Arousal and the control of perception and movement.

Current trends in neurology Pub Date : 2016-01-01
E Garcia-Rill, T Virmani, J R Hyde, S D'Onofrio, S Mahaffey
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Abstract

Recent discoveries on the nature of the activity generated by the reticular activating system (RAS) suggest that arousal is much more involved in perception and movement than previously thought. The RAS is not simply an amorphous, unspecific region but rather a distinct group of nuclei with specific cell and transmitter types that control waking and modulate such processes as perception and movement. Thus, disturbances in the RAS will affect a number of neurological disorders. The discovery of gamma band activity in the RAS determined that high threshold calcium channels are responsible for generating gamma band activity in the RAS. Results showing that waking is mediated by CaMKII modulation of P/Q-type channels and REM sleep is modulated by cAMP/PK modulation of N-type channels points to different intracellular pathways influencing each state. Few studies address these important breakthroughs. Novel findings also show that the same primate RAS neurons exhibiting activity in relation to arousal are also involved in locomotion. Moreover, deep brain stimulation of this region, specifically the pedunculopontine nucleus (PPN DBS), in Parkinson's disease has salutary effects on movement, sleep, and cognition. Gamma oscillations appear to participate in sensory perception, problem solving, and memory, and coherence at these frequencies may occur at cortical or thalamocortical levels. However, rather than participating in the temporal binding of sensory events, gamma band activity generated in the RAS may help stabilize coherence related to arousal, providing a stable activation state during waking, and relay such activation to the cortex. Continuous sensory input will thus induce gamma band activity in the RAS to participate in the processes of preconscious awareness, and provide the essential stream of information for the formulation of many of our perceptions and actions. Such a role has received little attention but promises to help understand and treat a number of neurological disorders.

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唤醒与感知和运动的控制。
关于网状激活系统(RAS)活动性质的最新发现表明,唤醒与感知和运动的关系比以前想象的要密切得多。网状激活系统并不只是一个无定形、无特异性的区域,而是一组具有特定细胞和递质类型的独特细胞核,它们控制着觉醒并调节着感知和运动等过程。因此,RAS 的紊乱会影响多种神经系统疾病。发现 RAS 中的伽玛波段活动后,确定高阈值钙通道负责产生 RAS 中的伽玛波段活动。研究结果表明,觉醒是由 CaMKII 对 P/Q 型通道的调节介导的,而快速眼动睡眠则是由 cAMP/PK 对 N 型通道的调节介导的。很少有研究涉及这些重要突破。新的研究结果还表明,灵长类动物的 RAS 神经元与唤醒相关的活动也参与了运动。此外,对这一区域,特别是帕金森病患者的足底神经核(PPN DBS)进行深部脑刺激,对运动、睡眠和认知都有有益的影响。伽马振荡似乎参与了感官知觉、问题解决和记忆,这些频率的一致性可能发生在皮层或丘脑皮层水平。然而,γ波段活动不是参与感觉事件的时间结合,而是在RAS中产生,可能有助于稳定与唤醒有关的相干性,在清醒时提供稳定的激活状态,并将这种激活传递到大脑皮层。因此,持续的感觉输入会诱导 RAS 中的γ波段活动参与前意识的觉醒过程,并为我们许多感知和行动的形成提供重要的信息流。这种作用很少受到关注,但有望帮助理解和治疗一些神经系统疾病。
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