Neural basis of alertness and cognitive performance impairments during sleepiness

Maria L. Thomas , Helen C. Sing , Gregory Belenky , Henry H. Holcomb , Helen S. Mayberg , Robert F. Dannals , Henry N. Wagner Jr. , David R. Thorne , Kathryn A. Popp , Laura M. Rowland , Amy B. Welsh , Sharon M. Balwinski , Daniel P. Redmond
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引用次数: 61

Abstract

Sleep deprivation impairs alertness and cognitive performance, and these deficits suggest decreases in brain activity and function, particularly in the prefrontal cortex, a region subserving alertness, attention, and higher-order cognitive processes and in the thalamus, a subcortical structure involved in alertness and attention. To substantiate this premise, we characterized the effects of 24, 48, and 72 h of progressive sleep deprivation on brain activity by assessing regional cerebral metabolic rate for glucose (CMRglu) during complex cognitive task performance in 17 young, normal, healthy male volunteers using positron emission tomography (PET) and 18Fluoro-2-deoxyglucose (18FDG). The results of prolonged sleep deprivation, 48 and 72 h, are reported here. Compared to rested baseline (RB), global CMRglu decreased by 6% at 48 and 72 h sleep deprivation (SD) and approximated the 8% decrease seen at 24 h SD. Absolute and relative regional CMRglu decreased at 48 and 72 h SD primarily in the prefrontal and parietal cortices and in the thalamus, the same areas that showed decreases at 24 h SD. Compared to 24 h SD, relative regional CMRglu decreased further in the prefrontal cortex and dorsal thalamus at 48 and 72 h, and at 72 h SD in a limited area of medial visual cortex. Relative regional CMRglu increased in lateral superior occipital cortices, lingual and fusiform gyri, anterior cerebellum, and in primary and supplementary motor cortices at 48 and 72 h SD, indicating a rebound CMRglu activity response from 24 h SD. Polysomnographic monitoring confirmed that subjects were awake. Behavioral outcomes showed continuing decreases in alertness, cognitive performance, and saccadic velocity (a measure of oculomotor response) with prolonged sleep deprivation. Progressive decreases in relative CMRglu values in prefrontal, thalamic, and primary visual areas were correlated positively with the impairments in cognitive performance and saccadic velocity across the 72 h sleep deprivation period. Relative thalamic activity was also correlated with the alterations in alertness. The prefrontal and thalamic regions were positively correlated, suggesting that sleep deprivation impacted these areas together as a functional network.

We propose that the decreases in CMRglu induced in the prefrontal-thalamic network by prolonged sleep deprivation underlie the decline in alertness and cognitive performance and signify the brain’s involuntary progression toward sleep onset, while the increases in visual and motor areas express the brain’s exertion of voluntary control to remain awake and perform. This exertion of voluntary control is manifest in increased subject effort and physical movement, and the recruitment of additional brain regions may reflect an attempt to sustain alertness and cognitive performance despite a continuing decline in prefrontal-thalamic activity. Our findings provide support for the notion of a specific sensitivity of the prefrontal cortex to, and a pivotal role of the thalamus in, sleepiness.

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睡意时警觉性和认知功能障碍的神经基础
睡眠不足会损害警觉性和认知能力,这些缺陷表明大脑活动和功能的减少,特别是在前额皮质,一个负责警觉性,注意力和高阶认知过程的区域,以及丘脑,一个涉及警觉性和注意力的皮层下结构。为了证实这一假设,我们通过使用正电子发射断层扫描(PET)和18氟-2-脱氧葡萄糖(18FDG)评估17名年轻、正常、健康的男性志愿者在复杂认知任务执行过程中区域脑葡萄糖代谢率(CMRglu),表征了24、48和72小时进行性睡眠剥夺对大脑活动的影响。长时间睡眠剥夺48和72小时的结果在这里报告。与休息基线(RB)相比,全球CMRglu在48和72小时睡眠剥夺(SD)时下降了6%,与24小时睡眠剥夺(SD)时8%的下降接近。绝对和相对区域CMRglu在48和72小时下降,主要在前额叶和顶叶皮层以及丘脑,这些区域在24小时显示下降。与24 h相比,在48和72 h时,前额叶皮层和丘脑背侧的相对区域CMRglu进一步下降,在72 h时,内侧视觉皮层的有限区域CMRglu进一步下降。相对区域CMRglu在侧枕上皮质、舌回和梭状回、小脑前部以及初级和辅助运动皮质在48和72小时增加,表明CMRglu活动反应从24小时开始反弹。多导睡眠图监测证实受试者是清醒的。行为结果显示,在长时间睡眠不足的情况下,警觉性、认知能力和跳眼速度(一种衡量动眼肌反应的指标)持续下降。在72小时的睡眠剥夺期间,前额叶、丘脑和初级视觉区CMRglu相对值的进行性下降与认知表现和跳眼速度的损害呈正相关。丘脑的相对活动也与警觉性的改变有关。前额叶和丘脑区域正相关,表明睡眠剥夺作为一个功能网络共同影响了这些区域。我们认为,长时间的睡眠剥夺导致前额叶-丘脑网络CMRglu的减少是警觉性和认知能力下降的基础,表明大脑无意识地向睡眠开始发展,而视觉和运动区域的增加则表达了大脑主动控制保持清醒和表现的努力。这种自愿控制的运用表现在主体努力和身体运动的增加,而额外的大脑区域的招募可能反映了尽管前额叶-丘脑活动持续下降,但维持警觉性和认知表现的尝试。我们的研究结果为前额皮质对困倦的特定敏感性以及丘脑在困倦中起关键作用的概念提供了支持。
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