The Role of Retinal Carotenoids and Age on Neuroelectric Indices of Attentional Control among Early to Middle-Aged Adults

The Role of Retinal Carotenoids and Age on Neuroelectric Indices of Attentional Control among Early to Middle-Aged Adults

One apparent consequence of aging appears to be loss of some aspects of cognitive control. This loss is measurable as early as mid-adulthood. Since, like many aspects of cognition, there is wide variance among individuals, it is possible that behavior, such as one’s diet, could drive some of these d...

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Main Authors: Anne M. Walk, Caitlyn G. Edwards, Nicholas W. Baumgartner, Morgan R. Chojnacki, Alicia R. Covello, Ginger E. Reeser, Billy R. Hammond, Lisa M. Renzi-Hammond, Naiman A. Khan
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-06-01
Series:Frontiers in Aging Neuroscience
Subjects:
cognitive aging
macular pigment optical density
lutein
carotenoids
event-related potentials
inhibition
Online Access:http://journal.frontiersin.org/article/10.3389/fnagi.2017.00183/full
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spelling doaj-419bc4d43601440980fed61f2b9e4b8e2020-11-24T23:24:00ZengFrontiers Media S.A.Frontiers in Aging Neuroscience1663-43652017-06-01910.3389/fnagi.2017.00183230503The Role of Retinal Carotenoids and Age on Neuroelectric Indices of Attentional Control among Early to Middle-Aged AdultsAnne M. Walk0Caitlyn G. Edwards1Nicholas W. Baumgartner2Morgan R. Chojnacki3Alicia R. Covello4Ginger E. Reeser5Billy R. Hammond6Lisa M. Renzi-Hammond7Naiman A. Khan8Naiman A. Khan9Naiman A. Khan10Department of Kinesiology and Community Health, University of Illinois at Urbana–ChampaignUrbana, IL, United StatesDivision of Nutritional Sciences, University of Illinois at Urbana–ChampaignUrbana, IL, United StatesDepartment of Kinesiology and Community Health, University of Illinois at Urbana–ChampaignUrbana, IL, United StatesDivision of Nutritional Sciences, University of Illinois at Urbana–ChampaignUrbana, IL, United StatesDepartment of Kinesiology and Community Health, University of Illinois at Urbana–ChampaignUrbana, IL, United StatesDepartment of Kinesiology and Community Health, University of Illinois at Urbana–ChampaignUrbana, IL, United StatesDepartment of Psychology, University of GeorgiaAthens, GA, United StatesDepartment of Psychology, University of GeorgiaAthens, GA, United StatesDepartment of Kinesiology and Community Health, University of Illinois at Urbana–ChampaignUrbana, IL, United StatesDivision of Nutritional Sciences, University of Illinois at Urbana–ChampaignUrbana, IL, United StatesNeuroscience Program, University of Illinois at Urbana–ChampaignUrbana, IL, United StatesOne apparent consequence of aging appears to be loss of some aspects of cognitive control. This loss is measurable as early as mid-adulthood. Since, like many aspects of cognition, there is wide variance among individuals, it is possible that behavior, such as one’s diet, could drive some of these differences. For instance, past data on older humans and non-human primates have suggested that dietary carotenoids could slow cognitive decline. In this study, we tested how early such protection might manifest by examining a sample (n = 60) of 25–45 year olds. Carotenoid status was assessed by directly measuring macular pigment optical density (MPOD) which has shown to be highly correlated with the primary carotenoid in brain, lutein. Cognitive control was measured using event-related potentials during the performance of cognitive control tasks designed to tap into different aspects of attentional (i.e., selective attention, attentional inhibition, and response inhibition) control. Our results showed that, across participants, MPOD was related to both age and the P3 component of participants’ neuroelectric profile (P3 amplitude) for attentional, but not response, inhibition. Although younger adults exhibited larger P3 amplitudes than their older adult counterparts, older subjects with higher MPOD levels displayed P3 indices similar to their younger adult counterparts in amplitude. Furthermore, hierarchical regression analyses showed that age was no longer a significant predictor of P3 amplitude when MPOD was included as a predictor in the model, suggesting that MPOD may partially contribute to the relationship between age and P3 amplitude. In addition, age and MPOD were shown to have independent associations with intraindividual variability of attentional control, such that younger individuals and individuals with higher MPOD showed less intraindividual variability. These results show a relationship between retinal carotenoids and neuroelectric indices underlying cognitive control. The protective role of carotenoids within the CNS may be evident during early and middle adulthood, decades prior to the onset of older age.http://journal.frontiersin.org/article/10.3389/fnagi.2017.00183/fullcognitive agingmacular pigment optical densityluteincarotenoidsevent-related potentialsinhibition
