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使用大规模并行检测和频域测距减少光学相干断层扫描中的散斑

Speckle Reduction in OCT using Massively-Parallel Detection and Frequency-Domain Ranging.

作者信息

Desjardins A E, Vakoc B J, Tearney G J, Bouma B E

出版信息

Opt Express. 2006 May 29;14(11):4736-45. doi: 10.1364/oe.14.004736.

DOI:10.1364/oe.14.004736
PMID:19516630
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2704480/
Abstract

Speckle noise significantly limits the information content provided by coherent optical imaging methods such as optical coherence tomography and its recent derivative, optical frequency-domain imaging (OFDI). In this paper, we demonstrate a novel OFDI system that simultaneously acquires hundreds of angularly resolved images, which can be compounded to reduce speckle noise. The system comprises an InGaAs line-scan camera and an interferometer, configured so that the elements of the detector array simultaneously capture light spanning a backscattering angular range of 32 degrees. On successive read-outs of the array, the wavelength of the laser source was stepped through a range of 130 nm centered at 1295 nm to concurrently generate 400 angle-resolved OFDI images. A theory of angle-resolved OFDI and the design equations of the system are presented. Incoherent averaging of the angle-resolved data is shown to yield substantial speckle reduction (as high as an 8 dB SNR improvement) in images of a tissue phantom and esophageal tissue ex vivo.

摘要

散斑噪声显著限制了诸如光学相干断层扫描及其最新衍生技术光学频域成像(OFDI)等相干光学成像方法所提供的信息含量。在本文中,我们展示了一种新型的OFDI系统,该系统能同时获取数百张角度分辨图像,这些图像可进行合成以减少散斑噪声。该系统由一个铟镓砷线扫描相机和一个干涉仪组成,其配置使得探测器阵列的元件能同时捕获跨越32度后向散射角范围的光。在阵列的连续读出过程中,激光源的波长在以1295纳米为中心的130纳米范围内步进,以同时生成400张角度分辨的OFDI图像。本文还提出了角度分辨OFDI的理论以及系统的设计方程。结果表明,对角度分辨数据进行非相干平均可在组织模型和离体食管组织的图像中实现显著的散斑减少(信噪比提高高达8分贝)。