Analysis of Brain Responses and Habituation to Multimodal Sensory Stimuli in Patients With Fibromyalgia

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Fibromyalgia is a disorder characterized primarily by widespread musculoskeletal pain. It is often accompanied by symptoms such as fatigue, insomnia, cognitive difficulties, etc. In addition to chronic pain, patients frequently report hypersensitivity to sensory stimuli, both nociceptive and non-nociceptive. Studies using psychophysical and electrophysiological tests have found altered sensory processing in fibromyalgia patients. Research focused on event-related potentials (ERPs) have found differences in amplitude in the responses to auditory, nociceptive, and non-nociceptive somatosensory stimuli in fibromyalgia patients . One key aspect evaluated through ERPs is habituation, defined as a decrease in response due to repeated stimulation. In healthy individuals, ERPs amplitude decreases with repeated sensory input due to progressive neuronal response reduction. In fibromyalgia patients, reduced habituation has been observed for laser-induced ERPs and somatosensory ERPs, though no differences were found for auditory ERPs. ERPs not only provide information about sensory modalities but also contain non-specific components related to stimulus expectation, motor preparation, and attentional orientation. Previous studies have attempted to isolate this non-specific component, as part of habituation may stem from a decrease in its amplitude rather than from a direct sensory response reduction. Using an analytical model, researchers successfully separated this component in experiments with individually or simultaneously presented stimuli, yielding promising results. In the present study, participants (both fibromyalgia patients and healthy controls) will attend one experimental session in which stimulation in different sensory modalities will take place along with electroencephalographic (EEG) recordings. For each stimulus type, 2 blocks of 20 trials will be performed.The order of the stimulus will be selected randomly, but they can be divided into three categories: * Unimodal stimulus * Auditory (A): a 1000 Hz tone delivered at a comfortable volume through a speaker * Visual (V): a checkerboard pattern, inverted every 25 ms, presented on a computer screen. * Somatosensory (S): a train of 3 electrical stimuli that elicits a pricking sensation. * Bimodal stimulus * Auditory-Visual (AV) * Auditivo-Somatosensory (AS) * Visual-Somatosensory (VS) * Trimodal Stimulus * Auditory-Visual-Somatosensory (AVS) The aim of the study is to evaluate neurophysiological parameters related to habituation in multimodal sensory stimulation environments to characterize ERPs in fibromyalgia patients.