Your search keyword '"Elliott, Maxwell"' showing total 18 results

1. Test–retest reliability and predictive utility of a macroscale principal functional connectivity gradient.

Author

Knodt, Annchen R., Elliott, Maxwell L., Whitman, Ethan T., Winn, Alex, Addae, Angela, Ireland, David, Poulton, Richie, Ramrakha, Sandhya, Caspi, Avshalom, Moffitt, Terrie E., and Hariri, Ahmad R.

Subjects

STATISTICAL reliability, FUNCTIONAL connectivity, YOUNG adults, INDIVIDUAL differences, FUNCTIONAL magnetic resonance imaging

Abstract

Mapping individual differences in brain function has been hampered by poor reliability as well as limited interpretability. Leveraging patterns of brain‐wide functional connectivity (FC) offers some promise in this endeavor. In particular, a macroscale principal FC gradient that recapitulates a hierarchical organization spanning molecular, cellular, and circuit level features along a sensory‐to‐association cortical axis has emerged as both a parsimonious and interpretable measure of individual differences in behavior. However, the measurement reliabilities of this FC gradient have not been fully evaluated. Here, we assess the reliabilities of both global and regional principal FC gradient measures using test–retest data from the young adult Human Connectome Project (HCP‐YA) and the Dunedin Study. Analyses revealed that the reliabilities of principal FC gradient measures were (1) consistently higher than those for traditional edge‐wise FC measures, (2) higher for FC measures derived from general FC (GFC) in comparison with resting‐state FC, and (3) higher for longer scan lengths. We additionally examined the relative utility of these principal FC gradient measures in predicting cognition and aging in both datasets as well as the HCP‐aging dataset. These analyses revealed that regional FC gradient measures and global gradient range were significantly associated with aging in all three datasets, and moderately associated with cognition in the HCP‐YA and Dunedin Study datasets, reflecting contractions and expansions of the cortical hierarchy, respectively. Collectively, these results demonstrate that measures of the principal FC gradient, especially derived using GFC, effectively capture a reliable feature of the human brain subject to interpretable and biologically meaningful individual variation, offering some advantages over traditional edge‐wise FC measures in the search for brain–behavior associations. [ABSTRACT FROM AUTHOR]

Published

2023

2. Functional topography of the neocortex predicts covariation in complex cognitive and basic motor abilities.

Author

Whitman, Ethan T, Knodt, Annchen R, Elliott, Maxwell L, Abraham, Wickliffe C, Cheyne, Kirsten, Hogan, Sean, Ireland, David, Keenan, Ross, Leung, Joan H, Melzer, Tracy R, Poulton, Richie, Purdy, Suzanne C, Ramrakha, Sandhya, Thorne, Peter R, Caspi, Avshalom, Moffitt, Terrie E, and Hariri, Ahmad R

Published

2023

3. Improving risk indexes for Alzheimer's disease and related dementias for use in midlife.

Author

Reuben, Aaron, Moffitt, Terrie E., Abraham, Wickliffe C., Ambler, Antony, Elliott, Maxwell L., Hariri, Ahmad R., Harrington, Honalee, Hogan, Sean, Houts, Renate M., Ireland, David, Knodt, Annchen R., Leung, Joan, Pearson, Amber, Poulton, Richie, Purdy, Suzanne C., Ramrakha, Sandhya, Rasmussen, Line J. H., Sugden, Karen, Thorne, Peter R., and Williams, Benjamin

Published

2022

4. Association of Pace of Aging Measured by Blood-Based DNA Methylation With Age-Related Cognitive Impairment and Dementia.

Author

Sugden, Karen, Caspi, Avshalom, Elliott, Maxwell L., Bourassa, Kyle J., Chamarti, Kartik, Corcoran, David L., Hariri, Ahmad R., Houts, Renate M., Kothari, Meeraj, Kritchevsky, Stephen, Kuchel, George A., Mill, Jonathan S., Williams, Benjamin S., Belsky, Daniel W., Moffitt, Terrie E., and Alzheimer's Disease Neuroimaging Initiative*

Published

2022

5. Midlife Cardiovascular Fitness Is Reflected in the Brain's White Matter.

Author

d'Arbeloff, Tracy, Elliott, Maxwell L., Knodt, Annchen R., Sison, Maria, Melzer, Tracy R., Ireland, David, Ramrakha, Sandhya, Poulton, Richie, Caspi, Avshalom, Moffitt, Terrie E., and Hariri, Ahmad R.

