Volume 6, Issue 1 (Continuously Updated 2023)                   Func Disabil J 2023, 6(1): 0-0 | Back to browse issues page

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Shayanmehr S, Rahbar N, Pourbakht A, Sameni S J, Mazaheryazdi M. Incorporating Auditory Cortex Potentials and Gap Pre-pulse Inhibition of Acoustic Startle: A Probable Way to Objectively Assess Tinnitus. Func Disabil J 2023; 6 (1) : 251.1
URL: http://fdj.iums.ac.ir/article-1-218-en.html
Incorporating Auditory Cortex Potentials and Gap Pre-pulse Inhibition of Acoustic Startle: A Probable Way to Objectively Assess Tinnitus
Soheila Shayanmehr * 1, Nariman Rahbar2 , Akram Pourbakht2 , Seyyed Jalal Sameni2 , Malihe Mazaheryazdi2
1- Department of Audiology, Rehabilitation Research Center, School of Rehabilitation Sciences, International Campus, Iran University of Medical Sciences, Tehran, Iran. , s.shayanmehr@yahoo.com
2- School of Rehabilitation Sciences, Rehabilitation Research Center, Iran University of Medical Sciences, Tehran, Iran.
Abstract:   (566 Views)
Background and Objectives: Tinnitus is a complex condition that varies in loudness, quality, location, and distress. Different definitions, heterogeneity, and lack of objective measuring have challenged the understanding the mechanisms involved and definitive cure. The integrative model correlates each of these characteristics to separate parallel and overlapping subnetworks that process tinnitus’s perception and emotional reaction. Many of these networks are common with the gap pre-pulse inhibition of acoustic startle (GPIAS) neural circuity. GPIAS, which measures tinnitus in animals, has recently been used for humans with various recording methods. The present study aimed to review the evidence achieved with gap stimuli in patients with tinnitus to support the potential of cortical responses recorded with the GPIAS stimulus and to objectively detect tinnitus in humans. 
Methods: Studies were identified by searching electronic databases with relevant keywords.
Results: The role of the auditory cortex in processing short gaps, the possibility of evaluating the gap detection ability with GPIAS, and the advantage of cortical responses in reflecting both stimulus properties and different aspects of tinnitus emphasize the importance of this issue. The results of most studies have proven the gap detection deficiency in tinnitus. However, the validity of the auditory startle reflex still needs to be verified due to the inherent variability and different methods. 
Conclusion: Further human studies are recommended because the perception of tinnitus can be controlled. An appealing research line in this area is multi-channel cortical evoked potentials. Defects of GPIAS with cortical recording can indicate tinnitus.
 
Article number: 251.1
Keywords: Pre-pulse inhibition, Gap pre-pulse inhibition of acoustic startle (GPIAS), Cortical auditory evoked potentials, Tinnitus, Objective tinnitus assessment
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Type of Study: Review Article | Subject: Audiology
Received: 2023/04/21 | Accepted: 2023/05/7 | Published: 2023/02/6
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