动态光学相干弹性成像:综述。

IF 2.3 3区医学 Q2 OPTICS

Journal of Innovative Optical Health Sciences Pub Date : 2010-10-01 DOI:10.1142/S1793545810001180

Xing Liang, Vasilica Crecea, Stephen A Boppart

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引用次数: 67

摘要

随着光学相干层析成像技术的发展，光学相干弹性成像技术(OCE)以其微米级分辨率、实时处理和无创成像等特点在生物力学领域的应用越来越受到重视。本文介绍和讨论了一组动态OCE技术，即动态OCE，包括体外动态OCE乳腺肿瘤制图和成像，体外动态OCE人体皮肤测量，以及内部动态OCE，包括声动机OCE和磁动机OCE。这些技术克服了传统静态OCE的一些主要缺点，拓宽了OCE的应用领域。由于科学需要设计新的定量方法，利用光学可以实现的高微米级分辨率，从生物组织中获得生物力学特性的结果。结果提示潜在的诊断和治疗的临床应用。这些研究的结果也有助于我们理解生物系统中生物力学变化与功能性组织变化之间的关系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

DYNAMIC OPTICAL COHERENCE ELASTOGRAPHY: A REVIEW.

查看原文本刊更多论文

DYNAMIC OPTICAL COHERENCE ELASTOGRAPHY: A REVIEW.

With the development of optical coherence tomography, the application optical coherence elastography (OCE) has gained more and more attention in biomechanics for its unique features including micron-scale resolution, real-time processing, and non-invasive imaging. In this review, one group of OCE techniques, namely dynamic OCE, are introduced and discussed including external dynamic OCE mapping and imaging of ex vivo breast tumor, external dynamic OCE measurement of in vivo human skin, and internal dynamic OCE including acoustomotive OCE and magnetomotive OCE. These techniques overcame some of the major drawbacks of traditional static OCE, and broadened the OCE application fields. Driven by scientific needs to engineer new quantitative methods that utilize the high micron-scale resolution achievable with optics, results of biomechanical properties were obtained from biological tissues. The results suggest potential diagnostic and therapeutic clinical applications. Results from these studies also help our understanding of the relationship between biomechanical variations and functional tissue changes in biological systems.

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来源期刊

Journal of Innovative Optical Health Sciences OPTICS-RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

CiteScore

4.50

自引率

20.00%

发文量

审稿时长

>12 weeks

期刊介绍： JIOHS serves as an international forum for the publication of the latest developments in all areas of photonics in biology and medicine. JIOHS will consider for publication original papers in all disciplines of photonics in biology and medicine, including but not limited to: -Photonic therapeutics and diagnostics- Optical clinical technologies and systems- Tissue optics- Laser-tissue interaction and tissue engineering- Biomedical spectroscopy- Advanced microscopy and imaging- Nanobiophotonics and optical molecular imaging- Multimodal and hybrid biomedical imaging- Micro/nanofabrication- Medical microsystems- Optical coherence tomography- Photodynamic therapy. JIOHS provides a vehicle to help professionals, graduates, engineers, academics and researchers working in the field of intelligent photonics in biology and medicine to disseminate information on the state-of-the-art technique.