Tinnitus and auditory cortex: using adapted functional near-infrared spectroscopy to measure resting-state functional connectivity

Juan, Juan D San; Zhai, Tianqu; Ash-Rafzadeh, Angela; Hu, Xiao‐Su; Kim, Jessica; Filipak, Charles; Guo, Kaiwen; Islam, M. N.; Kovelman, Ioulia; Basura, Gregory J.

doi:10.1097/wnr.0000000000001561

Cited by 6 publications

(6 citation statements)

References 22 publications

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“…Tinnitus is proposed to occur when the auditory cortex neurons show increased spontaneous firing and neural synchrony 42 . Supporting this theory, Zenke et al observed an increased auditory cortex activation 37 .…”

Section: Discussionmentioning

confidence: 98%

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Functional Brain Regions Linked to Tinnitus Pathology and Compensation During Task Performance: A Systematic Review

Jimoh

Marouf

Zenke

et al. 2023

Otolaryngol.--head neck surg.

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ObjectiveTo systematically search the literature and organize relevant advancements in the connection between tinnitus and the activity of different functional brain regions using functional magnetic resonance imaging (fMRI).Data SourcesMEDLINE (OVID), EMBASE (OVID), CINAHL (EBSCO), Web of Science, ProQuest Dissertations & Theses Global, Cochrane Database of Systematic Reviews, and PROSPERO from inception to April 2022.Review MethodsStudies with adult human subjects who suffer from tinnitus and underwent fMRI to relate specific regions of interest to tinnitus pathology or compensation were included. In addition, fMRI had to be performed with a paradigm of stimuli that would stimulate auditory brain activity. Exclusion criteria included non‐English studies, animal studies, and studies that utilized a resting state magnetic resonance imaging or other imaging modalities.ResultsThe auditory cortex may work to dampen the effects of central gain. Results from different studies show variable changes in the Heschl's gyrus (HG), with some showing increased activity and others showing inhibition and volume loss. After controlling for hyperacusis and other confounders, tinnitus does not seem to influence the inferior colliculus (IC) activation. However, there is decreased connectivity between the auditory cortex and IC. The cochlear nucleus (CN) generally shows increased activation in tinnitus patients. fMRI evidence indicates significant inhibition of thalamic gating. Activating the thalamus may be of important therapeutic potential.ConclusionPatients with tinnitus have significantly altered neuronal firing patterns, especially within the auditory network, when compared to individuals without tinnitus. Tinnitus and hyperacusis commonly coexist, making differentiation of the effects of these 2 phenomena frequently difficult.

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Section: Discussionmentioning

confidence: 98%

“…Tinnitus is proposed to occur when the auditory cortex neurons show increased spontaneous firing and neural synchrony. 42 Supporting this theory, Zenke et al observed an increased auditory cortex activation. 37 The authors suggest that a limbic-auditory interaction may be to blame for the presence of tinnitus.…”

Section: Auditory Cortex (Figure 4)mentioning

confidence: 92%

Functional Brain Regions Linked to Tinnitus Pathology and Compensation During Task Performance: A Systematic Review

Jimoh

Marouf

Zenke

et al. 2023

Otolaryngol.--head neck surg.

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“…Currently, the number of sensors used is relatively small, so that a priori decisions must be made as to which regions’ activity will be recorded and evaluated. Initial studies indicate that cortical changes in tinnitus are not limited to auditory regions 55 , but also affect emotion-relevant regions 56 .…”

Section: Discussionmentioning

confidence: 99%

“…Aktuell ist die Anzahl der verwendeten Sensoren relativ klein, so dass a priori entschieden werden muss, die Aktivität welcher Regionen aufgezeichnet und ausgewertet wird. Erste Untersuchungen weisen auch hier daraufhin, dass sich kortikale Veränderungen bei Tinnitus nicht auf auditive Regionen beschränken 55 , sondern auch hier z. B. emotionsrelevante Regionen betreffen 56 .…”