Subjects

CARDIOVASCULAR fitness, WHITE matter (Nerve tissue), MIDDLE age, DIFFUSION magnetic resonance imaging, EXERCISE intensity

Abstract

Disappointing results from clinical trials designed to delay structural brain decline and the accompanying increase in risk for dementia in older adults have precipitated a shift in testing promising interventions from late in life toward midlife before irreversible damage has accumulated. This shift, however, requires targeting midlife biomarkers that are associated with clinical changes manifesting only in late life. Here we explored possible links between one putative biomarker, distributed integrity of brain white matter, and two intervention targets, cardiovascular fitness and healthy lifestyle behaviors, in midlife. At age 45, fractional anisotropy (FA) derived from diffusion weighted MRI was used to estimate the microstructural integrity of distributed white matter tracts in a population-representative birth cohort. Age-45 cardiovascular fitness (VO2Max; N = 801) was estimated from heart rates obtained during submaximal exercise tests; age-45 healthy lifestyle behaviors were estimated using the Nyberg Health Index (N = 854). Ten-fold cross-validated elastic net predictive modeling revealed that estimated VO2Max was modestly associated with distributed FA. In contrast, there was no significant association between Nyberg Health Index scores and FA. Our findings suggest that cardiovascular fitness levels, but not healthy lifestyle behaviors, are associated with the distributed integrity of white matter in the brain in midlife. These patterns could help inform future clinical intervention research targeting ADRDs. [ABSTRACT FROM AUTHOR]

Published

2021

6. Association Between Elevated suPAR, a New Biomarker of Inflammation, and Accelerated Aging.

Author

Rasmussen, Line Jee Hartmann, Caspi, Avshalom, Ambler, Antony, Danese, Andrea, Elliott, Maxwell, Eugen-Olsen, Jesper, Hariri, Ahmad R, Harrington, HonaLee, Houts, Renate, Poulton, Richie, Ramrakha, Sandhya, Sugden, Karen, Williams, Benjamin, and Moffitt, Terrie E

Subjects

HEALTH behavior, PLASMINOGEN activators, SMOKING cessation, PHYSICAL mobility, AGING, PSYCHOLOGICAL aspects of aging, RESEARCH, INFLAMMATION, RESEARCH methodology, CELL receptors, COGNITION, MEDICAL cooperation, EVALUATION research, COMPARATIVE studies, SOLUBILITY, INFLAMMATORY mediators, LONGITUDINAL method, BLOOD

Abstract

Background: To understand and measure the association between chronic inflammation, aging, and age-related diseases, broadly applicable standard biomarkers of systemic chronic inflammation are needed. We tested whether elevated blood levels of the emerging chronic inflammation marker soluble urokinase plasminogen activator receptor (suPAR) were associated with accelerated aging, lower functional capacity, and cognitive decline.Methods: We used data from the Dunedin Study, a population-representative 1972-1973 New Zealand birth cohort (n = 1037) that has observed participants to age 45 years. Plasma suPAR levels were analyzed at ages 38 and 45 years. We performed regression analyses adjusted for sex, smoking, C-reactive protein, and current health conditions.Results: Of 997 still-living participants, 875 (88%) had plasma suPAR measured at age 45. Elevated suPAR was associated with accelerated pace of biological aging across multiple organ systems, older facial appearance, and with structural signs of older brain age. Moreover, participants with higher suPAR levels had greater decline in physical function and cognitive function from childhood to adulthood compared to those with lower suPAR levels. Finally, improvements in health habits between ages 38 and 45 (smoking cessation or increased physical activity) were associated with less steep increases in suPAR levels over those years.Conclusions: Our findings provide initial support for the utility of suPAR in studying the role of chronic inflammation in accelerated aging and functional decline. [ABSTRACT FROM AUTHOR]

Published

2021

7. Pervasively Thinner Neocortex as a Transdiagnostic Feature of General Psychopathology.

Author

Romer, Adrienne L., Elliott, Maxwell L., Knodt, Annchen R., Sison, Maria L., Ireland, David, Houts, Renate, Ramrakha, Sandhya, Poulton, Richie, Keenan, Ross, Melzer, Tracy R., Moffitt, Terrie E., Caspi, Avshalom, and Hariri, Ahmad R.

