豚鼠的视觉功能:行为和电生理学。
Visual function in guinea pigs: behavior and electrophysiology.
机构信息
College of Optometry, University of Houston, Houston, TX, USA.
出版信息
Clin Exp Optom. 2021 May;104(4):523-531. doi: 10.1080/08164622.2021.1878827. Epub 2021 Feb 27.
CLINICAL RELEVANCE
Guinea pig visual function is characterised based on behavioural and electrophysiological measures and retinal ganglion cell density is examined to further develop the guinea pig as a model of human ocular conditions.
BACKGROUND
Guinea pigs are an important model of human ocular conditions. Here, guinea pig spatial frequency discrimination, pattern and full-field photopic electroretinography (ERG), and retinal ganglion cell distribution were investigated.
METHODS
Adult guinea pigs (n = 6) were included. Optomotor responses to square-wave gratings from 0.3 to 2.4 cycles per degree (cpd) were assessed. Pattern ERG responses were recorded using square-wave gratings from 0.025 to 0.25 cpd at 100% contrast, alternating at a temporal frequency of 1.05 Hz. Full-field ERG responses were recorded using a 10.0 cd.s/m flash. Ganglion cell density was determined histologically from retinal whole mounts.
RESULTS
Maximum spatial frequency discrimination was 1.65 ± 0.49 cpd for stimuli rotating temporally to nasally and 0.75 ± 0.16 cpd for stimuli rotating nasally to temporally. For pattern ERG, a maximum amplitude of 3.50 ± 1.16 µV for the first negative to positive peak (N1P1) was elicited with a 0.025 cpd grating, and 2.5 ± 0.1 µV for the positive to second negative peak (P1N2) was elicited with a 0.05 cpd grating. For full-field ERG, a-wave amplitude was 19.2 ± 4.24 µV, b-wave amplitude was 33.6 ± 8.22 µV, and the PhNR was 24.0 ± 5.72 µV. Peak retinal ganglion cell density was 1621 ± 129 cells/mm, located 1-2 mm superior to the optic nerve head.
CONCLUSION
Guinea pigs show directional selectivity for stimuli moving in the temporal to the nasal visual field. Guinea pigs demonstrate a quantifiable PhNR in the full-field ERG and negative and positive waveforms in the pattern ERG. The visual streak is located in the superior retina.
临床相关性
基于行为和电生理测量,对豚鼠的视觉功能进行了特征描述,并检查了视网膜神经节细胞密度,以进一步将豚鼠发展为人类眼部疾病的模型。
背景
豚鼠是人类眼部疾病的重要模型。在此,研究了豚鼠的空间频率辨别力、图形和全视野明视视网膜电图(ERG)以及视网膜神经节细胞分布。
方法
纳入成年豚鼠(n=6)。评估了从 0.3 到 2.4 周/度(cpd)的方波光栅的光运动反应。使用从 0.025 到 0.25 cpd 的方波光栅以 100%对比度记录图形 ERG 反应,以 1.05 Hz 的时间频率交替。使用 10.0 cd.s/m 的闪光记录全视野 ERG 反应。从视网膜全铺片中确定神经节细胞密度。
结果
对于朝颞侧旋转的刺激,最大空间频率辨别力为 1.65±0.49 cpd,对于朝鼻侧旋转的刺激,最大空间频率辨别力为 0.75±0.16 cpd。对于图形 ERG,以 0.025 cpd 的光栅刺激可引出最大的负正峰(N1P1)振幅为 3.50±1.16 µV,以 0.05 cpd 的光栅刺激可引出最大的正负峰(P1N2)振幅为 2.5±0.1 µV。对于全视野 ERG,a 波振幅为 19.2±4.24 µV,b 波振幅为 33.6±8.22 µV,PhNR 为 24.0±5.72 µV。视网膜神经节细胞密度的峰值为 1621±129 个/毫米,位于视神经头上方 1-2 毫米处。
结论
豚鼠对朝颞侧至鼻侧移动的刺激表现出方向选择性。豚鼠在全视野 ERG 中显示可量化的 PhNR,在图形 ERG 中显示负波和正波。视觉纹位于视网膜的上部。
Zotero 插件