Inter-hemispheric somatosensory coherence and parental stress in hypersensitivity at 8 months old: An electroencephalography study

Abstract

ObjectiveInfant hypersensitivity affects daily challenges and parental stress. Although the crucial role of tactile sensation in infant brain function has been highlighted, hypersensitive infants and their families lack support. Electroencephalography may be useful for understanding hypersensitivity traits. We investigated the relationship between infant perceptual hypersensitivity and parental stress, somatosensory-evoked potential (SEP), and magnitude-squared coherence (MSC) in the general population. MethodsInfants aged 8 months (n=63) were evaluated for hypersensitivity and parental stress using a questionnaire and for cortical activity using electroencephalography. Vibration stimuli were applied to the infant’s left foot. SEP components that peaked around 150 ms (N2) and at 200 ms (P2) after stimulus onset were evaluated by amplitude and latency at the midline electrode (Cz) and MSC between the midline electrodes (C3–C4). ResultsParental stress was associated with infant hypersensitivity. At the P2 peak, the latency of Cz was delayed, and C3–C4 delta MSC was high in infants with hypersensitivity. ConclusionsIncreasing inter-hemispheric MSC synchrony in the stimulated condition in infants with hypersensitivity suggested atypical somatosensory cortical function. SignificanceThese findings contribute to identifying, understanding the mechanisms of, and developing effective coping strategies for early-stage hypersensitivity.