Subjects

NEOCORTEX, MENTAL illness, SYMPTOMS, PSYCHIATRIC diagnosis, DIAGNOSIS, RESEARCH, RESEARCH methodology, EVALUATION research, COMPARATIVE studies, PATHOLOGICAL psychology, RESEARCH funding, LONGITUDINAL method

Abstract

Objective: Neuroimaging research has revealed that structural brain alterations are common across broad diagnostic families of disorders rather than specific to a single psychiatric disorder. Such overlap in the structural brain correlates of mental disorders mirrors already well-documented phenotypic comorbidity of psychiatric symptoms and diagnoses, which can be indexed by a general psychopathology or p factor. The authors hypothesized that if general psychopathology drives the convergence of structural alterations common across disorders, then 1) there should be few associations unique to any one diagnostic family of disorders, and 2) associations with the p factor should overlap with those for the broader diagnostic families.Methods: Analyses were conducted on structural MRI and psychopathology data collected from 861 members of the population-representative Dunedin Multidisciplinary Health and Development Study at age 45.Results: Study members with high scores across three broad diagnostic families of disorders (externalizing, internalizing, thought disorder) exhibited highly overlapping patterns of reduced global and widely distributed parcel-wise neocortical thickness. Study members with high p factor scores exhibited patterns of reduced global and parcel-wise neocortical thickness nearly identical to those associated with the three broad diagnostic families.Conclusions: A pattern of pervasively reduced neocortical thickness appears to be common across all forms of mental disorders and may represent a transdiagnostic feature of general psychopathology. As has been documented with regard to symptoms and diagnoses, the underlying brain structural correlates of mental disorders may not exhibit specificity, and the continued pursuit of such specific correlates may limit progress toward more effective strategies for etiological understanding, prevention, and intervention. [ABSTRACT FROM AUTHOR]

Published

2021

8. Childhood self-control forecasts the pace of midlife aging and preparedness for old age.

Author

Richmond-Rakerd, Leah S., Caspi, Avshalom, Ambler, Antony, d'Arbeloff, Tracy, de Bruine, Marieke, Elliott, Maxwell, Harrington, HonaLee, Hogan, Sean, Houts, Renate M., Ireland, David, Keenan, Ross, Knodt, Annchen R., Melzer, Tracy R., Park, Sena, Poulton, Richie, Ramrakha, Sandhya, Hartmann Rasmussen, Line Jee, Sack, Elizabeth, Schmidt, Adam T., and Sison, Maria L.

Subjects

AGING, MIDDLE age, OLD age, SELF-control, PREPAREDNESS

Abstract

The ability to control one's own emotions, thoughts, and behaviors in early life predicts a range of positive outcomes in later life, including longevity. Does it also predict how well people age? We studied the association between self-control and midlife aging in a population-representative cohort of children followed from birth to age 45 y, the Dunedin Study. We measured children's self-control across their first decade of life using a multi-occasion/multi-informant strategy. We measured their pace of aging and aging preparedness in midlife using measures derived from biological and physiological assessments, structural brain-imaging scans, observer ratings, self-reports, informant reports, and administrative records. As adults, children with better self-control aged more slowly in their bodies and showed fewer signs of aging in their brains. By midlife, these children were also better equipped to manage a range of later-life health, financial, and social demands. Associations with children's self-control could be separated from their social class origins and intelligence, indicating that self-control might be an active ingredient in healthy aging. Children also shifted naturally in their level of self-control across adult life, suggesting the possibility that self-control may be a malleable target for intervention. Furthermore, individuals' self-control in adulthood was associated with their aging outcomes after accounting for their self-control in childhood, indicating that midlife might offer another window of opportunity to promote healthy aging. [ABSTRACT FROM AUTHOR]

Published

2021

9. Association of Childhood Lead Exposure With MRI Measurements of Structural Brain Integrity in Midlife.

Author

Reuben, Aaron, Elliott, Maxwell L., Abraham, Wickliffe C., Broadbent, Jonathan, Houts, Renate M., Ireland, David, Knodt, Annchen R., Poulton, Richie, Ramrakha, Sandhya, Hariri, Ahmad R., Caspi, Avshalom, and Moffitt, Terrie E.

