Novel functional imaging technique from brain surface with optical coherence tomography enabling visualization of depth resolved functional structure in vivo.

Maheswari RU; Kadono H; Tanifuji M

首页> 外文期刊>Journal of Neuroscience Methods >Novel functional imaging technique from brain surface with optical coherence tomography enabling visualization of depth resolved functional structure in vivo.

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Novel functional imaging technique from brain surface with optical coherence tomography enabling visualization of depth resolved functional structure in vivo.

机译：来自大脑表面的具有光学相干断层扫描技术的新型功能成像技术，可实现体内深度分辨功能结构的可视化。

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Mapping of the activity of brain by optical intrinsic signal imaging (OISI) provides a two-dimensional activation pattern of visual cortical areas at a resolution of a few hundred microns. However, integration of the intrinsic signal over depth results in loss of finer information about functional organization across the depth. Here, we report the first successful implementation of optical coherence tomography (OCT) at around 30 &mgr;m depth resolution to investigate cortical functions of a cat brain in vivo. This technique, named functional OCT (fOCT) provided visually evoked changes in the OCT signal. The fOCT signal shows stimulus specificity that correlates well with that of the intrinsic signals and provides depth resolved layer specific functional information.

机译：通过光学固有信号成像（OISI）绘制的大脑活动图以数百微米的分辨率提供了视觉皮层区域的二维激活模式。但是，固有信号在深度上的积分会导致在整个深度上丢失有关功能组织的更精细的信息。在这里，我们报告了光学相干断层扫描（OCT）在30μm深度分辨率下首次成功实施，以研究猫脑在体内的皮质功能。这种称为功能性OCT（fOCT）的技术在视觉上引起了OCT信号的变化。 fOCT信号显示出与内在信号的刺激特异性相关的刺激特异性，并提供了深度解析层特定的功能信息。

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《Journal of Neuroscience Methods》 |2003年第1期|共10页
作者
Maheswari RU; Kadono H; Tanifuji M;
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正文语种 eng
中图分类神经病学与精神病学;
关键词
Brain; optical coherence tomography; in vivo; Ornithine Carbamoyltransferase; 脑; 鸟氨酸氨甲酰转移酶;

机译：Brain;optical coherence tomography;in vivo;Ornithine Carbamoyltransferase;脑;鸟氨酸氨甲酰转移酶;

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1. Novel functional imaging technique from brain surface with optical coherence tomography enabling visualization of depth resolved functional structure in vivo. [J] . Maheswari RU, Kadono H, Tanifuji M Journal of Neuroscience Methods . 2003,第1期

机译：来自大脑表面的具有光学相干断层扫描技术的新型功能成像技术，可实现体内深度分辨功能结构的可视化。
2. Combined depth imaging using optical coherence tomography as a novel imaging technique to visualize vitreoretinal choroidal structures [J] . BarteselliG., BartschD.-U., FreemanW.R. Retina . 2013,第1期

机译：使用光学相干断层扫描技术结合深度成像作为一种新颖的成像技术，以可视化玻璃体脉络膜结构
3. Optical coherence tomography (OCT) reveals depth-resolved dynamics during functional brain activation. [J] . Chen Y, Aguirre AD, Ruvinskaya L, Journal of Neuroscience Methods . 2009,第1期

机译：光学相干断层扫描（OCT）揭示了功能性大脑激活过程中深度分辨的动力学。
4. Depth resolved imaging of neural activity by optical coherence tomography (functional OCT) [C] . Manabu Tanifuji, Wataru Suzuki, R. Uma Maheswari, Asia Communications and Photonics conference and Exhibition, 2009. ACP 2009 . 2009

机译：光学相干断层扫描（功能性OCT）对神经活动的深度分辨成像
5. Real time endoscopic and functional imaging of biological ultrastructure using optical coherence tomography. [D] . Rollins, Andrew Martin. 2000

机译：使用光学相干层析成像技术对生物超微结构进行实时内窥镜和功能成像。
6. Combined Depth Imaging using optical coherence tomography as a novel imaging technique to visualize vitreo-retino-choroidal structures [O] . Giulio Barteselli, Dirk-Uwe Bartsch, William R Freeman -1

机译：使用光学相干断层扫描的组合深度成像作为一种新型成像技术可视化Vitreo-Retino-Choroidal结构
7. Phase-resolved functional optical coherence tomography: simultaneous imaging of in situ tissue structure, blood flow velocity, standard deviation, birefringence, and Stokes vectors in human skin [O] . Hongwu Ren, Zhihua Ding, Yonghua Zhao, 2002

机译：相位分辨的功能光学相干断层扫描：人体皮肤中的原位组织结构，血流速度，标准偏差，双折射和斯托克斯载体的同时成像

Novel functional imaging technique from brain surface with optical coherence tomography enabling visualization of depth resolved functional structure in vivo.

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