Bartus R T, Kinney J S
Aviat Space Environ Med. 1975 Mar;46(3):259-63.
Four cats were chronically implanted with gross, monopolar electrodes in the lateral geniculate nucleus (LGN), pretectum-superior colliculus (P-SC), primary visual cortex (VI), and secondary visual cortex (VII). Following recovery and preliminary testing, the animals were dived in a dry hyperbaric chamber to the sea water equivalent of 103 m (i.e. 340 ft.) where visual evoked responses were recorded. No decrements in the amplitude of the visual evoked response were found at the LGN, but significant decreases did occur at the other three sites. These data suggested: 1) that the effects of nitrogen narcosis on the visual system are primarily central, and not simply peripheral in nature; 2) that these effects are not limited to the visual cortical mantle; and 3) that the narcosis apparently influences structures involving different anatomical levels of the brain which presumably mediate various types of visual processes. The findings were discussed as they relate to current ideas concerning the underlying neurological causes and behavioral effects of nitrogen narcosis.
四只猫被长期植入粗大的单极电极,分别置于外侧膝状体(LGN)、顶盖前区 - 上丘(P - SC)、初级视皮层(VI)和次级视皮层(VII)。恢复及初步测试后,将这些动物置于一个干燥的高压舱内,深度相当于海水下103米(即340英尺),并记录视觉诱发电位。在LGN未发现视觉诱发电位幅度降低,但在其他三个部位确实出现了显著下降。这些数据表明:1)氮麻醉对视觉系统的影响主要是中枢性的,而非仅仅是外周性的;2)这些影响不仅限于视皮层;3)麻醉显然影响涉及大脑不同解剖水平的结构,这些结构可能介导各种类型的视觉过程。结合当前关于氮麻醉潜在神经学原因和行为影响的观点对这些发现进行了讨论。