Subjects

PHYSIOLOGICAL effects of lead, BRAIN physiology, MAGNETIC resonance imaging, WHITE matter (Nerve tissue), COGNITIVE ability, BRAIN, RESEARCH, RESEARCH methodology, COGNITION, EVALUATION research, MEDICAL cooperation, COMPARATIVE studies, RESEARCH funding, LEAD, INTELLIGENCE tests, LONGITUDINAL method

Abstract

Importance: Childhood lead exposure has been linked to disrupted brain development, but long-term consequences for structural brain integrity are unknown.Objective: To test the hypothesis that childhood lead exposure is associated with magnetic resonance imaging (MRI) measurements of lower structural integrity of the brain in midlife.Design, Setting, and Participants: The Dunedin Study followed a population-representative 1972-1973 birth cohort in New Zealand (N = 564 analytic sample) to age 45 years (until April 2019).Exposures: Childhood blood lead levels measured at age 11 years.Main Outcomes and Measures: Structural brain integrity at age 45 years assessed via MRI (primary outcomes): gray matter (cortical thickness, surface area, hippocampal volume), white matter (white matter hyperintensities, fractional anisotropy [theoretical range, 0 {diffusion is perfectly isotropic} to 100 {diffusion is perfectly anisotropic}]), and the Brain Age Gap Estimation (BrainAGE), a composite index of the gap between chronological age and a machine learning algorithm-estimated brain age (0 indicates a brain age equivalent to chronological age; positive and negative values represent an older and younger brain age, respectively). Cognitive function at age 45 years was assessed objectively via the Wechsler Adult Intelligence Scale IV (IQ range, 40-160, standardized to a mean of 100 [SD, 15]) and subjectively via informant and self-reports (z-score units; scale mean, 0 [SD, 1]).Results: Of 1037 original participants, 997 were alive at age 45 years, of whom 564 (57%) had received lead testing at age 11 years (302 [54%] male) (median follow-up, 34 [interquartile range, 33.7-34.7] years). Mean blood lead level at age 11 years was 10.99 (SD, 4.63) μg/dL. After adjusting for covariates, each 5-μg/dL higher childhood blood lead level was significantly associated with 1.19-cm2 smaller cortical surface area (95% CI, -2.35 to -0.02 cm2; P = .05), 0.10-cm3 smaller hippocampal volume (95% CI, -0.17 to -0.03 cm3; P = .006), lower global fractional anisotropy (b = -0.12; 95% CI, -0.24 to -0.01; P = .04), and a BrainAGE index 0.77 years older (95% CI, 0.02-1.51 years; P = .05) at age 45 years. There were no statistically significant associations between blood lead level and log-transformed white matter hyperintensity volume (b = 0.05 log mm3; 95% CI, -0.02 to 0.13 log mm3; P = .17) or mean cortical thickness (b = -0.004 mm; 95% CI, -0.012 to 0.004 mm; P = .39). Each 5-μg/dL higher childhood blood lead level was significantly associated with a 2.07-point lower IQ score at age 45 years (95% CI, -3.39 to -0.74; P = .002) and a 0.12-point higher score on informant-rated cognitive problems (95% CI, 0.01-0.23; P = .03). There was no statistically significant association between childhood blood lead levels and self-reported cognitive problems (b = -0.02 points; 95% CI, -0.10 to 0.07; P = .68).Conclusions and Relevance: In this longitudinal cohort study with a median 34-year follow-up, higher childhood blood lead level was associated with differences in some MRI measures of brain structure that suggested lower structural brain integrity in midlife. Because of the large number of statistical comparisons, some findings may represent type I error. [ABSTRACT FROM AUTHOR]

