Abstract
SummaryWhen and how infants begin to discriminate noxious from innocuous stimuli is a fundamental question in neuroscience [1]. However, little is known about the development of the necessary cortical somatosensory functional prerequisites in the intact human brain. Recent studies of developing brain networks have emphasized the importance of transient spontaneous and evoked neuronal bursting activity in the formation of functional circuits [2, 3]. These neuronal bursts are present during development and precede the onset of sensory functions [4, 5]. Their disappearance and the emergence of more adult-like activity are therefore thought to signal the maturation of functional brain circuitry [2, 4]. Here we show the changing patterns of neuronal activity that underlie the onset of nociception and touch discrimination in the preterm infant. We have conducted noninvasive electroencephalogram (EEG) recording of the brain neuronal activity in response to time-locked touches and clinically essential noxious lances of the heel in infants aged 28–45 weeks gestation. We show a transition in brain response following tactile and noxious stimulation from nonspecific, evenly dispersed neuronal bursts to modality-specific, localized, evoked potentials. The results suggest that specific neural circuits necessary for discrimination between touch and nociception emerge from 35–37 weeks gestation in the human brain.
Highlights
EEGTactile stimulation Noxious stimulationTactile potential WeightNociceptive-specific potential WeightC 42 wks gestational age (GA) 39 wks GA 39 wks GA 38 wks GA * D 44 wks GA 40 wks GA
Characterization of Tactile and Noxious-Specific Brain Activity in Full-Term Infants To investigate the emergence of specific neural activity evoked by tactile and noxious stimulation in the developing human infant brain, we first defined this activity in full-term infants
The tactile potential was defined by the first principal component (PC) in the EEG at CPz between 50 and 300 ms after stimulation because the weight of this component was significantly larger following touch compared to the background EEG (one-way analysis of variance [ANOVA]: F2.66 = 3.72, p < 0.05; least square difference (LSD) post hoc comparison: p < 0.05)
Summary
When and how infants begin to discriminate noxious from innocuous stimuli is a fundamental question in neuroscience [1]. Recent studies of developing brain networks have emphasized the importance of transient spontaneous and evoked neuronal bursting activity in the formation of functional circuits [2, 3]. These neuronal bursts are present during development and precede the onset of sensory functions [4, 5]. The results suggest that specific neural circuits necessary for discrimination between touch and nociception emerge from 35–37 weeks gestation in the human brain
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