Overview
My research uses both mouse and rat models to
examine how nutrients and hormones alter the course of brain and behavioral development. For example, we find that supplementing or depleting nutrients like choline or folate from the maternal diet have long-term consequences on rats' memory function during early development, in adulthood, and into old age.
Specifically, choline supplementation appears to
improve memory while short periods of choline
deprivations during prenatal development appears to selectively impair attentional processes. A second line of research examines the effects of estrogen and other steroid hormones on brain and memory function across the lifespan. I am interested in both early developmental effects of estrogens (that is, the development of sex differences in cognition) as well as effects of replacement estrogens after reproductive
senescence. Recently our laboratory has begun to use various genetically altered strains of mice (knockouts and transgene) to examine how nutrients and hormones during development may interact with genotype to alter the development of learning and memory processes.
Current Appointments & Affiliations
Professor Emerita of Psychology and Neuroscience
·
2024 - Present
Psychology & Neuroscience,
Trinity College of Arts & Sciences
Faculty Network Member of the Duke Institute for Brain Sciences
·
2008 - Present
Duke Institute for Brain Sciences,
University Institutes and Centers
Education, Training & Certifications
Rutgers University ·
1981
Ph.D.