Published

2020

10. Williams syndrome hemideletion and LIMK1 variation both affect dorsal stream functional connectivity.

Author

Gregory, Michael D, Mervis, Carolyn B, Elliott, Maxwell L, Kippenhan, J Shane, Nash, Tiffany, Czarapata, Jasmin B., Prabhakaran, Ranjani, Roe, Katherine, Eisenberg, Daniel P, Kohn, Philip D, Berman, Karen F, and B Czarapata, Jasmin

Subjects

WILLIAMS syndrome, FUSIFORM gyrus, FUNCTIONAL magnetic resonance imaging, GENETIC disorders, NEURAL circuitry, MAYER-Rokitansky-Kuster-Hauser syndrome, 22Q11 deletion syndrome, BRAIN function localization

Abstract

Williams syndrome is a rare genetic disorder caused by hemizygous deletion of ∼1.6 Mb affecting 26 genes on chromosome 7 (7q11.23) and is clinically typified by two cognitive/behavioural hallmarks: marked visuospatial deficits relative to verbal and non-verbal reasoning abilities and hypersocial personality. Clear knowledge of the circumscribed set of genes that are affected in Williams syndrome, along with the well-characterized neurobehavioural phenotype, offers the potential to elucidate neurogenetic principles that may apply in genetically and clinically more complex settings. The intraparietal sulcus, in the dorsal visual processing stream, has been shown to be structurally and functionally altered in Williams syndrome, providing a target for investigating resting-state functional connectivity and effects of specific genes hemideleted in Williams syndrome. Here, we tested for effects of the LIMK1 gene, deleted in Williams syndrome and important for neuronal maturation and migration, on intraparietal sulcus functional connectivity. We first defined a target brain phenotype by comparing intraparietal sulcus resting functional connectivity in individuals with Williams syndrome, in whom LIMK1 is hemideleted, with typically developing children. Then in two separate cohorts from the general population, we asked whether intraparietal sulcus functional connectivity patterns similar to those found in Williams syndrome were associated with sequence variation of the LIMK1 gene. Four independent between-group comparisons of resting-state functional MRI data (total n = 510) were performed: (i) 20 children with Williams syndrome compared to 20 age- and sex-matched typically developing children; (ii) a discovery cohort of 99 healthy adults stratified by LIMK1 haplotype; (iii) a replication cohort of 32 healthy adults also stratified by LIMK1 haplotype; and (iv) 339 healthy adolescent children stratified by LIMK1 haplotype. For between-group analyses, differences in intraparietal sulcus resting-state functional connectivity were calculated comparing children with Williams syndrome to matched typically developing children and comparing LIMK1 haplotype groups in each of the three general population cohorts separately. Consistent with the visuospatial construction impairment and hypersocial personality that typify Williams syndrome, the Williams syndrome cohort exhibited opposite patterns of intraparietal sulcus functional connectivity with visual processing regions and social processing regions: decreased circuit function in the former and increased circuit function in the latter. All three general population groups also showed LIMK1 haplotype-related differences in intraparietal sulcus functional connectivity localized to the fusiform gyrus, a visual processing region also identified in the Williams syndrome-typically developing comparison. These results suggest a neurogenetic mechanism, in part involving LIMK1, that may bias neural circuit function in both the general population and individuals with Williams syndrome. [ABSTRACT FROM AUTHOR]

Published

2019

11. A genome‐wide association study‐derived polygenic score for interleukin‐1β is associated with hippocampal volume in two samples.

Author

Avinun, Reut, Nevo, Adam, Knodt, Annchen R., Elliott, Maxwell L., and Hariri, Ahmad R.

