Neural adaptations to congenital deafness: enhanced tactile discrimination through cross-modal neural plasticity - an fMRI study.

IF 2.7 4区 医学 Q2 CLINICAL NEUROLOGY
Neurological Sciences Pub Date : 2024-11-01 Epub Date: 2024-05-27 DOI:10.1007/s10072-024-07615-4
Kalpana Dhanik, Himanshu R Pandey, Mrutyunjaya Mishra, Amit Keshri, Uttam Kumar
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引用次数: 0

Abstract

Background: This study explores the compensatory neural mechanisms associated with congenital deafness through an examination of tactile discrimination abilities using high-resolution functional magnetic resonance imaging (fMRI).

Objective: To analyze the neural substrates underlying tactile processing in congenitally deaf individuals and compare them with hearing controls.

Methods: Our participant pool included thirty-five congenitally deaf individuals and thirty-five hearing controls. All participants engaged in tactile discrimination tasks involving the identification of common objects by touch. We utilized an analytical suite comprising voxel-based statistics, functional connectivity multivariate/voxel pattern analysis (fc-MVPA), and seed-based connectivity analysis to examine neural activity.

Results: Our findings revealed pronounced neural activity in congenitally deaf participants within regions typically associated with auditory processing, including the bilateral superior temporal gyrus, right middle temporal gyrus, and right rolandic operculum. Additionally, unique activation and connectivity patterns were observed in the right insula and bilateral supramarginal gyrus, indicating a strategic reorganization of neural pathways for tactile information processing. Behaviorally, both groups demonstrated high accuracy in the tactile tasks, exceeding 90%. However, the deaf participants outperformed their hearing counterparts in reaction times, showcasing significantly enhanced efficiency in tactile information processing.

Conclusion: These insights into the brain's adaptability to sensory loss through compensatory neural reorganization highlight the intricate mechanisms by which tactile discrimination is enhanced in the absence of auditory input. Understanding these adaptations can help develop strategies to harness the brain's plasticity to improve sensory processing in individuals with sensory impairments, ultimately enhancing their quality of life through improved tactile perception and sensory integration.

Abstract Image

先天性耳聋的神经适应:通过跨模态神经可塑性增强触觉辨别力--fMRI 研究。
研究背景本研究通过使用高分辨率功能磁共振成像(fMRI)检查触觉辨别能力,探索与先天性耳聋相关的代偿神经机制:分析先天性耳聋患者触觉处理的神经底层,并与听力对照组进行比较:我们的参与者包括 35 名先天性耳聋患者和 35 名听力对照者。所有参与者都参与了触觉辨别任务,包括通过触觉识别常见物体。我们使用了一套分析工具,包括基于体素的统计、功能连接多变量/体素模式分析(fc-MVPA)和基于种子的连接分析,以检查神经活动:我们的研究结果表明,先天性耳聋患者在通常与听觉处理相关的区域内有明显的神经活动,包括双侧颞上回、右侧颞中回和右侧喙突。此外,在右侧岛叶和双侧边际上回也观察到了独特的激活和连接模式,这表明触觉信息处理的神经通路发生了战略性重组。从行为上看,两组聋人在触觉任务中都表现出很高的准确性,都超过了90%。然而,聋人参与者在反应时间上优于听力参与者,这表明他们在触觉信息处理方面的效率显著提高:这些关于大脑通过补偿性神经重组对感官缺失的适应性的见解,凸显了在没有听觉输入的情况下增强触觉辨别能力的复杂机制。了解这些适应性有助于制定策略,利用大脑的可塑性改善感官障碍患者的感官处理能力,最终通过改善触觉感知和感觉整合提高他们的生活质量。
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来源期刊
Neurological Sciences
Neurological Sciences 医学-临床神经学
CiteScore
6.10
自引率
3.00%
发文量
743
审稿时长
4 months
期刊介绍: Neurological Sciences is intended to provide a medium for the communication of results and ideas in the field of neuroscience. The journal welcomes contributions in both the basic and clinical aspects of the neurosciences. The official language of the journal is English. Reports are published in the form of original articles, short communications, editorials, reviews and letters to the editor. Original articles present the results of experimental or clinical studies in the neurosciences, while short communications are succinct reports permitting the rapid publication of novel results. Original contributions may be submitted for the special sections History of Neurology, Health Care and Neurological Digressions - a forum for cultural topics related to the neurosciences. The journal also publishes correspondence book reviews, meeting reports and announcements.
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