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双眼间 ND 滤光片抑制:离焦和亮度极性效应。

Interocular ND filter suppression: Eccentricity and luminance polarity effects.

机构信息

,.

出版信息

J Vis. 2020 Jul 1;20(7):35. doi: 10.1167/jov.20.7.35.

DOI:10.1167/jov.20.7.35
PMID:32735341
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7424104/
Abstract

The depth and extent of interocular suppression were measured in binocularly normal observers who unilaterally adapted to neutral density (ND) filters (0, 1.5, 2, and 3 ND). Suppression was measured by dichoptically matching sectors of a ring presented to the adapted eye to a fixed contrast contiguous ring presented to the non-adapted eye. Other rings of alternating polarity were viewed binocularly. Rings were defined by luminance (L), luminance with added dynamic binary luminance noise (LM), and contrast modulating the same noise (CM). Interocular suppression depth increased with increasing ND, nearing significance (p = 0.058) for 1.5 ND. For L and LM stimuli, suppression depth across eccentricity (±12° visual field) differed for luminance increment (white) versus luminance decrement (black) stimuli, potentially confounding eccentricity results. Suppression for increment-only (white) luminance stimuli was steeper centrally and extended across the visual field, but was deeper for L than for LM stimuli. Suppression for decrement-only (black) luminance stimuli revealed only central suppression. Suppression was deeper with CM than LM stimuli, suggesting that CM stimuli are extracted in areas receiving predominantly binocular input which may be more sensitive to binocular disruption. Increment (white) luminance stimuli demonstrate deeper interocular suppression in the periphery than decrement (black) stimuli, so they are more sensitive to changes in peripheral suppression. Asymmetry of suppression in the periphery for opposite polarity luminance stimuli may be due to interocular receptive field size mismatch as a result of dark adaptation separately affecting ON and OFF pathways. Clinically, measurement of suppression with CM stimuli may provide the best information about post-combination binocularity.

摘要

双眼正常的观察者在单侧适应中性密度(ND)滤光片(0、1.5、2 和 3 ND)的情况下,测量了双眼抑制的深度和范围。抑制通过在适应眼上呈现的环的二分视场与在非适应眼上呈现的固定对比度连续环进行双目匹配来测量。其他极性交替的环被双目观察。环由亮度(L)、亮度加动态二进制亮度噪声(LM)和对比度调制相同噪声(CM)定义。随着 ND 的增加,双眼抑制深度增加,1.5 ND 时接近显著水平(p = 0.058)。对于 L 和 LM 刺激,在±12°视野范围内,亮度增加(白色)与亮度减少(黑色)刺激的抑制深度不同,这可能会混淆离焦结果。仅增加(白色)亮度刺激的抑制在中央较陡,并延伸到整个视野,但对于 L 刺激比 LM 刺激更深。仅减少(黑色)亮度刺激的抑制仅揭示中央抑制。CM 刺激比 LM 刺激的抑制更深,表明 CM 刺激是在主要接受双眼输入的区域中提取的,这些区域可能对双眼干扰更敏感。在周边,增加(白色)亮度刺激的双眼抑制比减少(黑色)刺激更深,因此它们对周边抑制变化更敏感。由于暗适应分别影响 ON 和 OFF 途径,因此相反极性亮度刺激在周边的抑制不对称可能是由于双眼感受野大小不匹配所致。临床上,使用 CM 刺激测量抑制可能提供有关组合后双眼性的最佳信息。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fb01/7424104/547566b6ee25/jovi-20-7-35-f011.jpg
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