Auditory N1, N2, and MMN to pure-tone and consonant–vowel stimuli in developmental dyslexia and benign rolandic epilepsy: A progressive insight into the underlying disruptive neurophysiology

Tomé, DavidPereira, IlídioVieira, Maria CelesteSoares, Ana PaulaBarbosa, Fernando2025-11-032025-11-032025-06-25Tomé, D., Pereira, I., Vieira, M. C., Soares, A. P., & Barbosa, F. (2025). Auditory N1, N2, and MMN to Pure-Tone and Consonant–Vowel Stimuli in Developmental Dyslexia and Benign Rolandic Epilepsy: A Progressive Insight Into the Underlying Disruptive Neurophysiology. Neuropsychiatric Disease and Treatment, 21, 1271–1286. https://doi.org/10.2147/NDT.S4981931178-2021http://hdl.handle.net/10400.22/30733Benign rolandic epilepsy or benign epilepsy in childhood with centrotemporal spikes (BECTS) and developmental dyslexia (DD) are two of the most studied disorders in childhood. Despite decades of research, the neurophysiological mechanisms underpinning these disorders are largely unknown. Here, we use auditory event-related potentials (AERPs) to shed light on these issues, since several authors have reported the existence of language and learning impairments. AERPs reflect the activation of different neuronal populations and are suggested to contribute to the evaluation of auditory discrimination (N1), attention allocation and phonological categorization (N2), and echoic memory (mismatch negativity (MMN]). This study aims to investigate and document AERP changes in a group of children with BECTS and another group with DD. AERPs were recorded to pure-tones and consonant–vowel (CV) stimuli in an auditory oddball paradigm in eight children with BECTS, seven with DD, and 11 gender- and age-matched controls. The results revealed perceptual deficits for pure-tone and CV stimuli (pre-attentional and auditory discrimination) in DD, related to N1 reduced amplitude (p< 0.05; Fz: 2.57 μV, Cz: 2.75 μV). The BECTS group revealed no significant results for N1; however, there was an increase in N2b latency. The findings in the DD group support the anchor-deficit hypothesis as an explanation for neurolinguistic deficits. The increased N2b latency in the BECTS group could be related to a potential lack of inhibitory mechanisms of pyramidal neurons, as justified by the process of epileptogenesis.engN1N2bAuditory processingDevelopmental dyslexiaBECTSAuditory N1, N2, and MMN to pure-tone and consonant–vowel stimuli in developmental dyslexia and benign rolandic epilepsy: A progressive insight into the underlying disruptive neurophysiologyresearch article10.2147/NDT.S4981931178-2021