Subjects

HIPPOCAMPUS (Brain), INTERLEUKIN-1, INTERLEUKIN-1 genetics, MONOGENIC & polygenic inheritance (Genetics)

Abstract

Accumulating research suggests that the pro‐inflammatory cytokine interleukin‐1β (IL‐1β) has a modulatory effect on the hippocampus, a brain structure important for learning and memory as well as linked with both psychiatric and neurodegenerative disorders. Here, we used an imaging genetics strategy to test an association between an IL‐1β polygenic score and hippocampal volume in two independent samples. Our polygenic score was derived using summary statistics from a recent genome‐wide association study of circulating cytokines that included IL‐1β (N = 3,309). In the first sample of 512 non‐Hispanic Caucasian university students (274 women, mean age 19.78 ± 1.24 years) from the Duke Neurogenetics Study, we identified a significant positive correlation between IL‐1β polygenic scores and hippocampal volume. This positive association was successfully replicated in a second sample of 7,960 white British volunteers (4,158 women, mean age 62.63 ± 7.45 years) from the UK Biobank. Our results lend further support in humans, to the link between IL‐1β and the structure of the hippocampus. [ABSTRACT FROM AUTHOR]

Published

2019

12. Polygenic Score for Higher Educational Attainment is Associated with Larger Brains.

Author

Elliott, Maxwell L, Belsky, Daniel W, Anderson, Kevin, Corcoran, David L, Ge, Tian, Knodt, Annchen, Prinz, Joseph A, Sugden, Karen, Williams, Benjamin, Ireland, David, Poulton, Richie, Caspi, Avshalom, Holmes, Avram, Moffitt, Terrie, and Hariri, Ahmad R

Published

2019

13. Microstructural integrity of white matter moderates an association between childhood adversity and adult trait anger.

Author

Kim, M. Justin, Elliott, Maxwell L., d'Arbeloff, Tracy C., Knodt, Annchen R., Radtke, Spenser R., Brigidi, Bartholomew D., and Hariri, Ahmad R.

Subjects

DIFFUSION magnetic resonance imaging, ANGER, CHILDREN, ANGER management, YOUNG adults, PREFRONTAL cortex

Abstract

Amongst a number of negative life sequelae associated with childhood adversity is the later expression of a higher dispositional tendency to experience anger and frustration to a wide range of situations (i.e., trait anger). We recently reported that an association between childhood adversity and trait anger is moderated by individual differences in both threat-related amygdala activity and executive control-related dorsolateral prefrontal cortex (dlPFC) activity, wherein individuals with relatively low amygdala and high dlPFC activity do not express higher trait anger even when having experienced childhood adversity. Here, we examine possible structural correlates of this functional dynamic using diffusion magnetic resonance imaging data from 647 young adult men and women volunteers. Specifically, we tested whether the degree of white matter microstructural integrity as indexed by fractional anisotropy modulated the association between childhood adversity and trait anger. Our analyses revealed that higher microstructural integrity of multiple pathways was associated with an attenuated link between childhood adversity and adult trait anger. Amongst these pathways was the uncinate fasciculus (UF; ΔR 2  = 0.01), which not only provides a major anatomical link between the amygdala and prefrontal cortex but also is associated with individual differences in regulating negative emotion through top-down cognitive reappraisal. These findings suggest that higher microstructural integrity of distributed white matter pathways including but not limited to the UF may represent an anatomical foundation serving to buffer against the expression of childhood adversity as later trait anger, which is itself associated with multiple negative health outcomes. [ABSTRACT FROM AUTHOR]

Published

2019

14. Reward-Related Ventral Striatum Activity Buffers against the Experience of Depressive Symptoms Associated with Sleep Disturbances.

Author

Avinun, Reut, Nevo, Adam, Knodt, Annchen R., Elliott, Maxwell L., Radtke, Spenser R., Brigidi, Bartholomew D., and Hariri, Ahmad R.

