脑桥-膝状体-枕叶波:快速眼动睡眠期间视觉系统的自发活动。
Pontogeniculooccipital waves: spontaneous visual system activity during rapid eye movement sleep.
作者信息
Callaway C W, Lydic R, Baghdoyan H A, Hobson J A
机构信息
Laboratory of Neurophysiology, Harvard Medical School, Boston, Massachusetts 02115.
出版信息
Cell Mol Neurobiol. 1987 Jun;7(2):105-49. doi: 10.1007/BF00711551.
Abstract
- Pontogeniculooccipital (PGO) waves are recorded during rapid eye movement (REM) sleep from the pontine reticular formation, lateral geniculate bodies, and occipital cortex of many species. 2. PGO waves are associated with increased visual system excitability but arise spontaneously and not via stimulation of the primary visual afferents. Both auditory and somatosensory stimuli influence PGO wave activity. 3. Studies using a variety of techniques suggest that the pontine brain stem is the site of PGO wave generation. Immediately prior to the appearance of PGO waves, neurons located in the region of the brachium conjunctivum exhibit bursts of increased firing, while neurons in the dorsal raphe nuclei show a cessation of firing. 4. The administration of pharmacological agents antagonizing noradrenergic or serotonergic neurotransmission increases the occurrence of PGO waves independent of REM sleep. Cholinomimetic administration increases the occurrence of both PGO waves and other components of REM sleep. 5. Regarding function, the PGO wave-generating network has been postulated to inform the visual system about eye movements, to promote brain development, and to facilitate the response to novel environmental stimuli.
摘要
- 桥脑-膝状体-枕叶(PGO)波是在快速眼动(REM)睡眠期间从许多物种的脑桥网状结构、外侧膝状体和枕叶皮质记录到的。2. PGO波与视觉系统兴奋性增加有关,但它是自发产生的,并非通过初级视觉传入神经的刺激产生。听觉和体感刺激都会影响PGO波的活动。3. 使用多种技术进行的研究表明,脑桥脑干是PGO波产生的部位。就在PGO波出现之前,位于结合臂区域的神经元会出现放电增加的爆发,而中缝背核中的神经元则会停止放电。4. 给予拮抗去甲肾上腺素能或血清素能神经传递的药物会增加PGO波的出现频率,且与REM睡眠无关。给予拟胆碱药物会增加PGO波以及REM睡眠其他成分的出现频率。5. 关于功能方面,有人推测产生PGO波的网络可将眼球运动的信息传递给视觉系统,促进大脑发育,并有助于对新环境刺激做出反应。
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