Emily E. Abbene scite author profile

Age differences are well established for many memory tasks assessing both short-term and long-term memory. However, how age differences in performance vary with increasing delay between study and test is less clear. Here we report two experiments in which participants studied a continuous sequence of object-location pairings. Test events were intermixed such that participants were asked to recall the precise location of an object following a variable delay. Older adults exhibit a greater degree of error (distance between studied and recalled locations) relative to younger adults at short (0-2 intervening events) and longer delays (10-25 intervening events). Mixture modeling of the distribution of recall error suggests that older adults do not fail to recall information at a significantly higher rate than younger adults. Instead, what they do recall appears to be less precise. Follow up analyses demonstrate that this age difference emerges following only one or two intervening events between study and test. These findings are consistent with the suggestion that aging does not greatly impair recall from the focus of attention but age differences emerge once information is displaced from this highly accessible state. Further, we suggest that age differences in the precision of memory, but not the probability of successful recall, may be due to the use of more gist-like representations in this task.

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Motor control and learning in individuals with early-treated phenylketonuria.

Christ¹,

Abbene²,

Clocksin³

et al. 2021

Neuropsychology

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Objective: Although past studies have documented motor control impairments in individuals with early-treated phenylketonuria (ETPKU), much less is known regarding motor learning in ETPKU. The goal of the present study was to advance our understanding on this front. Method: We isolated and examined motor kinematics associated with the learning of a rapid aimed limb movement in a sample of 40 individuals (13-34 years of age) with ETPKU and a matched comparison group of 40 individuals without phenylketonuria (PKU). Indices of motor learning included overall movement duration as well as the relative proportion of movement time devoted to ballistic and corrective submovements. (Note that practice of motor movements in nonclinical populations is associated with, not only improvements in overall speed, but also reduction in the proportion of movement time devoted to corrective submovements relative to an initial ballistic submovement.) Results: A group-by-time interaction was found. With practice, the non-PKU group showed a significant reduction in the proportion of movement time devoted to the corrected (as compared to the ballistic) submovement. A similar change was not observed for the ETPKU group. In addition, within the ETPKU group, the rate of improvement in total movement duration was correlated with recent blood phenylalanine levels (an indicator of treatment adherence). Conclusions: Motor learning is adversely affected in individuals with ETPKU. Further investigation into the behavioral and neural mechanisms of motor learning in ETPKU will advance our understanding of the etiologic basis for this disruption as well as how it relates to the broader neurocognitive profile of ETPKU.

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The relationship between metabolic control and basal ganglia morphometry and function in individuals with early-treated phenylketonuria

Brown

Clocksin²,

Abbene³

et al. 2022

Molecular Genetics and Metabolism

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A comprehensive assessment of neurocognitive and psychological functioning in adults with early-treated phenylketonuria

Clocksin

Abbene

Christ

2022

J Int Neuropsychol Soc

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Objective: Relative to youth with early-treated phenylketonuria (ETPKU), much less is known regarding the cognitive profile of adults with ETPKU. The present study aimed to address this gap by providing a comprehensive assessment of neuropsychological functioning among adults with ETPKU. Method: A sample of 40 adults with ETPKU (ages 18 – 36) and a demographically matched group of 32 healthy individuals without PKU participated. Participants completed a comprehensive neuropsychological battery including the NIH Toolbox, Wechsler Abbreviated Scale of Intelligence – Second Edition (WASI-II), Conners’ Continuous Performance Test (CPT-3), select subtests from the Weschler Adult Intelligence Scale – Fourth Edition (WAIS-IV) as well as several self-report measures of cognitive and psychoemotional functioning. Scores from these tests were combined to create cognitive composites reflecting overall task performance in the areas of verbal ability, visuospatial skills, executive functioning, motor skills, and processing speed. Results: No group differences were observed for full scale IQ or verbal ability. However, individuals with ETPKU demonstrated poorer performance on measures of executive functioning, processing speed, motor skills, and visuospatial skills as compared to the non-PKU group. Within the ETPKU group, recent blood phenylalanine levels (an indicator of metabolic control) were significantly correlated with performance across most cognitive domains and aspects of psychological functioning. Conclusions: Present findings suggest that the neuropsychological profile of adult ETPKU is characterized by circumscribed impairments in select cognitive domains. In addition, the results underscore the importance of maintaining metabolic control across the lifespan in individuals with ETPKU.

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Motor Control and Learning in Individuals With Early-Treated Phenylketonuria

Christ

Abbene

Clocksin

et al. 2022

Molecular Genetics and Metabolism

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Emily E. Abbene

Age differences in the precision of memory at short and long delays.

Motor control and learning in individuals with early-treated phenylketonuria.

The relationship between metabolic control and basal ganglia morphometry and function in individuals with early-treated phenylketonuria

A comprehensive assessment of neurocognitive and psychological functioning in adults with early-treated phenylketonuria

Motor Control and Learning in Individuals With Early-Treated Phenylketonuria

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