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Identification and quantification of neurological responses in patients with dentine hypersensitivity

Wong, N.; Barnes, H. I.; Parkinson, C. R.; Barber, M. W.; Arvaneh, M.; Boissonade, F. M.

2026-07-02 neuroscience
10.64898/2026.06.29.735173 bioRxiv
Show abstract

Evaluation of the effectiveness of therapeutic interventions for dentine hypersensitivity is limited by a lack of standardisation and objectivity in measuring the associated pain. To address this, we investigated whether electroencephalography (EEG) can provide an objective, quantitative measure of the condition. Participants with and without dentine hypersensitivity underwent evaporative (air puff) and thermal (cooling probe) tooth stimulation during continuous recording of EEG activity. Sensitivity scores (Schiff Sensitivity score for air puff stimuli, and Visual Analogue Scale score (VAS) for thermal stimuli) were recorded, and participants' responses to the Dentine Hypersensitivity Experience Questionnaire (DHEQ) collected. There were strong positive correlations between the Schiff and VAS scores, and also between both sensitivity scores and the impact of dentine hypersensitivity on quality of life (DHEQ). Additionally, EEG data analysis revealed significant differences in event-related potentials (ERP) following evaporative stimulation between participants with different Schiff scores, and in cortical activity between traces where participants indicated discomfort and those where participants did not indicate discomfort during thermal stimulation trials. Topographical maps of EEG band power during thermal stimulation showed progressive cortical recruitment and focal activation emerging in the 3 seconds prior to indication of discomfort. Comparison of EEG band power between response and no response trials to thermal stimulation showed significantly higher delta frequency band power in response trials than in no-response trials. Peak-to-peak amplitude of cortical response during thermal stimulation correlated with DHEQ and VAS scores, and the probe temperature at which participants indicated discomfort. These findings suggest that components of EEG responses align with other measures of dentine sensitivity (DHEQ, Schiff and VAS scores) and can serve as objective neurophysiological markers for evaluating the severity of dentine hypersensitivity.

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