default author photo

Katherine S. F. Damme

Northwestern University

SCHOLARLY PAPERS

4

DOWNLOADS

235

TOTAL CITATIONS

0

Scholarly Papers (4)

1.

Anterior Cingulate Cortex Reactivity Marks Individual Differences in the Impact of Adolescent Peer Victimization on Internalizing Symptoms

Number of pages: 32 Posted: 19 Nov 2024
Franchesca S. Kuhney, Vijay A. Mittal and Katherine S. F. Damme
University of Illinois at Chicago, Northwestern University and Northwestern University
Downloads 102 (689,572)

Abstract:

Loading...

peer victimization, internalizing, fMRI, ABCD, sex differences

2.

Risk for Bipolar Spectrum Disorders Associated with Positive Urgency and Orbitofrontal Cortical Grey Matter Volume

Number of pages: 38 Posted: 15 Jul 2022
Northwestern University - Department of Psychology, Northwestern University, Temple University, Temple University, Temple University, Temple University, Temple University, Northwestern University, Northwestern University and Northwestern University - Department of Psychology
Downloads 56 (1,010,164)

Abstract:

Loading...

bipolar spectrum disorder (BSD), positive urgency, grey matter volume, orbitofrontal cortex (OFC)

3.

The Impact of Adolescent Peer Victimization on Internalizing Symptoms Demonstrates Sex-Specific Associations with Anterior Cingulate Cortex Reactivity

Number of pages: 33 Posted: 06 Feb 2025
Franchesca S. Kuhney, Katherine S. F. Damme and Vijay A. Mittal
University of Illinois at Chicago, Northwestern University and Northwestern University
Downloads 43 (1,157,785)

Abstract:

Loading...

peer victimization, Internalizing, fMRI, abcd, sex differences

4.

The Cumulative Impact of Fine Particulate Matter Exposure on Hippocampal Volume and Working Memory: Insights from Prenatal and Adolescent Exposures from the Abcd Study

Number of pages: 37 Posted: 04 Aug 2025
Katherine S. F. Damme, Teresa G. Vargas and Julia A. Bauer
Northwestern University, Harvard University and University of Illinois Chicago
Downloads 34 (1,263,436)

Abstract:

Loading...

working memory, early development, hippocampal volumes, hippocampal function, fine particulate matter