Your search keyword '"Mizuiri, D."' showing total 5 results

1. Author Correction: Corticostriatal functional connectivity of bothersome tinnitus in single-sided deafness.

Author

Henderson-Sabes J, Shang Y, Perez PL, Chang JL, Pross SE, Findlay AM, Mizuiri D, Hinkley LB, Nagarajan SS, and Cheung SW

Published

2021

2. Corticostriatal functional connectivity of bothersome tinnitus in single-sided deafness.

Author

Henderson-Sabes J, Shang Y, Perez PL, Chang JL, Pross SE, Findlay AM, Mizuiri D, Hinkley LB, Nagarajan SS, and Cheung SW

Subjects

Adult, Auditory Cortex physiopathology, Brain Mapping methods, Deafness diagnostic imaging, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Tinnitus diagnostic imaging, Deafness physiopathology, Tinnitus physiopathology

Abstract

Subjective tinnitus is an auditory phantom perceptual disorder without an objective biomarker. Bothersome tinnitus in single-sided deafness (SSD) is particularly challenging to treat because the deaf ear can no longer be stimulated by acoustic means. We contrasted an SSD cohort with bothersome tinnitus (TIN; N = 15) against an SSD cohort with no or non-bothersome tinnitus (NO TIN; N = 15) using resting-state functional magnetic resonance imaging (fMRI). All study participants had normal hearing in one ear and severe or profound hearing loss in the other. We evaluated corticostriatal functional connectivity differences by placing seeds in the caudate nucleus and Heschl's Gyrus (HG) of both hemispheres. The TIN cohort showed increased functional connectivity between the left caudate and left HG, and left and right HG and the left caudate. Within the TIN cohort, functional connectivity between the right caudate and cuneus was correlated with the Tinnitus Functional Index (TFI) relaxation subscale. And, functional connectivity between the right caudate and superior lateral occipital cortex, and the right caudate and anterior supramarginal gyrus were correlated with the TFI control subscale. These findings support a striatal gating model of tinnitus and suggest tinnitus biomarkers to monitor treatment response and to target specific brain areas for innovative neuromodulation therapies.

Published

2019

3. Beta-band activity in medial prefrontal cortex predicts source memory encoding and retrieval accuracy.

Author

Subramaniam K, Hinkley LBN, Mizuiri D, Kothare H, Cai C, Garrett C, Findlay A, Houde JF, and Nagarajan SS

Subjects

Adult, Brain Mapping, Cognition, Decision Making, Female, Humans, Magnetic Resonance Imaging methods, Male, Middle Aged, Prefrontal Cortex diagnostic imaging, Reaction Time, Young Adult, Beta Rhythm, Memory, Mental Recall, Prefrontal Cortex physiology

Abstract

Reality monitoring is defined as the ability to distinguish internally self-generated information from externally-derived information. The medial prefrontal cortex (mPFC) is a key brain region subserving reality monitoring and has been shown to be activated specifically during the retrieval of self-generated information. However, it is unclear if mPFC is activated during the encoding of self-generated information into memory. If so, it is important to understand whether successful retrieval of self-generated information critically depends on enhanced neural activity within mPFC during initial encoding of this self-generated information. We used magnetoencephalographic imaging (MEGI) to determine the timing and location of cortical activity during a reality-monitoring task involving self generated contextual source memory encoding and retrieval. We found both during encoding and retrieval of self-generated information, when compared to externally-derived information, mPFC showed significant task induced oscillatory power modulation in the beta-band. During initial encoding of self-generated information, greater mPFC beta-band power reductions occurred within a time window of -700 ms to -500 ms prior to vocalization. This increased activity in mPFC was not observed during encoding of externally-derived information. Additionally, increased mPFC activity during encoding of self-generated information predicted subsequent retrieval accuracy of this self-generated information. Beta-band activity in mPFC was also observed during the initial retrieval of self-generated information within a time window of 300 to 500 ms following stimulus onset and correlated with accurate retrieval performance of self-generated information. Together, these results further highlight the importance of mPFC in mediating the initial generation and awareness of participants' internal thoughts.

Published

2019

4. Neural correlates of abnormal auditory feedback processing during speech production in Alzheimer's disease.

Author

Ranasinghe KG, Kothare H, Kort N, Hinkley LB, Beagle AJ, Mizuiri D, Honma SM, Lee R, Miller BL, Gorno-Tempini ML, Vossel KA, Houde JF, and Nagarajan SS

Subjects

Acoustic Stimulation methods, Female, Humans, Male, Middle Aged, Phonation physiology, Pitch Perception physiology, Alzheimer Disease physiopathology, Brain physiopathology, Feedback, Sensory physiology, Speech physiology

Abstract

Accurate integration of sensory inputs and motor commands is essential to achieve successful behavioral goals. A robust model of sensorimotor integration is the pitch perturbation response, in which speakers respond rapidly to shifts of the pitch in their auditory feedback. In a previous study, we demonstrated abnormal sensorimotor integration in patients with Alzheimer's disease (AD) with an abnormally enhanced behavioral response to pitch perturbation. Here we examine the neural correlates of the abnormal pitch perturbation response in AD patients, using magnetoencephalographic imaging. The participants phonated the vowel /α/ while a real-time signal processor briefly perturbed the pitch (100 cents, 400 ms) of their auditory feedback. We examined the high-gamma band (65-150 Hz) responses during this task. AD patients showed significantly reduced left prefrontal activity during the early phase of perturbation and increased right middle temporal activity during the later phase of perturbation, compared to controls. Activity in these brain regions significantly correlated with the behavioral response. These results demonstrate that impaired prefrontal modulation of speech-motor-control network and additional recruitment of right temporal regions are significant mediators of aberrant sensorimotor integration in patients with AD. The abnormal neural integration mechanisms signify the contribution of cortical network dysfunction to cognitive and behavioral deficits in AD.

Published

2019

5. Abnormal Speech Motor Control in Individuals with 16p11.2 Deletions.

Author

Demopoulos C, Kothare H, Mizuiri D, Henderson-Sabes J, Fregeau B, Tjernagel J, Houde JF, Sherr EH, and Nagarajan SS

Subjects

Adaptation, Physiological, Adolescent, Child, Chromosome Deletion, Chromosomes, Human, Pair 16, Female, Humans, Male, Voice, Autistic Disorder physiopathology, Chromosome Disorders physiopathology, Intellectual Disability physiopathology, Speech

Abstract

Speech and motor deficits are highly prevalent (>70%) in individuals with the 600 kb BP4-BP5 16p11.2 deletion; however, the mechanisms that drive these deficits are unclear, limiting our ability to target interventions and advance treatment. This study examined fundamental aspects of speech motor control in participants with the 16p11.2 deletion. To assess capacity for control of voice, we examined how accurately and quickly subjects changed the pitch of their voice within a trial to correct for a transient perturbation of the pitch of their auditory feedback. When compared to controls, 16p11.2 deletion carriers show an over-exaggerated pitch compensation response to unpredictable mid-vocalization pitch perturbations. We also examined sensorimotor adaptation of speech by assessing how subjects learned to adapt their sustained productions of formants (speech spectral peak frequencies important for vowel identity), in response to consistent changes in their auditory feedback during vowel production. Deletion carriers show reduced sensorimotor adaptation to sustained vowel identity changes in auditory feedback. These results together suggest that 16p11.2 deletion carriers have fundamental impairments in the basic mechanisms of speech motor control and these impairments may partially explain the deficits in speech and language in these individuals.

Published

2018