The Pennsylvania State University, Altoona, PA 16601-3794, USA.
Int Rev Neurobiol. 2010;93:129-51. doi: 10.1016/S0074-7742(10)93006-7.
The process of waking up from an episode of sleep can produce temporary deficits in cognitive functioning and low levels of alertness and vigilance, a process referred to as sleep inertia. Cognitive ability varies as a function of time-of-day; cognitive ability associated with sleep inertia also shows circadian influences with deleterious effects most pronounced when awakened from biological night, possibly paralleling the core body temperature minimum. The length of the sleep episode may contribute to the severity of sleep inertia. Short sleep episodes (<20 min) produce little cognitive impairment, probably because of a lack of slow-wave sleep in the sleep episode. With longer sleep episodes, aspects of sleep depth such as percentage of slow-wave sleep or total length of the sleep episode may be important. Finally, myriad tasks have been used to measure sleep inertia effects, and cognitive deficits associated with waking up have been demonstrated on both simple and complex tasks for both speed and accuracy. More research is needed on how the type of task may interact with sleep inertia. Tests that measure known specific aspects of cognition and that can be mapped to brain systems and neurotransmitters (e.g., the Attentional Network Test: ANT) are recommended to further understand how information processing during the process of awakening is distinct from other aspects of awareness.
从睡眠发作中醒来的过程会导致认知功能暂时下降和警觉性和注意力水平降低,这个过程称为睡眠惯性。认知能力随时间变化而变化;与睡眠惯性相关的认知能力也表现出昼夜节律的影响,当从生物夜间醒来时,其有害影响最为明显,可能与核心体温最低相平行。睡眠发作的持续时间可能会影响睡眠惯性的严重程度。短时间的睡眠发作(<20 分钟)不会导致明显的认知障碍,可能是因为睡眠发作中缺乏慢波睡眠。随着睡眠发作时间的延长,睡眠深度的各个方面,如慢波睡眠的百分比或睡眠发作的总时长,可能会变得很重要。最后,已经使用了无数的任务来测量睡眠惯性的影响,并且已经在简单和复杂任务上都证明了与醒来相关的认知缺陷,无论是在速度还是准确性方面。需要进一步研究任务类型如何与睡眠惯性相互作用。建议使用测试来测量已知的特定认知方面,并且可以映射到大脑系统和神经递质(例如,注意网络测试:ANT),以进一步了解在觉醒过程中信息处理与其他意识方面有何不同。