Yucel Gunes, Petty Christopher, McCarthy Gregory, Belger Aysenil
Duke University Medical Center, Durham, NC, USA.
J Cogn Neurosci. 2005 Dec;17(12):1819-28. doi: 10.1162/089892905775008698.
Previous studies suggested that auditory change-specific neural responses are attention-independent and reflect central auditory processing. The automaticity of the brain's response to infrequent changes in pitch within a series of auditory tone pips was examined in parallel functional magnetic resonance imaging (fMRI) and event-related potential (ERP) studies. Subjects performed a continuous perceptual-motor visual tracking task at two levels of difficulty while simultaneously hearing a series of task-irrelevant standard tone pips and infrequent pitch-deviant tones. fMRI results revealed that the unattended pitch-deviant tones strongly activated superior temporal and frontal cortical regions. These activations were significantly modulated by the tracking difficulty of the primary task. ERP results revealed that the amplitude of the scalp-negative component evoked by deviant tones (MMN) was attenuated during the more difficult tracking task. Our results demonstrate that the brain's response to task-irrelevant sensory changes is strongly influenced by intermodal attentional demands.
先前的研究表明,听觉变化特异性神经反应与注意力无关,反映了中枢听觉处理过程。在并行功能磁共振成像(fMRI)和事件相关电位(ERP)研究中,对大脑对一系列听觉音调短音中不常见音调变化的自动反应进行了研究。受试者在两种难度水平下执行连续的感知运动视觉跟踪任务,同时听到一系列与任务无关的标准音调短音和不常见的音调偏差音。fMRI结果显示,未被注意的音调偏差音强烈激活了颞上和额叶皮质区域。这些激活受到主要任务跟踪难度的显著调节。ERP结果显示,在更困难的跟踪任务中,偏差音诱发的头皮负性成分(MMN)的幅度减弱。我们的结果表明,大脑对与任务无关的感觉变化的反应受到多模态注意力需求的强烈影响。