Your search keyword '"Kathleen M. Thomas"' showing total 8 results

1. Hot executive function following moderate-to-late preterm birth: altered delay discounting at 4 years of age

Author

Kathleen M. Thomas, Amanda S. Hodel, Jane E. Brumbaugh, and Alyssa R. Morris

Subjects

medicine.medical_specialty, Delay discounting, Cognitive Neuroscience, Gestational age, Academic achievement, Audiology, medicine.disease, Child development, Developmental psychology, 03 medical and health sciences, 0302 clinical medicine, Premature birth, 030225 pediatrics, Developmental and Educational Psychology, medicine, Gestation, Orbitofrontal cortex, Prefrontal cortex, Psychology, 030217 neurology & neurosurgery

Abstract

Interest in monitoring long-term neurodevelopmental outcomes of children born moderate-to-late preterm (32-36 weeks gestation) is increasing. Moderate-to-late preterm birth has a negative impact on academic achievement, which may relate to differential development of executive function (EF). Prior studies reporting deficits in EF in preterm children have almost exclusively assessed EF in affectively neutral contexts in high-risk preterm children (< 32 weeks gestation). Disrupted function in motivational or emotionally charged contexts (hot EF) following preterm birth remains uninvestigated, despite evidence that preterm children show differential development of neural circuitry subserving hot EF, including reduced orbitofrontal cortex volume. The present study is the first to examine whether low-risk, healthy children born moderate-to-late preterm exhibit impairments in the development of hot EF. Preterm children at age 4.5 years were less likely to choose larger, delayed rewards across all levels of reward magnitude on a delay discounting task using tangible rewards, but performed more similarly to their full-term peers on a delay aversion task involving abstract rewards and on measures of cool EF. The relationship between gestational age at birth and selection of delayed rewards extended across the entire gestational age range of the sample (32-42 weeks), and remained significant after controlling for intelligence and processing speed. Results imply that there is not a finite cut-off point at which children are spared from potential long-term neurodevelopmental effects of PT birth. Further investigation of reward processing and hot EF in individuals with a history of PT birth is warranted given the susceptibility of prefrontal cortex development to early environmental variations.

Published

2015

2. Contributions of COMT Val158Met to cognitive stability and flexibility in infancy

Author

Kathleen M. Thomas, Dante Cicchetti, Susan R Hetzel, and Julie Markant

Subjects

Male, Genotype, Cognitive Neuroscience, media_common.quotation_subject, Mutation, Missense, Models, Psychological, Stimulus (physiology), Catechol O-Methyltransferase, Article, Cognition, Developmental and Educational Psychology, Humans, Learning, Habituation, Habituation, Psychophysiologic, media_common, Catechol-O-methyl transferase, Novelty, Cognitive flexibility, Infant, Self-control, Infant Behavior, Female, Temperament, Psychology, Psychomotor Performance, Cognitive psychology

Abstract

Adaptive behavior requires focusing on relevant tasks while remaining sensitive to novel information. In adult studies of cognitive control, cognitive stability involves maintaining robust cognitive representations while cognitive flexibility involves updating of representations in response to novel information. Previous adult research has shown that the Met allele of the COMT Val(158) Met gene is associated with enhanced cognitive stability whereas the Val allele is associated with enhanced cognitive flexibility. Here we propose that the stability/flexibility framework can also be applied to infant research, with stability mapping onto early indices of behavioral regulation and flexibility mapping onto indices of behavioral reactivity. From this perspective, the present study examined whether COMT genotype was related to 7-month-old infants' reactivity to novel stimuli and behavioral regulation. Cognitive stability and flexibility were assessed using (1) a motor approach task, (2) a habituation task, and (3) a parental-report measure of temperament. Val carriers were faster to reach for novel toys during the motor approach task and received higher scores on the temperament measure of approach to novelty. Met carriers showed enhanced dishabituation to the novel stimulus during the habituation task and received higher scores on the temperament measures of sustained attention and behavioral regulation. Overall, these results are consistent with adult research suggesting that the Met and Val alleles are associated with increased cognitive stability and flexibility, respectively, and thus suggest that COMT genotype may similarly affect cognitive function in infancy.

