Institute for Signal Processing, University of Luebeck, Luebeck, D-23562, Germany.
Phys Med Biol. 2013 Feb 7;58(3):555-68. doi: 10.1088/0031-9155/58/3/555. Epub 2013 Jan 14.
A well-established navigation method is one of the key conditions for successful brain surgery: it should be accurate, safe and online operable. Recent research shows that optical coherence tomography (OCT) is a potential solution for this application by providing a high resolution and small probe dimension. In this study a fiber-based spectral-domain OCT system utilizing a super-luminescent-diode with the center wavelength of 840 nm providing 14.5 μm axial resolution was used. A composite 125 μm diameter detecting probe with a gradient index (GRIN) fiber fused to a single mode fiber was employed. Signals were reconstructed into grayscale images by horizontally aligning A-scans from the same trajectory with different depths. The reconstructed images can display brain morphology along the entire trajectory. For scans of typical white matter, the signals showed a higher reflection of light intensity with lower penetration depth as well as a steeper attenuation rate compared to the scans typical for gray matter. Micro-structures such as axon bundles (70 μm) in the caudate nucleus are visible in the reconstructed images. This study explores the potential of OCT to be a navigation modality in brain surgery.
它应该准确、安全且可在线操作。最近的研究表明,光学相干断层扫描(OCT)通过提供高分辨率和小探头尺寸,是一种有潜力的应用解决方案。在这项研究中,使用了一种基于光纤的光谱域 OCT 系统,该系统利用中心波长为 840nm 的超辐射发光二极管,提供 14.5μm 的轴向分辨率。采用了一种直径为 125μm 的复合探测探头,其中包括与单模光纤熔接的梯度折射率(GRIN)光纤。通过将同一路径不同深度的 A 扫描水平对齐,重建信号成灰度图像。重建图像可以显示整个轨迹上的大脑形态。对于典型的白质扫描,与典型的灰质扫描相比,信号显示出更高的光强度反射,更低的穿透深度以及更陡峭的衰减率。在重建图像中可以看到尾状核中的轴突束(70μm)等微观结构。这项研究探索了 OCT 作为脑外科导航方式的潜力。
