1)monocular deprivation单眼剥夺
1.Expressions of substance P in lateral geniculate nucleus in monocular deprivation cats;P物质在单眼剥夺性弱视猫外侧膝状体中的表达
2.Methods:Twenty four kittens were randomly divided into 4 groups:normal(NK),monocular deprivation(MD),reverse suture(RS) and prolonged deprivation(PD).方法 :以棋盘格刺激产生的图形视觉诱发电位 (P VEP)为指标 ,记录正常、单眼剥夺、反缝和延期剥夺幼猫的P VEP波幅和潜伏期的变化 ,并进行比较。
3.Objective To investigate the changes of substance P ( SP ) in visual cortex area 17 in monocular deprivation cats , and discuss its role in the development of deprivation amblyopia.目的 检测 P物质 (SP)在单眼剥夺弱视猫视皮层中的表达 ,并探讨其在弱视发病中的意义。
英文短句/例句
1.A dynamic analysis of pattern visual evoked potentials in monocular deprivation cats单眼剥夺幼猫图形视觉诱发电位动态分析
2.The Expression of Synaptophysin and PSD-95 in the Visual Cortex of Normal and Monocularly Deprived Rats;突触素和PSD-95在正常发育和单眼剥夺大鼠视皮层表达的研究
3.Changes of Nitric Oxide Synthase Positive Neurons in the Visual Central System of Deprived Amblyopia Cats;单眼剥夺性弱视猫视觉中枢一氧化氮合酶阳性神经元分布的变化
4.Effect of NGF on the Numberal Density and Morphology of Positive Neurons of nNOS in Visual Central System in Monocularly Deprived Rats;NGF对单眼剥夺大鼠视觉中枢nNOS阳性神经元数量及形态的影响
5.Nerve growth factor on expression of neuronal nitric oxide synthase in optic center of monocular deprived rats神经生长因子对单眼剥夺大鼠视觉中枢nNOS表达的影响
6.Effect of NGF on the expression of nNOS in lateral geniculate nucleus of monocular deprived rats神经生长因子对单眼剥夺大鼠外侧膝状体nNOS表达的影响
7.Expression and Significance of GAP-43 in Lateral Geniculate Nucleus and Visual Cortex Area 17 of Monocularly Deprived Rats;单眼剥夺大鼠视17区及外侧膝状体中生长相关蛋白(GAP-43)的表达及其意义
8.Pattern adaptation of relay cells in the lateral geniculate nucleus of binocular and monocular vision deprived cats双眼和单眼视觉剥夺猫外膝体细胞的图形适应
9.Characteristics of pattern visual evoked potential in monocular visual deprivation amblyopia cat model at developmental phase发育期单眼形觉剥夺弱视模型猫P-VEP的特征
10.EXPRESSION OF JUN-LIKE PROTEIN IN MONOVISUAL DEPRIVED CHICK FOLLOWING ONE-TRIAL PASSIVE A VOIDANCE TASKA剥夺左眼和单眼学习与雏鸡脑内Jun样蛋白表达的相关性研究
11.The Impact of Age and Monocular Deprivation on the Expression of GluR2/3 Subunit of AMPA Receptor in Visual Cortex of Rats年龄及单眼形觉剥夺对大鼠视皮层AMPA受体GluR2/3亚单位表达的影响
12.Expression and Significance of GAP-43 mRNA in the Retina of Normal Rats and Monocularly Deprived Rats during Development;正常与单眼视觉剥夺大鼠发育过程中视网膜GAP-43 mRNA的表达及意义
13.Changes of nNOS Expression in the Visual Central System of Monocular Deprived Rats before and after Reverse Suture Treatment;单眼形觉剥夺大鼠反缝治疗前后视中枢nNOS的表达
14.Study on the Development of Visual System of MS and MD Rats within and the End of Crucial Perioeds;不同时限单眼斜视和剥夺弱视大鼠视觉系统发育相关研究
15.The Expression of Neuritin mRNA and Protein in the Visual Cortex of Normal and Monocular form Deprived Rats正常和单眼形觉剥夺大鼠视皮层Neuritin mRNA和蛋白表达的研究
16.Neuroprotective Effects of LBA on the Retina of Monocular Visual Deprived Amblyopia in RatsLBA对单眼视觉剥夺性弱视大鼠视网膜的保护作用
17.The expression of nNOS in visual cortex of monocular deprived rats before and after reverse suture treatment单眼形觉剥夺大鼠反缝治疗前后视皮层nNOS的表达
18.divestiture:an act of divesting.剥夺:剥夺的行为.
相关短句/例句
monocular visual deprivation单眼形觉剥夺
1.Characteristics of pattern visual evoked potential in monocular visual deprivation amblyopia cat model at developmental phase发育期单眼形觉剥夺弱视模型猫P-VEP的特征
3)Binocular deprived双眼剥夺
4)Rapid eye movement sleep deprivation快动眼睡眠剥夺
1.Effect of exercise training on ethology in rats after rapid eye movement sleep deprivation;运动训练对快动眼睡眠剥夺大鼠行为学的影响
5)REM sleep deprivation快眼动睡眠剥夺
1.Effects of REM sleep deprivation on depressive-behaviors and hippocampal serotonin in rats treated with chronic stress;快眼动睡眠剥夺对抑郁模型大鼠自主活动及海马5-羟色胺含量的影响
6)binocular form deprivation双眼形觉剥夺
1.Model of reactivating visual cortex plasticity after binocular form deprivation in adult rats双眼形觉剥夺后成年大鼠视皮层可塑性再激活模型建立
2.Objective To investigate the expression and distribution changes of excitability neurotransmitter receptors in visual cortex of adult rats manipulated by binocular form deprivation(BFD).目的探索大鼠视皮层中兴奋性神经递质受体表达和分布的发育特征以及双眼形觉剥夺(binocular form deprivation,BFD)对成年大鼠视皮层内兴奋性递质受体亚型表达和分布的影响。
延伸阅读
单眼一种结构简单的光感受器。见于许多无脊椎动物。由视觉细胞、六角形角膜和圆锥形晶体组成。只能感觉光的强弱,不能见物。
