The auditory cortex is well-known to be critical for music perception, including the perception of consonance and dissonance. Studies on the neural correlates of consonance and dissonance perception have largely employed non-invasive electrophysiological and functional imaging techniques in humans as well as neurophysiological recordings in animals, but the fine-grained spatiotemporal dynamics within the human auditory cortex remain unknown. We recorded electrocorticographic (ECoG) signals directly from the lateral surface of either the left or right temporal lobe of eight patients undergoing neurosurgical treatment as they passively listened to highly consonant and highly dissonant musical chords. We assessed ECoG activity in the high gamma (γhigh, 70–150 Hz) frequency range within the superior temporal gyrus (STG) and observed two types of cortical sites of interest in both hemispheres: one type showed no significant difference in γhigh activity between consonant and dissonant chords, and another type showed increased γhigh responses to dissonant chords between 75 and 200 ms post-stimulus onset. Furthermore, a subset of these sites exhibited additional sensitivity towards different types of dissonant chords, and a positive correlation between changes in γhigh power and the degree of stimulus roughness was observed in both hemispheres. We also observed a distinct spatial organization of cortical sites in the right STG, with dissonant-sensitive sites located anterior to non-sensitive sites. In sum, these findings demonstrate differential processing of consonance and dissonance in bilateral STG with the right hemisphere exhibiting robust and spatially organized sensitivity toward dissonance.
The Coronavirus disease 2019 (COVID-19) infection has classical symptoms of high fevers, diarrhea, cough, and dyspnea; however, there are cases recording more unconventional features. In this case report, we will discuss recurrent laryngeal nerve palsy as a new and unusual presentation of COVID-19. The patient was a 58-year-old African American male with a history of hypertension, type-2 diabetes mellitus, and obstructive sleep apnea presenting with dyspnea, fatigue, and nausea. The patient was initially admitted to the medical intensive care unit (MICU) for acute hypoxic respiratory failure and completed intravenous Remdesivir for COVID-19. He never got intubated during the ICU stay and his condition improved on the 34th day of admission. However, two weeks later the patient suddenly developed hoarseness of voice. A bedside laryngoscopy revealed a left-sided vocal cord paralysis but patent airway. The computed tomography (CT) scan of the neck did not show any abnormalities, including any impinging masses or structures. The patient did not have any recent intubations to suggest the paralysis was due to traumatic injury, thus favoring that his neurologic injury was likely a post-viral symptom. One possible pathophysiology would be the invasion of nerve fibers (peripheral or cranial nerves) by the virus using the same mechanism as seen in alveolar cells and finally destroying them. Another hypothesis would be the inflammatory response of the host immune system affecting the peripheral and cranial nerves. Therefore, the potential association between neuroinvasiveness of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and the recurrent laryngeal nerve palsy resulting in the vocal cord paralysis should be considered and more studies need to be conducted for better understanding.
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