collection DOAJ
language English
format Article
sources DOAJ
author Anne M. Walk
Caitlyn G. Edwards
Nicholas W. Baumgartner
Morgan R. Chojnacki
Alicia R. Covello
Ginger E. Reeser
Billy R. Hammond
Lisa M. Renzi-Hammond
Naiman A. Khan
Naiman A. Khan
Naiman A. Khan
spellingShingle Anne M. Walk
Caitlyn G. Edwards
Nicholas W. Baumgartner
Morgan R. Chojnacki
Alicia R. Covello
Ginger E. Reeser
Billy R. Hammond
Lisa M. Renzi-Hammond
Naiman A. Khan
Naiman A. Khan
Naiman A. Khan
The Role of Retinal Carotenoids and Age on Neuroelectric Indices of Attentional Control among Early to Middle-Aged Adults
Frontiers in Aging Neuroscience
cognitive aging
macular pigment optical density
lutein
carotenoids
event-related potentials
inhibition
author_facet Anne M. Walk
Caitlyn G. Edwards
Nicholas W. Baumgartner
Morgan R. Chojnacki
Alicia R. Covello
Ginger E. Reeser
Billy R. Hammond
Lisa M. Renzi-Hammond
Naiman A. Khan
Naiman A. Khan
Naiman A. Khan
author_sort Anne M. Walk
title The Role of Retinal Carotenoids and Age on Neuroelectric Indices of Attentional Control among Early to Middle-Aged Adults
title_short The Role of Retinal Carotenoids and Age on Neuroelectric Indices of Attentional Control among Early to Middle-Aged Adults
title_full The Role of Retinal Carotenoids and Age on Neuroelectric Indices of Attentional Control among Early to Middle-Aged Adults
title_fullStr The Role of Retinal Carotenoids and Age on Neuroelectric Indices of Attentional Control among Early to Middle-Aged Adults
title_full_unstemmed The Role of Retinal Carotenoids and Age on Neuroelectric Indices of Attentional Control among Early to Middle-Aged Adults
title_sort role of retinal carotenoids and age on neuroelectric indices of attentional control among early to middle-aged adults
publisher Frontiers Media S.A.
series Frontiers in Aging Neuroscience
issn 1663-4365
publishDate 2017-06-01
description One apparent consequence of aging appears to be loss of some aspects of cognitive control. This loss is measurable as early as mid-adulthood. Since, like many aspects of cognition, there is wide variance among individuals, it is possible that behavior, such as one’s diet, could drive some of these differences. For instance, past data on older humans and non-human primates have suggested that dietary carotenoids could slow cognitive decline. In this study, we tested how early such protection might manifest by examining a sample (n = 60) of 25–45 year olds. Carotenoid status was assessed by directly measuring macular pigment optical density (MPOD) which has shown to be highly correlated with the primary carotenoid in brain, lutein. Cognitive control was measured using event-related potentials during the performance of cognitive control tasks designed to tap into different aspects of attentional (i.e., selective attention, attentional inhibition, and response inhibition) control. Our results showed that, across participants, MPOD was related to both age and the P3 component of participants’ neuroelectric profile (P3 amplitude) for attentional, but not response, inhibition. Although younger adults exhibited larger P3 amplitudes than their older adult counterparts, older subjects with higher MPOD levels displayed P3 indices similar to their younger adult counterparts in amplitude. Furthermore, hierarchical regression analyses showed that age was no longer a significant predictor of P3 amplitude when MPOD was included as a predictor in the model, suggesting that MPOD may partially contribute to the relationship between age and P3 amplitude. In addition, age and MPOD were shown to have independent associations with intraindividual variability of attentional control, such that younger individuals and individuals with higher MPOD showed less intraindividual variability. These results show a relationship between retinal carotenoids and neuroelectric indices underlying cognitive control. The protective role of carotenoids within the CNS may be evident during early and middle adulthood, decades prior to the onset of older age.
topic cognitive aging
macular pigment optical density
lutein
carotenoids
event-related potentials
inhibition
url http://journal.frontiersin.org/article/10.3389/fnagi.2017.00183/full
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