Abstract
Selective attention is the mechanism that allows focusing one’s attention on a particular stimulus while filtering out a range of other stimuli, for instance, on a single conversation in a noisy room. Attending to one sound source rather than another changes activity in the human auditory cortex, but it is unclear whether attention to different acoustic features, such as voice pitch and speaker location, modulates subcortical activity. Studies using a dichotic listening paradigm indicated that auditory brainstem processing may be modulated by the direction of attention. We investigated whether endogenous selective attention to one of two speech signals affects amplitude and phase locking in auditory brainstem responses when the signals were either discriminable by frequency content alone, or by frequency content and spatial location. Frequency-following responses to the speech sounds were significantly modulated in both conditions. The modulation was specific to the task-relevant frequency band. The effect was stronger when both frequency and spatial information were available. Patterns of response were variable between participants, and were correlated with psychophysical discriminability of the stimuli, suggesting that the modulation was biologically relevant. Our results demonstrate that auditory brainstem responses are susceptible to efferent modulation related to behavioral goals. Furthermore they suggest that mechanisms of selective attention actively shape activity at early subcortical processing stages according to task relevance and based on frequency and spatial cues.
Highlights
Selective attention is the ability to focus cognitive resources on sensory information that is relevant to the current goal or task [1]
We investigated whether endogenous selective attention affects the auditory brainstem frequency-following response (FFR), using a pitch discrimination task, with a 262 factorial design in a constant stimulus paradigm
Spectral Power of frequency following response (FFR) is Modulated by Attention We were able to record sound-evoked potentials from the brainstem with an average signal-to-noise ratio of about 16 dB, (Fig. 2, upper panel)
Summary
Selective attention is the ability to focus cognitive resources on sensory information that is relevant to the current goal or task [1]. An example in the auditory domain is the so-called cocktail party phenomenon [2] – the ability to attend to one of several talkers in a noisy environment Such ability is made possible because different speakers can be identified by different conjunctions of auditory cues, such as spatial location and frequency content over time. Empirical evidence, both from anatomical and functional studies suggest that spatial and non-spatial auditory features are processed by distinct neural pathways [3]. Selective attention is known to modulate activity in early sensory cortices and in the human thalamus [6,7]. An important theoretical and empirical question concerns the earliest sensory processing stage at which activity is modulated by attention
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