生物医学应用的高频时间分辨扫描声学显微镜

Q4 Medicine
P. Anastasiadis, P. Zinin
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引用次数: 9

摘要

高频聚焦超声已成为生物医学成像和弹性成像的一种强大模式。由于其在亚微米分辨率下优于许多其他成像模式的能力,它正受到越来越多的关注。除了成像,高频超声或声学生物显微镜已被广泛应用于评估组织和单细胞水平的弹性和机械性能。对声学显微镜的兴趣源于对细胞中生物力学和潜在生化过程之间关系的认识,以及这些相互作用对疾病发作和进展的巨大影响。此外,超声生物显微镜的特点是其非侵入性和非破坏性的方法。这反过来又允许在不使用可能损害样本完整性的组织化学的情况下对动态过程进行时空研究。声学显微镜领域已经发展出许多技术。本文综述了高频超声理论及其在成像和弹性成像中的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High-Frequency Time-Resolved Scanning Acoustic Microscopy for Biomedical Applications
High-frequency focused ultrasound has emerged as a powerful modality for both biomedical imaging and elastography. It is gaining more attention due to its capability to outperform many other imaging modalities at a submicron resolution. Besides imaging, high-frequency ultrasound or acoustic biomicroscopy has been used in a wide range of applications to assess the elastic and mechanical properties at the tissue and single cell level. The interest in acoustic microscopy stems from the awareness of the relationship between biomechanical and the underlying biochemical processes in cells and the vast impact these interactions have on the onset and progression of disease. Furthermore, ultrasound biomicroscopy is characterized by its non-invasive and non-destructive approach. This, in turn, allows for spatiotemporal studies of dynamic processes without the employment of histochemistry that can compromise the integrity of the samples. Numerous techniques have been developed in the field of acoustic microscopy. This review paper discusses high-frequency ultrasound theory and applications for both imaging and elastography.
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来源期刊
Open Neuroimaging Journal
Open Neuroimaging Journal Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
0.70
自引率
0.00%
发文量
3
期刊介绍: The Open Neuroimaging Journal is an Open Access online journal, which publishes research articles, reviews/mini-reviews, and letters in all important areas of brain function, structure and organization including neuroimaging, neuroradiology, analysis methods, functional MRI acquisition and physics, brain mapping, macroscopic level of brain organization, computational modeling and analysis, structure-function and brain-behavior relationships, anatomy and physiology, psychiatric diseases and disorders of the nervous system, use of imaging to the understanding of brain pathology and brain abnormalities, cognition and aging, social neuroscience, sensorimotor processing, communication and learning.
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