Nicholas F Wymbs
Overview
Explore the profile of Nicholas F Wymbs including associated specialties, affiliations and a list of published articles.
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25
Citations
1769
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Recent Articles
1.
Wymbs N, Nebel M, Ewen J, Mostofsky S
Cereb Cortex
. 2021 Jan;
31(5):2639-2652.
PMID: 33386399
Children with autism spectrum disorder (ASD) have difficulties perceiving and producing skilled gestures, or praxis. The inferior parietal lobule (IPL) is crucial to praxis acquisition and expression, yet how IPL...
2.
Araujo C, Hudziak J, Crocetti D, Wymbs N, Montalvo-Ortiz J, Orr C, et al.
Psychiatry Res Neuroimaging
. 2020 Mar;
298:111058.
PMID: 32120304
The goal of the current study was to evaluate the impact of Tubulin Polymerization Promoting Protein (TPPP) methylation on structural and fractional anisotropy (FA) corpus callosum (CC) measures. TPPP is...
3.
Wymbs N, Orr C, Albaugh M, Althoff R, OLoughlin K, Holbrook H, et al.
Child Abuse Negl
. 2020 Feb;
102:104413.
PMID: 32065988
Background: Child abuse and other forms of adversity are associated with alterations in threat processing and emotion regulation brain circuits. Objective: The goal of the current investigation is to determine...
4.
Kaufman J, Wymbs N, Montalvo-Ortiz J, Orr C, Albaugh M, Althoff R, et al.
Neuropsychopharmacology
. 2018 Aug;
43(11):2204-2211.
PMID: 30089883
Through unbiased transcriptomics and multiple molecular tools, transient downregulation of the Orthodenticle homeobox 2 (OTX2) gene was recently causatively associated with the development of depressive-like behaviors in a mouse model...
5.
Mattar M, Wymbs N, Bock A, Aguirre G, Grafton S, Bassett D
Neuroimage
. 2018 Jan;
172:107-117.
PMID: 29366697
Human behavior and cognition result from a complex pattern of interactions between brain regions. The flexible reconfiguration of these patterns enables behavioral adaptation, such as the acquisition of a new...
6.
Reddy P, Mattar M, Murphy A, Wymbs N, Grafton S, Satterthwaite T, et al.
Neuroimage
. 2018 Jan;
171:135-147.
PMID: 29309897
Learning requires the traversal of inherently distinct cognitive states to produce behavioral adaptation. Yet, tools to explicitly measure these states with non-invasive imaging - and to assess their dynamics during...
7.
Schwartz K, Wymbs N, Huang H, Mealy M, Pardo C, Zackowski K, et al.
Mult Scler J Exp Transl Clin
. 2017 Dec;
3(4):2055217317740145.
PMID: 29270309
Background: Dalfampridine has the potential to be effective in patients with transverse myelitis (TM) as this rare disorder shares some clinical and pathogenic similarities with multiple sclerosis. Methods: This is...
8.
Khambhati A, Mattar M, Wymbs N, Grafton S, Bassett D
Neuroimage
. 2017 Nov;
166:385-399.
PMID: 29138087
The human brain is in constant flux, as distinct areas engage in transient communication to support basic behaviors as well as complex cognition. The collection of interactions between cortical and...
9.
Bogdanov P, Dereli N, Dang X, Bassett D, Wymbs N, Grafton S, et al.
PLoS One
. 2017 Oct;
12(10):e0184344.
PMID: 29016686
Modeling the brain as a functional network can reveal the relationship between distributed neurophysiological processes and functional interactions between brain structures. Existing literature on functional brain networks focuses mainly on...
10.
Telesford Q, Ashourvan A, Wymbs N, Grafton S, Vettel J, Bassett D
Hum Brain Mapp
. 2017 Jun;
38(9):4744-4759.
PMID: 28646563
Human behavior is supported by flexible neurophysiological processes that enable the fine-scale manipulation of information across distributed neural circuits. Yet, approaches for understanding the dynamics of these circuit interactions have...