Journal
GEROSCIENCE
Volume -, Issue -, Pages -Publisher
SPRINGER
DOI: 10.1007/s11357-023-00834-1
Keywords
Pupillary responses; Aging; Attention; Locus coeruleus; Orienting
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The cognitive aging process is not necessarily linear. Task-evoked pupillary responses may serve as an index of cognitive aging, as they vary with age. The locus coeruleus (LC) in the brainstem supports attention and pupillary behaviors, and is among the earliest sites of degeneration in pathological aging. A study on 75 adults showed age-related changes in pupillary responses, including decreases in pupillary diameter and dynamic range, and curvilinear phasic responses to behaviorally relevant stimuli that increased in middle-aged group and then decreased in the older group. Moreover, the older group showed decreased differentiation of pupillary responses between target and distractor events, suggesting potential compensatory LC activity in midlife that diminishes in old age.
The cognitive aging process is not necessarily linear. Central task-evoked pupillary responses, representing a brainstem-pupil relationship, may vary across the lifespan. Thus we examined, in 75 adults ranging in age from 19 to 86, whether task-evoked pupillary responses to an attention task may serve in as an index of cognitive aging. This is because the locus coeruleus (LC), located in the brainstem, is not only among the earliest sites of degeneration in pathological aging, but also supports both attentional and pupillary behaviors. We assessed brief, task-evoked phasic attentional orienting to behaviorally relevant and irrelevant auditory tones, stimuli known specifically to recruit the LC in the brainstem and evoke pupillary responses. Due to potential nonlinear changes across the lifespan, we used a novel data-driven analysis on 6 dynamic pupillary behaviors on 10% of the data to reveal cut off points that best characterized the three age bands: young (19-41 years old), middle aged (42-68 years old), and older adults (69 + years old). Follow-up analyses on independent data, the remaining 90%, revealed age-related changes such as monotonic decreases in tonic pupillary diameter and dynamic range, along with curvilinear phasic pupillary responses to the behaviorally relevant target events, increasing in the middle-aged group and then decreasing in the older group. Additionally, the older group showed decreased differentiation of pupillary responses between target and distractor events. This pattern is consistent with potential compensatory LC activity in midlife that is diminished in old age, resulting in decreased adaptive gain. Beyond regulating responses to light, pupillary dynamics reveal a nonlinear capacity for neurally mediated gain across the lifespan, thus providing evidence in support of the LC adaptive gain hypothesis.
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