肿瘤微环境
弹性成像
超声弹性成像
磁共振成像
渗透(HVAC)
生物医学工程
临床实习
癌症研究
医学
超声波
材料科学
放射科
肿瘤细胞
复合材料
家庭医学
作者
Hooman Salavati,Charlotte Debbaut,Pim Pullens,Wim Ceelen
标识
DOI:10.1016/j.bbcan.2022.188792
摘要
The physical microenvironment of cancer is characterized by elevated stiffness and tissue pressure, the main component of which is the interstitial fluid pressure (IFP). Elevated IFP is an established negative predictive and prognostic parameter, directly affecting malignant behavior and therapy response. As such, measurement of the IFP would allow to develop strategies aimed at engineering the physical microenvironment of cancer. Traditionally, IFP measurement required the use of invasive methods. Recent progress in dynamic and functional imaging methods such as dynamic contrast enhanced (DCE) magnetic resonance imaging and elastography, combined with numerical models and simulation, allows to comprehensively assess the biomechanical landscape of cancer, and may help to overcome physical barriers to drug delivery and immune cell infiltration. Here, we provide a comprehensive overview of the origin of elevated IFP, and its role in the malignant phenotype. Also, we review the methods used to measure IFP using invasive and imaging based methods, and highlight remaining obstacles and potential areas of progress in order to implement IFP measurement in clinical practice.
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