Whitehead Kimberley
Research Division of Digital Health and Applied Technology Assessment (DHATA), Florence Nightingale Faculty of Nursing, Midwifery & Palliative Care, King's College London, James Clerk Maxwell Building, 57 Waterloo Rd, London SE1 8WA, UK.
Dev Cogn Neurosci. 2025 Jan;71:101487. doi: 10.1016/j.dcn.2024.101487. Epub 2024 Dec 12.
In older children and adults, cognition builds upon waking sensory experience which is consolidated during sleep. In the fetus and newborn, sensory input is instead largely experienced during sleep. The nature of these sensory inputs differs within sleep, between active and quiet sleep, as well as versus wakefulness. Here, sleep-wake organisation in the fetus and newborn is reviewed, and then its interaction with sensory inputs discussed with a focus on somatosensory and auditory modalities. Next, these ideas are applied to how neurological insults affect early development, using fetal growth restriction as a test case. Finally, the argument is made that taking account of sleep-wake state during perinatal functional neuroimaging can better index sensorimotor, language, and cognitive brain activities, potentially improving its diagnostic and prognostic value. To sum up, sensory and sleep-wake functions go hand in hand during early human development. Perturbation of these twinned functions by neurological insults may mediate later neurodevelopmental deficits. Perinatal neuroimaging has the potential to track these trajectories, feasibly identifying opportunities to therapeutically intervene.
在大龄儿童和成年人中,认知建立在清醒时的感官体验之上,而这种体验会在睡眠期间得到巩固。相反,对于胎儿和新生儿来说,大部分感官输入是在睡眠期间体验到的。这些感官输入的性质在睡眠中、活跃睡眠和安静睡眠之间以及与清醒状态相比都有所不同。在此,我们将回顾胎儿和新生儿的睡眠-觉醒组织,然后重点讨论其与感官输入的相互作用,特别是躯体感觉和听觉模式。接下来,我们将以胎儿生长受限为例,探讨这些观点如何应用于神经损伤对早期发育的影响。最后,我们认为在围产期功能神经成像过程中考虑睡眠-觉醒状态可以更好地反映感觉运动、语言和认知脑活动,有可能提高其诊断和预后价值。总之,在人类早期发育过程中,感官功能和睡眠-觉醒功能是相辅相成的。神经损伤对这两种紧密相连的功能的干扰可能会导致后期的神经发育缺陷。围产期神经成像有潜力追踪这些轨迹,从而有可能确定治疗干预的机会。
