Department of Cognitive Neuroscience, Faculty of Psychology and Neuroscience, Maastricht University, 6200 MD Maastricht, The Netherlands.
J Neurosci. 2011 Feb 2;31(5):1715-20. doi: 10.1523/JNEUROSCI.4572-10.2011.
The confounding of physical stimulus characteristics and perceptual interpretations of stimuli poses a problem for most neuroscientific studies of perception. In the auditory domain, this pertains to the entanglement of acoustics and percept. Traditionally, most study designs have relied on cognitive subtraction logic, which demands the use of one or more comparisons between stimulus types. This does not allow for a differentiation between effects due to acoustic differences (i.e., sensation) and those due to conscious perception. To overcome this problem, we used functional magnetic resonance imaging (fMRI) in humans and pattern-recognition analysis to identify activation patterns that encode the perceptual interpretation of physically identical, ambiguous sounds. We show that it is possible to retrieve the perceptual interpretation of ambiguous phonemes-information that is fully subjective to the listener-from fMRI measurements of brain activity in auditory areas in the superior temporal cortex, most prominently on the posterior bank of the left Heschl's gyrus and sulcus and in the adjoining left planum temporale. These findings suggest that, beyond the basic acoustic analysis of sounds, constructive perceptual processes take place in these relatively early cortical auditory networks. This disagrees with hierarchical models of auditory processing, which generally conceive of these areas as sets of feature detectors, whose task is restricted to the analysis of physical characteristics and the structure of sounds.
物理刺激特征与刺激知觉解释的混淆给大多数知觉的神经科学研究带来了问题。在听觉领域,这涉及到声学和知觉的纠缠。传统上,大多数研究设计都依赖于认知减法逻辑,这需要在刺激类型之间进行一次或多次比较。这并不允许区分由于声学差异(即感觉)和由于有意识知觉引起的影响。为了克服这个问题,我们在人类中使用功能磁共振成像(fMRI)和模式识别分析来识别编码物理上相同、模棱两可的声音的知觉解释的激活模式。我们表明,有可能从颞上皮层的听觉区域的 fMRI 测量中检索到对物理上相同的、模棱两可的音素的知觉解释,而这种解释完全是听众的主观感受。最明显的是在左侧赫希氏回和沟的后缘以及相邻的左侧颞平面上。这些发现表明,在声音的基本声学分析之外,建设性的知觉过程发生在这些相对较早的皮质听觉网络中。这与听觉处理的层次模型不一致,该模型通常将这些区域视为特征检测器的集合,其任务仅限于分析物理特征和声音的结构。