基于光学相干断层扫描和无运动扫频光源的宽视野高灵敏度血管造影术。
Wide field and highly sensitive angiography based on optical coherence tomography with akinetic swept source.
作者信息
Xu Jingjiang, Song Shaozhen, Wei Wei, Wang Ruikang K
机构信息
University of Washington, Department of Bioengineering, Seattle, Washington 98195, USA.
出版信息
Biomed Opt Express. 2016 Dec 22;8(1):420-435. doi: 10.1364/BOE.8.000420. eCollection 2017 Jan 1.
Abstract
Wide-field vascular visualization in bulk tissue that is of uneven surface is challenging due to the relatively short ranging distance and significant sensitivity fall-off for most current optical coherence tomography angiography (OCTA) systems. We report a long ranging and ultra-wide-field OCTA (UW-OCTA) system based on an akinetic swept laser. The narrow instantaneous linewidth of the swept source with its high phase stability, combined with high-speed detection in the system enable us to achieve long ranging (up to 46 mm) and almost negligible system sensitivity fall-off. To illustrate these advantages, we compare the basic system performances between conventional spectral domain OCTA and UW-OCTA systems and their functional imaging of microvascular networks in living tissues. In addition, we show that the UW-OCTA is capable of different depth-ranging of cerebral blood flow within entire brain in mice, and providing unprecedented blood perfusion map of human finger in . We believe that the UW-OCTA system has promises to augment the existing clinical practice and explore new biomedical applications for OCT imaging.
摘要
对于大多数当前的光学相干断层扫描血管造影(OCTA)系统而言,由于其测距距离相对较短且灵敏度显著下降,要在表面不平整的大块组织中实现宽视野血管可视化具有挑战性。我们报告了一种基于无动态扫描激光器的长距离、超广角OCTA(UW - OCTA)系统。扫频光源的窄瞬时线宽及其高相位稳定性,再结合系统中的高速检测,使我们能够实现长距离(高达46毫米)且系统灵敏度下降几乎可忽略不计。为了说明这些优势,我们比较了传统光谱域OCTA和UW - OCTA系统之间的基本系统性能,以及它们对活体组织中微血管网络的功能成像。此外,我们展示了UW - OCTA能够对小鼠整个大脑内不同深度范围的脑血流进行成像,并提供人手指前所未有的血液灌注图。我们相信,UW - OCTA系统有望增强现有的临床实践,并探索OCT成像的新生物医学应用。
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