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Experimental Brain Research

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01.05.2010 | Research Article

Bilateral dorsolateral prefrontal cortex modulation for tinnitus by transcranial direct current stimulation: a preliminary clinical study

verfasst von: Sven Vanneste, Mark Plazier, Jan Ost, Elsa van der Loo, Paul Van de Heyning, Dirk De Ridder

Erschienen in: Experimental Brain Research | Ausgabe 4/2010

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Abstract

Tinnitus is considered as an auditory phantom percept. Preliminary evidence indicates that transcranial direct current stimulation (tDCS) of the temporo-parietal area might reduce tinnitus. tDCS studies of the prefrontal cortex have been successful in reducing depression, impulsiveness and pain. Recently, it was shown that the prefrontal cortex is important for the integration of sensory and emotional aspects of tinnitus. As such, frontal tDCS might suppress tinnitus as well. In an open label study, a total of 478 tinnitus patients received bilateral tDCS on dorsolateral prefrontal cortex (448 patients anode right, cathode left and 30 anode left, cathode right) for 20 min. Treatment effects were assessed with visual analogue scale for tinnitus intensity and distress. No tinnitus-suppressing effect was found for tDCS with left anode and right cathode. Analyses show that tDCS with right anode and left cathode modulates tinnitus perception in 29.9% of the tinnitus patients. For these responders a significant reduction was found for both tinnitus-related distress and tinnitus intensity. In addition, the amount of suppression for tinnitus-related distress is moderated by an interaction between tinnitus type and tinnitus laterality. This was, however, not the case for tinnitus intensity. Our study supports the involvement of the prefrontal cortex in the pathophysiology of tinnitus.

Alain C, Woods DL, Knight RT (1998) A distributed cortical network for auditory sensory memory in humans. Brain Res 812(1–2):23–37CrossRefPubMed

Antal A et al (2004) Excitability changes induced in the human primary visual cortex by transcranial direct current stimulation: direct electrophysiological evidence. Invest Ophthalmol Vis Sci 45(2):702–707CrossRefPubMed

Avery DH et al (2007) Transcranial magnetic stimulation reduces pain in patients with major depression: a sham-controlled study. J Nerv Ment Dis 195(5):378–381PubMed

Axelsson A, Ringdahl A (1989) Tinnitus—a study of its prevalence and characteristics. Br J Audiol 23(1):53–62CrossRefPubMed

Beard AW (1965) Results of leucotomy operations for tinnitus. J Psychosom Res 9(1):29–32CrossRefPubMed

Beeli G et al (2008) Modulating presence and impulsiveness by external stimulation of the brain. Behav Brain Funct 4:33CrossRefPubMed

Bodner M, Kroger J, Fuster JM (1996) Auditory memory cells in dorsolateral prefrontal cortex. Neuroreport 7(12):1905–1908CrossRefPubMed

Boggio PS et al (2008) Modulatory effects of anodal transcranial direct current stimulation on perception and pain thresholds in healthy volunteers. Eur J Neurol 15(10):1124–1130CrossRefPubMed

Boggio PS, Zaghi S, Fregni F (2009) Modulation of emotions associated with images of human pain using anodal transcranial direct current stimulation (tDCS). Neuropsychologia 47(1):212–217CrossRefPubMed

Boutros NN et al (2005) Sensory gating in the human hippocampal and rhinal regions. Clin Neurophysiol 116(8):1967–1974CrossRefPubMed

Boutros NN et al (2008) Sensory gating in the human hippocampal and rhinal regions: regional differences. Hippocampus 18(3):310–316CrossRefPubMed

Casey KL, Lorenz J, Minoshima S (2003) Insights into the pathophysiology of neuropathic pain through functional brain imaging. Exp Neurol 184(suppl 1):S80–S88CrossRefPubMed

De Ridder D et al (2004) Magnetic and electrical stimulation of the auditory cortex for intractable tinnitus. Case report. J Neurosurg 100(3):560–564CrossRefPubMed

De Ridder D et al (2007a) Theta, alpha and beta burst transcranial magnetic stimulation: brain modulation in tinnitus. Int J Med Sci 4(5):237–241PubMed

De Ridder D et al (2007b) Do tonic and burst TMS modulate the lemniscal and extralemniscal system differentially? Int J Med Sci 4(5):242–246PubMed

Elithorn A (1953) Prefrontal leucotomy in the treatment of tinnitus. Proc R Soc Med 46(10):832–833PubMed

Fregni F et al (2006a) Transient tinnitus suppression induced by repetitive transcranial magnetic stimulation and transcranial direct current stimulation. Eur J Neurol 13(9):996–1001CrossRefPubMed

Fregni F et al (2006b) Cognitive effects of repeated sessions of transcranial direct current stimulation in patients with depression. Depress Anxiety 23(8):482–484CrossRefPubMed

Fregni F et al (2006c) Treatment of major depression with transcranial direct current stimulation. Bipolar Disord 8(2):203–204CrossRefPubMed

Freund W et al (2007) Cortical correlates of perception and suppression of electrically induced pain. Somatosens Mot Res 24(4):203–212CrossRefPubMed

Friedland DR et al (2007) Feasibility of auditory cortical stimulation for the treatment of tinnitus. Otol Neurotol 28(8):1005–1012CrossRefPubMed

Grunwald T et al (2003) Neuronal substrates of sensory gating within the human brain. Biol Psychiatry 53(6):511–519CrossRefPubMed

