
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