Section: Schlussfolgerungen Und Ausblickunclassified

Tinnitus und multimodale kortikale Interaktion

Dobel

Junghöfer

Mazurek

et al. 2023

Laryngorhinootologie

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ZusammenfassungMit dem Begriff des subjektiven Tinnitus wird ein wahrgenommenes Geräusch ohne externe Quelle beschrieben. Daher scheint es naheliegend, dass Tinnitus als rein auditives, sensorisches Problem verstanden werden kann. Aus klinischer Sicht ist das jedoch eine sehr unzureichende Beschreibung, da bei chronischem Tinnitus erhebliche Komorbiditäten vorliegen. Neurophysiolgische Untersuchungen mit unterschiedlichen bildgebenden Verfahren ergeben ein sehr ähnliches Bild, da bei Patienten mit chronischem Tinnitus nicht nur das auditive System betroffen ist, sonderen ein weitverzweigtes subkortikales und kortikales Netzwerk. Neben auditiven Verarbeitungssystemen sind insbesondere Netzwerke bestehend aus frontalen und parietalen Regionen gestört. Aus diesem Grund wird Tinnitus von einigen Autoren als Netzwerk-Störung konzeptualisiert und nicht als eine Störung eines eng umschriebenen Systems. Diese Ergebnisse und diese Sichtweise legen nahe, dass Tinnitus auf fach- und modalitätsübergreifende Weise diagnostiziert und behandelt werden muss.

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“…One study showed increasing intensity of perceived tinnitus with increased gamma band activity of the contralateral auditory cortex 43 whilst another study demonstrated increased gamma band activity in the left and right primary and secondary auditory cortex of tinnitus patients 44 . An innovative functional near-infrared spectroscopy (fNIRS) approach demonstrated increased hemodynamic activity in the AC indicating plasticity changes 45 whereas another fNIRS illustrated increased resting state functional activity in the AC of tinnitus patients vs. non tinnitus individuals 46 . A rat model illustrated augmented cortical excitability post- salicylate induced tinnitus 47 , again reiterating the cellular mechanism of hyperactivity 47 discussed previously but now in the context of the AC.…”

Section: Mechanisms Of Tinnitus Generationmentioning

confidence: 99%

The Pathological Mechanisms and Treatments of Tinnitus

Saeed¹,

Khan²

2021

Discoveries

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Tinnitus is defined as the ringing, hissing, clicking or roaring sounds an individual consciously perceives in the absence of an external auditory stimulus. Currently, the literature on the mechanism of tinnitus pathology is multifaceted, ranging from tinnitus generation at the cellular level to its perception at the system level. Cellular level mechanisms include increased neuronal synchrony, neurotransmission changes and maladaptive plasticity. At the system level, the role of auditory structures, non-auditory structures, changes in the functional connectivities in higher regions and tinnitus networks have been investigated. The exploration of all these mechanisms creates a holistic view on understanding the changes the pathophysiology of tinnitus undertakes. Although tinnitus percept may start at the level of cochlear nerve deafferentation, the neuronal changes in the central auditory system to the neuronal and connectivity changes in non-auditory regions, such as the limbic system, become cardinal in chronic tinnitus generation. At the present moment, some tinnitus generation mechanisms are well established (e.g., increased neuronal synchrony) whereas other mechanisms have gained more traction recently (e.g., tinnitus networks, tinnitus-distress networks) and therefore, require additional investigation to solidify their role in tinnitus pathology. The treatments and therapeutics designed for tinnitus are numerous, with varied levels of success. They are generally two-fold: some treatments focus on tinnitus cessation (including cochlear implants, deep brain stimulation, transcranial direct current stimulation and transcranial magnetic stimulation) whereas the other set focuses on tinnitus reduction or masking (including hearing aids, sound therapy, cognitive behavioral therapy, tinnitus retraining therapy, and tailor made notched musical training). Tinnitus management has focused on implementing tinnitus masking/reducing therapies more than tinnitus cessation, since cessation treatments are still lacking in streamlined treatment protocols and long-term sustainability and efficacy of the treatment. This review will focus on concisely exploring the current and most relevant tinnitus pathophysiology mechanisms, treatments and therapeutics.

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Tinnitus and auditory cortex: using adapted functional near-infrared spectroscopy to measure resting-state functional connectivity

Cited by 6 publications

References 22 publications

Functional Brain Regions Linked to Tinnitus Pathology and Compensation During Task Performance: A Systematic Review

Functional Brain Regions Linked to Tinnitus Pathology and Compensation During Task Performance: A Systematic Review

Tinnitus und multimodale kortikale Interaktion

The Pathological Mechanisms and Treatments of Tinnitus

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