视网膜的功能磁共振成像
Functional magnetic resonance imaging of the retina.
作者信息
Duong Timothy Q, Ngan Shing-Chung, Ugurbil Kamil, Kim Seong-Gi
机构信息
Center for Comparative NeuroImaging, Department of Psychiatry, University of Massachusetts Medical School, Worcester, Massachusetts 01655, USA.
出版信息
Invest Ophthalmol Vis Sci. 2002 Apr;43(4):1176-81.
PURPOSE
This study explored the feasibility of mapping the retina's responses to visual stimuli noninvasively, by using functional magnetic resonance imaging (fMRI).
METHODS
fMRI was performed on a 9.4-Tesla scanner to map activity-evoked signal changes of the retina-choroid complex associated with visual stimulation in anesthetized cats (n = 6). Three to 12 1-mm slices were acquired in a single shot using inversion-recovery, echo-planar imaging with a nominal in-plane resolution of 468 x 468 microm(2). Visual stimuli were presented to the full visual field and to the upper and lower visual fields. The stimuli were drifting or stationary gratings, which were compared with the dark condition. Activation maps were computed using cross-correlation analysis and overlaid on anatomic images. Multislice activation maps were reconstructed and flattened onto a two-dimensional surface.
RESULTS
fMRI activation maps showed robust increased activity in the retina-choroid complex after visual stimulation. The average stimulus-evoked fMRI signal increase associated with drifting-grating stimulus was 1.7% +/- 0.5% (P < 10(-4), n = 6) compared with dark. Multislice functional images of the retina flattened onto a two-dimensional surface showed relatively uniform activation. No statistically significant activation was observed in and around the optic nerve head. Hemifield stimulation studies demonstrated that stimuli presented to the upper half of the visual field activated the lower part of the retina, and stimuli presented to the lower half of the visual field activated the upper part of the retina, as expected. Signal changes evoked by the stationary gratings compared with the dark basal condition were positive but were approximately half that evoked by the drifting gratings (1.0% +/- 0.1% versus 2.1% +/- 0.3%, P < 10(-4)).
CONCLUSIONS
To the best of our knowledge, this is the first fMRI study of the retina, demonstrating its feasibility in imaging retinal function dynamically in a noninvasive manner and at relatively high spatial resolution.
目的
本研究通过功能磁共振成像(fMRI)探索无创绘制视网膜对视觉刺激反应的可行性。
方法
在一台9.4特斯拉的扫描仪上对6只麻醉猫进行fMRI,以绘制与视觉刺激相关的视网膜 - 脉络膜复合体的活动诱发信号变化。使用反转恢复单次激发回波平面成像,获取3至12个1毫米厚的切片,标称平面分辨率为468×468微米²。视觉刺激呈现给整个视野以及上、下视野。刺激物为漂移或静止的光栅,并与黑暗条件进行比较。使用互相关分析计算激活图,并叠加在解剖图像上。重建多层激活图并将其展平到二维表面上。
结果
fMRI激活图显示视觉刺激后视网膜 - 脉络膜复合体的活动显著增强。与黑暗相比,与漂移光栅刺激相关的平均刺激诱发fMRI信号增加为1.7%±0.5%(P < 10⁻⁴,n = 6)。展平到二维表面上的视网膜多层功能图像显示激活相对均匀。在视神经乳头及其周围未观察到统计学上显著的激活。半视野刺激研究表明,正如预期的那样,呈现给视野上半部分的刺激激活视网膜的下半部分,呈现给视野下半部分的刺激激活视网膜的上半部分。与黑暗基础条件相比,静止光栅诱发的信号变化为正值,但约为漂移光栅诱发变化的一半(1.0%±0.1%对2.1%±0.3%,P < 10⁻⁴)。
结论
据我们所知,这是第一项关于视网膜的fMRI研究,证明了以无创方式和相对高空间分辨率动态成像视网膜功能的可行性。
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