Subjects

SLEEP disorders, SLEEP disorders treatment, MENTAL depression, BRAIN, INSOMNIA, DISEASE risk factors

Abstract

Sleep disturbances represent one risk factor for depression. Reward-related brain function, particularly the activity of the ventral striatum (VS), has been identified as a potential buffer against stress-related depression. We were therefore interested in testing whether reward-related VS activity would moderate the effect of sleep disturbances on depression in a large cohort of young adults. Data were available from 1129 university students (mean age 19.71 ± 1.25 years; 637 women) who completed a reward-related functional MRI task to assay VS activity and provided self-reports of sleep using the Pittsburgh Sleep Quality Index and symptoms of depression using a summation of the General Distress/Depression and Anhedonic Depression subscales of the Mood and Anxiety Symptoms Questionnaireshort form. Analyses revealed that as VS activity increased the association between sleep disturbances and depressive symptoms decreased. The interaction between sleep disturbances and VS activity was robust to the inclusion of sex, age, race/ethnicity, past or present clinical disorder, early and recent life stress, and anxiety symptoms, as well as the interactions between VS activity and early or recent life stress as covariates. We provide initial evidence that high reward-related VS activity may buffer against depressive symptoms associated with poor sleep. Our analyses help advance an emerging literature supporting the importance of individual differences in reward-related brain function as a potential biomarker of relative risk for depression. [ABSTRACT FROM AUTHOR]

Published

2017

15. Stimulus Frequency Otoacoustic Emissions Provide No Evidence for the Role of Efferents in the Enhancement Effect.

Author

Beim, Jordan, Elliott, Maxwell, Oxenham, Andrew, Wojtczak, Magdalena, Beim, Jordan A, and Oxenham, Andrew J

Abstract

Auditory enhancement refers to the perceptual phenomenon that a target sound is heard out more readily from a background sound if the background is presented alone first. Here we used stimulus-frequency otoacoustic emissions (SFOAEs) to test the hypothesis that activation of the medial olivocochlear efferent system contributes to auditory enhancement effects. The SFOAEs were used as a tool to measure changes in cochlear responses to a target component and the neighboring components of a multitone background between conditions producing enhancement and conditions producing no enhancement. In the "enhancement" condition, the target and multitone background were preceded by a precursor stimulus with a spectral notch around the signal frequency; in the control (no-enhancement) condition, the target and multitone background were presented without the precursor. In an experiment using a wideband multitone stimulus known to produce significant psychophysical enhancement effects, SFOAEs showed no changes consistent with enhancement, but some aspects of the results indicated possible contamination of the SFOAE magnitudes by the activation of the middle-ear-muscle reflex. The same SFOAE measurements performed using narrower-band stimuli at lower sound levels also showed no SFOAE changes consistent with either absolute or relative enhancement despite robust psychophysical enhancement effects observed in the same listeners with the same stimuli. The results suggest that cochlear efferent control does not play a significant role in auditory enhancement effects. [ABSTRACT FROM AUTHOR]

Published

2015

16. Longitudinal Assessment of Mental Health Disorders and Comorbidities Across 4 Decades Among Participants in the Dunedin Birth Cohort Study.

Author

Caspi, Avshalom, Houts, Renate M., Ambler, Antony, Danese, Andrea, Elliott, Maxwell L., Hariri, Ahmad, Harrington, HonaLee, Hogan, Sean, Poulton, Richie, Ramrakha, Sandhya, Rasmussen, Line J. Hartmann, Reuben, Aaron, Richmond-Rakerd, Leah, Sugden, Karen, Wertz, Jasmin, Williams, Benjamin S., and Moffitt, Terrie E.

Published

2020

17. Functional connectivity predicts the dispositional use of expressive suppression but not cognitive reappraisal.

Author

Burr, Daisy A., d'Arbeloff, Tracy, Elliott, Maxwell L., Knodt, Annchen R., Brigidi, Bartholomew D., and Hariri, Ahmad R.

Published

2020

18. Association of Neurocognitive and Physical Function With Gait Speed in Midlife.

Author

Rasmussen, Line Jee Hartmann, Caspi, Avshalom, Ambler, Antony, Broadbent, Jonathan M., Cohen, Harvey J., d'Arbeloff, Tracy, Elliott, Maxwell, Hancox, Robert J., Harrington, HonaLee, Hogan, Sean, Houts, Renate, Ireland, David, Knodt, Annchen R., Meredith-Jones, Kim, Morey, Miriam C., Morrison, Lynda, Poulton, Richie, Ramrakha, Sandhya, Richmond-Rakerd, Leah, and Sison, Maria L.

Published

2019