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Literature DB >> 21880908

Age-related changes in orienting attention in time.

Theodore P Zanto¹, Peter Pan, Helen Liu, Jacob Bollinger, Anna C Nobre, Adam Gazzaley.

Abstract

Temporal cues guide attentional resources toward relevant points in time, resulting in optimized behavioral performance. Although deficits in aspects of attention have been documented in older adults, it remains unknown whether the critical ability to orient attention in time is affected by normal aging. To address this, younger and older adults participated in a temporally cued target-response experiment while electroencephalographic data were recorded. Three conditions (one detection and two discrimination tasks) were used to manipulate task complexity. Response times show that younger adults, but not older adults, used temporal cues to enhance performance regardless of task complexity. Similarly, alpha band activity (8-12 Hz) and the contingent negative variation preceding targets indicated that only younger adults engaged prestimulus, anticipatory neural mechanisms associated with temporal cues. Overall, these results provide novel evidence that older adults do not use temporal cues to orient attention in time and support an expectation deficit in normal aging.

Entities: Disease Gene Species

Mesh：

Year: 2011 PMID： 21880908 PMCID： PMC3205974 DOI： 10.1523/JNEUROSCI.1149-11.2011

Source DB: PubMed Journal: J Neurosci ISSN： 0270-6474 Impact factor: 6.167

61 in total

1. Oscillatory gamma activity in humans and its role in object representation.

Authors:
Journal: Trends Cogn Sci Date: 1999-04 Impact factor: 20.229

2. Scalp-recorded Bereitschaftspotential is the result of the activity of cortical and subcortical generators--a hypothesis.

Authors: Ivan Rektor
Journal: Clin Neurophysiol Date: 2002-12 Impact factor: 3.708

Age-related changes in orienting attention in time.

1. Oscillatory gamma activity in humans and its role in object representation.

2. Scalp-recorded Bereitschaftspotential is the result of the activity of cortical and subcortical generators--a hypothesis.

3. An expectation-based memory deficit in aging.

4. Alpha rhythm of the EEG modulates visual detection performance in humans.

5. Relationship between CNV and timing of an upcoming event.

6. Orienting attention to points in time improves stimulus processing both within and across modalities.

7. Age-related top-down suppression deficit in the early stages of cortical visual memory processing.

8. Motor and non-motor components of the Contingent Negative Variation.

9. Selective attention to color and location: an analysis with event-related brain potentials.

10. Shifts in gamma phase-amplitude coupling frequency from theta to alpha over posterior cortex during visual tasks.

1. Examining the expectation deficit in normal aging.

2. Differential age-related changes in localizing a target among distractors across an extended visual field.

3. Learning temporal context shapes prestimulus alpha oscillations and improves visual discrimination performance.

4. Lost in transition: aging-related changes in executive control by the medial prefrontal cortex.

5. Predictive cues and age-related declines in working memory performance.

6. 'Time-shrinking perception' in the visual system: a psychophysical and high-density ERP study.

7. Infra-slow EEG fluctuations are correlated with resting-state network dynamics in fMRI.

8. Combining spatial and temporal expectations to improve visual perception.

9. Effects of aging on temporal predictive mechanisms of speech and hand motor reaction time.

10. Older adults, unlike younger adults, do not modulate alpha power to suppress irrelevant information.