Honors & Awards

  • Ruth L. Kirschstein National Research Service Award (F32HD080367), NIH/NICHD (2015-present)
  • Postdoctoral Fellowship, Children's Health Research Institute (2014-2015)

Professional Education

  • Bachelor of Science, Lehigh University (2003)
  • Doctor of Philosophy, Georgetown University (2013)

Stanford Advisors

Research & Scholarship


All Publications

  • Imaging Studies of Reading and Reading Disability Brain Mapping: An Encyclopedic Reference Eden, G. F., Olulade, O. A., Evans, T. M., Krafnick, A. J., Alkire, D. R. edited by Toga, A. W. Elsevier. 2015; 1: 571-578
  • The functional anatomy of single-digit arithmetic in children with developmental dyslexia NEUROIMAGE Evans, T. M., Flowers, D. L., Napoliello, E. M., Olulade, O. A., Eden, G. F. 2014; 101: 644-652


    Some arithmetic procedures, such as addition of small numbers, rely on fact retrieval mechanisms supported by left hemisphere perisylvian language areas, while others, such as subtraction, rely on procedural-based mechanisms subserved by bilateral parietal cortices. Previous work suggests that developmental dyslexia, a reading disability, is accompanied by subtle deficits in retrieval-based arithmetic, possibly because of compromised left hemisphere function. To test this prediction, we compared brain activity underlying arithmetic problem solving in children with and without dyslexia during addition and subtraction operations using a factorial design. The main effect of arithmetic operation (addition versus subtraction) for both groups combined revealed activity during addition in the left superior temporal gyrus and activity during subtraction in the bilateral intraparietal sulcus, the right supramarginal gyrus and the anterior cingulate, consistent with prior studies. For the main effect of diagnostic group (dyslexics versus controls), we found less activity in dyslexic children in the left supramarginal gyrus. Finally, the interaction analysis revealed that while the control group showed a strong response in the right supramarginal gyrus for subtraction but not for addition, the dyslexic group engaged this region for both operations. This provides physiological evidence in support of the theory that children with dyslexia, because of disruption to left hemisphere language areas, use a less optimal route for retrieval-based arithmetic, engaging right hemisphere parietal regions typically used by good readers for procedural-based arithmetic. Our results highlight the importance of language processing for mathematical processing and illustrate that children with dyslexia have impairments that extend beyond reading.

    View details for DOI 10.1016/j.neuroimage.2014.07.028

    View details for Web of Science ID 000344931800058

    View details for PubMedID 25067820

  • From student to steward: the Interdisciplinary Program in Neuroscience at Georgetown University as a case study in professional development during doctoral training. Medical education online Ullrich, L., Dumanis, S. B., Evans, T. M., Jeannotte, A. M., Leonard, C., Rozzi, S. J., Taylor, C. M., Gale, K., Kanwal, J. S., Maguire-Zeiss, K. A., Wolfe, B. B., Forcelli, P. A. 2014; 19: 22623


    A key facet of professional development is the formation of professional identity. At its most basic level, professional identity for a scientist centers on mastery of a discipline and the development of research skills during doctoral training. To develop a broader understanding of professional identity in the context of doctoral training, the Carnegie Initiative on the Doctorate (CID) ran a multi-institutional study from 2001 to 2005. A key outcome of the CID was the development of the concept of 'stewards of the discipline'. The Interdisciplinary Program in Neuroscience (IPN) at Georgetown University participated in CID from 2003 to 2005. Here, we describe the IPN and highlight the programmatic developments resulting from participation in the CID. In particular, we emphasize programmatic activities that are designed to promote professional skills in parallel with scientific development. We describe activities in the domains of leadership, communication, teaching, public outreach, ethics, collaboration, and mentorship. Finally, we provide data that demonstrate that traditional metrics of academic success are not adversely affected by the inclusion of professional development activities in the curricula. By incorporating these seven 'professional development' activities into the required coursework and dissertation research experience, the IPN motivates students to become stewards of the discipline.

    View details for PubMedID 25005356

  • Sex-specific gray matter volume differences in females with developmental dyslexia. Brain structure & function Evans, T. M., Flowers, D. L., Napoliello, E. M., Eden, G. F. 2013


    Developmental dyslexia, characterized by unexpected reading difficulty, is associated with anomalous brain anatomy and function. Previous structural neuroimaging studies have converged in reports of less gray matter volume (GMV) in dyslexics within left hemisphere regions known to subserve language. Due to the higher prevalence of dyslexia in males, these studies are heavily weighted towards males, raising the question whether studies of dyslexia in females only and using the same techniques, would generate the same findings. In a replication study of men, we obtained the same findings of less GMV in dyslexics in left middle/inferior temporal gyri and right postcentral/supramarginal gyri as reported in the literature. However, comparisons in women with and without dyslexia did not yield left hemisphere differences, and instead, we found less GMV in right precuneus and paracentral lobule/medial frontal gyrus. In boys, we found less GMV in left inferior parietal cortex (supramarginal/angular gyri), again consistent with previous work, while in girls differences were within right central sulcus, spanning adjacent gyri, and left primary visual cortex. Our investigation into anatomical variants in dyslexia replicates existing studies in males, but at the same time shows that dyslexia in females is not characterized by involvement of left hemisphere language regions but rather early sensory and motor cortices (i.e., motor and premotor cortex, primary visual cortex). Our findings suggest that models on the brain basis of dyslexia, primarily developed through the study of males, may not be appropriate for females and suggest a need for more sex-specific investigations into dyslexia.

    View details for DOI 10.1007/s00429-013-0552-4

    View details for PubMedID 23625146

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