Lowell Soren Y, Poletto Christopher J, Knorr-Chung Bethany R, Reynolds Richard C, Simonyan Kristina, Ludlow Christy L
Laryngeal and Speech Section, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Building 10, 5D-38, 10 Center Drive, MSC 1416, Bethesda, MD 20892-1416, USA.
Neuroimage. 2008 Aug 1;42(1):285-95. doi: 10.1016/j.neuroimage.2008.04.234. Epub 2008 Apr 26.
Volitional swallowing in humans involves the coordination of both brainstem and cerebral swallowing control regions. Peripheral sensory inputs are necessary for safe and efficient swallowing, and their importance to the patterned components of swallowing has been demonstrated. However, the role of sensory inputs to the cerebral system during volitional swallowing is less clear. We used four conditions applied during functional magnetic resonance imaging to differentiate between sensory, motor planning, and motor execution components for cerebral control of swallowing. Oral air pulse stimulation was used to examine the effect of sensory input, covert swallowing was used to engage motor planning for swallowing, and overt swallowing was used to activate the volitional swallowing system. Breath-holding was also included to determine whether its effects could account for the activation seen during overt swallowing. Oral air pulse stimulation, covert swallowing and overt swallowing all produced activation in the primary motor cortex, cingulate cortex, putamen and insula. Additional regions of the swallowing cerebral system that were activated by the oral air pulse stimulation condition included the primary and secondary somatosensory cortex and thalamus. Although air pulse stimulation was on the right side only, bilateral cerebral activation occurred. On the other hand, covert swallowing minimally activated sensory regions, but did activate the supplementary motor area and other motor regions. Breath-holding did not account for the activation during overt swallowing. The effectiveness of oral-sensory stimulation for engaging both sensory and motor components of the cerebral swallowing system demonstrates the importance of sensory input in cerebral swallowing control.
人类的自主吞咽涉及脑干和大脑吞咽控制区域的协调。外周感觉输入对于安全有效的吞咽是必要的,并且它们对吞咽模式化组成部分的重要性已得到证实。然而,在自主吞咽过程中感觉输入对大脑系统的作用尚不清楚。我们在功能磁共振成像期间应用了四种条件,以区分大脑对吞咽控制的感觉、运动计划和运动执行组成部分。口腔空气脉冲刺激用于检查感觉输入的效果,隐蔽吞咽用于参与吞咽的运动计划,公开吞咽用于激活自主吞咽系统。还包括屏气,以确定其效果是否可以解释公开吞咽期间观察到的激活。口腔空气脉冲刺激、隐蔽吞咽和公开吞咽均在初级运动皮层、扣带回皮层、壳核和岛叶产生激活。口腔空气脉冲刺激条件激活的吞咽大脑系统的其他区域包括初级和次级体感皮层以及丘脑。尽管空气脉冲刺激仅在右侧进行,但大脑双侧均出现激活。另一方面,隐蔽吞咽对感觉区域的激活最小,但确实激活了辅助运动区和其他运动区域。屏气不能解释公开吞咽期间的激活。口腔感觉刺激对激活大脑吞咽系统的感觉和运动组成部分的有效性证明了感觉输入在大脑吞咽控制中的重要性。