Published

2014

3. Medial temporal lobe memory in childhood: developmental transitions

Author

Elise L. Townsend, Kathleen M. Thomas, Vanessa Vogel-Farley, and Jenny L. Richmond

Subjects

Eyewitness memory (child testimony), Cognitive Neuroscience, Developmental and Educational Psychology, Statistical relational learning, Explicit memory, Semantic memory, Early childhood, Childhood memory, Psychology, Child development, Cognitive psychology, Temporal lobe

Abstract

The medial temporal lobes (MTL) support declarative memory and mature structurally and functionally during the postnatal years in humans. Although recent work has addressed the development of declarative memory in early childhood, less is known about continued development beyond this period of time. The purpose of this investigation was to explore MTL-dependent memory across middle childhood. Children (6 – 10 years old) and adults completed two computerized tasks, place learning (PL) and transitive inference (TI), that each examined relational memory, as well as the flexible use of relational learning. Findings suggest that the development of relational memory precedes the development of the ability to use relational knowledge flexibly in novel situations. Implications for the development of underlying brain areas and ideas for future neuroimaging investigations are discussed.

Published

2010

4. Prolonged institutional rearing is associated with atypically large amygdala volume and difficulties in emotion regulation

Author

Alexander J. Millner, B. J. Casey, Matthew C. Davidson, Kathleen M. Thomas, Margaret Altemus, Peter J. Freed, Adriana Galván, Nim Tottenham, Thomas McCarry, Tara Gilhooly, Todd A. Hare, Brian T. Quinn, Marcella Nurse, Elizabeth S. Booma, Jane Aronson, Inge-Marie Eigsti, and Megan R. Gunnar

Subjects

medicine.medical_specialty, Facial expression, Neurology, Cognitive Neuroscience, medicine.disease, Amygdala, Brain mapping, Child development, Developmental psychology, medicine.anatomical_structure, Developmental and Educational Psychology, medicine, Anxiety, medicine.symptom, Psychology, Child Behavior Checklist, Anxiety disorder

Abstract

Early adversity, for example poor caregiving, can have profound effects on emotional development. Orphanage rearing, even in the best circumstances, lies outside of the bounds of a species-typical caregiving environment. The long-term effects of this early adversity on the neurobiological development associated with socio-emotional behaviors are not well understood. Seventy-eight children, who include those who have experienced orphanage care and a comparison group, were assessed. Magnetic resonance imaging (MRI) was used to measure volumes of whole brain and limbic structures (e.g. amygdala, hippocampus). Emotion regulation was assessed with an emotional go-nogo paradigm, and anxiety and internalizing behaviors were assessed using the Screen for Child Anxiety Related Emotional Disorders, the Child Behavior Checklist, and a structured clinical interview. Late adoption was associated with larger corrected amygdala volumes, poorer emotion regulation, and increased anxiety. Although more than 50% of the children who experienced orphanage rearing met criteria for a psychiatric disorder, with a third having an anxiety disorder, the group differences observed in amygdala volume were not driven by the presence of an anxiety disorder. The findings are consistent with previous reports describing negative effects of prolonged orphanage care on emotional behavior and with animal models that show long-term changes in the amygdala and emotional behavior following early postnatal stress. These changes in limbic circuitry may underlie residual emotional and social problems experienced by children who have been internationally adopted.

Published

2010

5. A neural basis for the development of inhibitory control

Author

Kathleen M. Thomas, B. J. Casey, Sarah Durston, Robert D. Zimmerman, Aziz M. Uluğ, and Yihong Yang

Subjects

Behavioral response, Functional neuroimaging, Cognitive Neuroscience, Inhibitory control, Developmental and Educational Psychology, Cognition, Psychology, Neuroscience, Response inhibition

Abstract

The present study explores the neural basis of the development of inhibitory control by combining functional neuroimaging with a parametric manipulation of a go-nogo paradigm. We demonstrate how the maturation of ventral fronto-striatal circuitry underlies the development of this ability. We used event-related fMRI to examine the effect of interference on neural processes involved in inhibitory control in children and adults. Nogo trials were preceded by either 1, 3 or 5 go trials and then compared to one another. Both children and adults showed an increase in errors with increasing interference. Successful response inhibition was associated with stronger activation of prefrontal and parietal regions for children than for adults. In adults, activation in ventral prefrontal regions increased with increasing interference from go trials. Unlike adults, the circuitry appeared to be maximally activated in children when suppressing a behavioral response regardless of the number of preceding responses. Furthermore, activation in ventral fronto-striatal regions correlated with both age and performance. These findings suggest that immature cognition is more susceptible to interference and this is paralleled by maturational differences in underlying fronto-striatal circuitry.