Kleinjung T et al (2008) Transcranial magnetic stimulation: a new diagnostic and therapeutic tool for tinnitus patients. Int Tinnitus J 14(2):112–118PubMed

Knight RT, Scabini D, Woods DL (1989) Prefrontal cortex gating of auditory transmission in humans. Brain Res 504(2):338–342CrossRefPubMed

Korzyukov O et al (2007) Generators of the intracranial P50 response in auditory sensory gating. Neuroimage 35(2):814–826CrossRefPubMed

Lewis JW, Beauchamp MS, DeYoe EA (2000) A comparison of visual and auditory motion processing in human cerebral cortex. Cereb Cortex 10(9):873–888CrossRefPubMed

Liberzon I et al (2000) Limbic activation and psychophysiologic responses to aversive visual stimuli. Interaction with cognitive task. Neuropsychopharmacology 23(5):508–516CrossRefPubMed

Lockwood AH et al (1998) The functional neuroanatomy of tinnitus: evidence for limbic system links and neural plasticity. Neurology 50(1):114–120PubMed

Lorenz J, Minoshima S, Casey KL (2003) Keeping pain out of mind: the role of the dorsolateral prefrontal cortex in pain modulation. Brain 126(Pt 5):1079–1091CrossRefPubMed

Miranda PC, Lomarev M, Hallett M (2006) Modeling the current distribution during transcranial direct current stimulation. Clin Neurophysiol 117(7):1623–1629CrossRefPubMed

Mirz F et al (2000) Functional brain imaging of tinnitus-like perception induced by aversive auditory stimuli. Neuroreport 11(3):633–637CrossRefPubMed

Mitchell TV et al (2005) Functional magnetic resonance imaging measure of automatic and controlled auditory processing. Neuroreport 16(5):457–461CrossRefPubMed

Muhlnickel W et al (1998) Reorganization of auditory cortex in tinnitus. Proc Natl Acad Sci USA 95(17):10340–10343CrossRefPubMed

Nitsche MA, Paulus W (2000) Excitability changes induced in the human motor cortex by weak transcranial direct current stimulation. J Physiol 527:633–639CrossRefPubMed

Nitsche MA, Paulus W (2001) Sustained excitability elevations induced by transcranial DC motor cortex stimulation in humans. Neurology 57(10):1899–1901PubMed

Nitsche MA et al (2003) Level of action of cathodal DC polarisation induced inhibition of the human motor cortex. Clin Neurophysiol 114(4):600–604CrossRefPubMed

Nondahl DM et al (2002) Prevalence and 5-year incidence of tinnitus among older adults: the epidemiology of hearing loss study. J Am Acad Audiol 13(6):323–331PubMed

Norena A, Cransac H, Chery-Croze S (1999) Towards an objectification by classification of tinnitus. Clin Neurophysiol 110(4):666–675CrossRefPubMed

Paus T, Castro-Alamancos MA, Petrides M (2001) Cortico-cortical connectivity of the human mid-dorsolateral frontal cortex and its modulation by repetitive transcranial magnetic stimulation. Eur J Neurosci 14(8):1405–1411CrossRefPubMed

Salvi RJ, Wang J, Ding D (2000) Auditory plasticity and hyperactivity following cochlear damage. Hear Res 147(1–2):261–274CrossRefPubMed

Schlee W et al (2009) Abnormal resting-state cortical coupling in chronic tinnitus. BMC Neurosci 10:11CrossRefPubMed

Scott B, Lindberg P (2000) Psychological profile and somatic complaints between help-seeking and non-help-seeking tinnitus subjects. Psychosomatics 41(4):347–352CrossRefPubMed

Sindhusake D et al (2004) Factors predicting severity of tinnitus: a population-based assessment. J Am Acad Audiol 15(4):269–280PubMed

Smits M et al (2007) Lateralization of functional magnetic resonance imaging (fMRI) activation in the auditory pathway of patients with lateralized tinnitus. Neuroradiology 49(8):669–679CrossRefPubMed

Tanaka E et al (2008) A transition from unimodal to multimodal activations in four sensory modalities in humans: an electrophysiological study. BMC Neurosci 9:116CrossRefPubMed

van der Loo E et al (2009) Tinnitus intensity dependent gamma oscillations of the contralateral auditory cortex. PLoS ONE 4(10):e7396CrossRefPubMed

Vanneste S, Plazier M, Ost J, van der Loo E, Van de Heyning P, Congedo M, De Ridder D (submitted) The neural correlates of tinnitus-related distress

Voisin J et al (2006) Listening in silence activates auditory areas: a functional magnetic resonance imaging study. J Neurosci 26(1):273–278CrossRefPubMed

Weisz N et al (2007) The neural code of auditory phantom perception. J Neurosci 27(6):1479–1484CrossRefPubMed

Titel: Bilateral dorsolateral prefrontal cortex modulation for tinnitus by transcranial direct current stimulation: a preliminary clinical study
verfasst von: Sven Vanneste
Mark Plazier
Jan Ost
Elsa van der Loo
Paul Van de Heyning
Dirk De Ridder
Publikationsdatum: 01.05.2010
Verlag: Springer-Verlag
Erschienen in: Experimental Brain Research / Ausgabe 4/2010
Print ISSN: 0014-4819
Elektronische ISSN: 1432-1106
DOI: https://doi.org/10.1007/s00221-010-2183-9

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Bilateral dorsolateral prefrontal cortex modulation for tinnitus by transcranial direct current stimulation: a preliminary clinical study

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