Abstract
Multisensory integration is required for a number of daily living tasks where the inability to accurately identify simultaneity and temporality of multisensory events results in errors in judgment leading to poor decision-making and dangerous behavior. Previously, our lab discovered that older adults exhibited impaired timing of audiovisual events, particularly when making temporal order judgments (TOJs). Simultaneity judgments (SJs), however, were preserved across the lifespan. Here, we investigate the difference between the TOJ and SJ tasks in younger and older adults to assess neural processing differences between these two tasks and across the lifespan. Event-related potentials (ERPs) were studied to determine between-task and between-age differences. Results revealed task specific differences in perceiving simultaneity and temporal order, suggesting that each task may be subserved via different neural mechanisms. Here, auditory N1 and visual P1 ERP amplitudes confirmed that unisensory processing of audiovisual stimuli did not differ between the two tasks within both younger and older groups, indicating that performance differences between tasks arise either from multisensory integration or higher-level decision-making. Compared to younger adults, older adults showed a sustained higher auditory N1 ERP amplitude response across SOAs, suggestive of broader response properties from an extended temporal binding window. Our work provides compelling evidence that different neural mechanisms subserve the SJ and TOJ tasks and that simultaneity and temporal order perception are coded differently and change with age.
Highlights
The ability to integrate information from various sensory modalities is imperative for the optimal perception of external events
The paired t-tests revealed a significant difference in the Simultaneity judgments (SJs) point of subjective simultaneity (PSS) values (M = 126.40, SD = 36.14) and temporal order judgments (TOJs) PSS values (M = −20.45, SD = 115.98); [t(20) = 5.24, p < 0.001; Figure 4]
The t-tests revealed a significant difference between the SJ temporal binding window (TBW) (M = 238.48, SD = 72.05) and TOJ TBW values (M = 157.64, SD = 102.03); [t(20) = 4.96, p < 0.001; Figure 4]
Summary
The ability to integrate information from various sensory modalities is imperative for the optimal perception of external events. Setti et al (2011a) compared temporal order perception in younger and older adults using event-related potentials (ERPs) and determined that older participants had a smaller visual P1 amplitude than younger participants in the TOJ task. Overall our study is designed to determine whether both cortical and behavioral responses elicited by audiovisual simultaneity perception and temporal order discrimination differ among younger and older adults. To our knowledge, this is the first study that compares the neural correlates of younger and older adults obtained from the SJ and TOJ tasks
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