Published

2002

6. Applications of ERP and fMRI techniques to developmental science

Author

Kathleen M. Thomas and Michelle de Haan

Subjects

Brain activation, genetic structures, medicine.diagnostic_test, Cognitive Neuroscience, Combined use, Fusiform face area, Developmental Science, Spatial memory, Neural activity, Functional brain, Developmental and Educational Psychology, medicine, Functional magnetic resonance imaging, Psychology, Neuroscience, Cognitive psychology

Abstract

Event-related potentials (ERPs) and functional magnetic resonance imaging are both measures of functional brain activation that have been applied to developmental questions. However, the two measures are not identical and reflect different aspects of neuronal function at a physiological level. There is increasing interest in using these methods in combination because of the complementary information they provide about brain activation. ERPs provide more detailed information about the timing of neural activity, while fMRI provides more detailed information about its spatial location. Thus, their combined use may provide more detailed spatio-temporal information than either method alone. In this paper, we review the basic principles of ERP and fMRI and present selected studies from our own work to illustrate their strengths for studies of development. In addition, we discuss the potential benefits and special challenges of the combined use of electrophysiological and functional MRI techniques.

Published

2002

7. Prolonged institutional rearing is associated with atypically large amygdala volume and difficulties in emotion regulation

Author

Nim, Tottenham, Todd A, Hare, Brian T, Quinn, Thomas W, McCarry, Marcella, Nurse, Tara, Gilhooly, Alexander, Millner, Adriana, Galvan, Matthew C, Davidson, Inge-Marie, Eigsti, Kathleen M, Thomas, Peter J, Freed, Elizabeth S, Booma, Megan R, Gunnar, Margaret, Altemus, Jane, Aronson, and B J, Casey

Subjects

Male, Analysis of Variance, Brain Mapping, Adolescent, Emotions, Age Factors, Orphanages, Child Behavior Disorders, Neuropsychological Tests, Amygdala, Magnetic Resonance Imaging, Article, Checklist, Facial Expression, Surveys and Questionnaires, Adaptation, Psychological, Adoption, Image Processing, Computer-Assisted, Humans, Female, Child, Photic Stimulation

Abstract

Early adversity, for example poor caregiving, can have profound effects on emotional development. Orphanage rearing, even in the best circumstances, lies outside of the bounds of a species-typical caregiving environment. The long-term effects of this early adversity on the neurobiological development associated with socio-emotional behaviors are not well understood. Seventy-eight children, who include those who have experienced orphanage care and a comparison group, were assessed. Magnetic resonance imaging (MRI) was used to measure volumes of whole brain and limbic structures (e.g., amygdala, hippocampus). Emotion regulation was assessed with an emotional go-nogo paradigm, and anxiety and internalizing behaviors were assessed using the Screen for Child Anxiety Related Emotional Disorders, the Child Behavior Checklist, and a structured clinical interview. Late adoption was associated with larger corrected amygdala volumes, poorer emotion regulation, and increased anxiety. Although more than 50% of the children who experienced orphanage rearing met criteria for a psychiatric disorder, with a third having an anxiety disorder, the group differences observed in amygdala volume were not driven by the presence of an anxiety disorder. The findings are consistent with previous reports describing negative effects of prolonged orphanage care on emotional behavior and with animal models that show long term changes in the amygdala and emotional behavior following early postnatal stress. These changes in limbic circuitry may underlie residual emotional and social problems experienced by children who have been internationally adopted.

Published

2010

8. Early development of subcortical regions involved in non-cued attention switching

Author

Jeffrey M. Halperin, Nim Tottenham, Adriana Galván, Matthew C. Davidson, Antigona Martinez, Kathleen M. Thomas, B. J. Casey, Claudia Rodríguez-Aranda, and Yuko Hara

Subjects

Adult, Male, Visual perception, Adolescent, Brain activity and meditation, Cognitive Neuroscience, Caudate nucleus, Stimulus (physiology), Child Development, Task Performance and Analysis, Developmental and Educational Psychology, medicine, Humans, Attention, Child, Cued speech, Cerebral Cortex, medicine.diagnostic_test, Attentional control, Cognition, Magnetic Resonance Imaging, Female, Caudate Nucleus, Functional magnetic resonance imaging, Psychology, Neuroscience

Abstract

This study examined the cognitive and neural development of attention switching using a simple forced-choice attention task and functional magnetic resonance imaging. Fourteen children and adults made discriminations among stimuli based on either shape or color. Performance on these trials was compared to performance during blocked trials requiring all color or all shape discriminations. Magnetic resonance echo planar images were acquired during performance of the task. Both children and adults showed robust bilateral activity of the caudate nucleus when switching attention between color and shape discriminations that correlated negatively with mean response latency on these trials. However, neither switching costs nor caudate activity correlated with age, suggesting early development of the underlying neural circuitry involved in switching between salient stimulus sets. Overall, children and adults differed in performance and patterns of brain activity on the task, with adults responding more accurately and faster than children, and recruiting more prefrontal and parietal regions. These results suggest an important role of subcortical regions (i.e. caudate nucleus) in non-cued attention switching, with increasing recruitment of cortical regions with age.

Published

2004