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PubMed Publications| Keyword search (4,163 papers available) |  |
"Villringer A" Authored Publications:
| Title | Authors | PubMed ID | |
|---|---|---|---|
| 1 | Patterns of Structural Disconnection Driving Proprioceptive Deficits in Chronic Stroke | Kaeja M; Gajiyeva L; Iturria-Medina Y; Villringer A; Sehm B; Steele C; | 41392885 SOH |
| 2 | Decreased long-range temporal correlations in the resting-state functional magnetic resonance imaging blood-oxygen-level-dependent signal reflect motor sequence learning up to 2 weeks following training | Jäger AP; Bailey A; Huntenburg JM; Tardif CL; Villringer A; Gauthier CJ; Nikulin V; Bazin PL; Steele CJ; | 38124341 SOH |
| 3 | The impact of lesion side on bilateral upper limb coordination after stroke | Shih PC; Steele CJ; Hoepfel D; Muffel T; Villringer A; Sehm B; | 38093308 PSYCHOLOGY |
| 4 | Modeling venous bias in resting state functional MRI metrics | Huck J; Jäger AT; Schneider U; Grahl S; Fan AP; Tardif C; Villringer A; Bazin PL; Steele CJ; Gauthier CJ; | 37498014 PERFORM |
| 5 | Visuo-motor transformations in the intraparietal sulcus mediate the acquisition of endovascular medical skill | Paul KI; Mueller K; Rousseau PN; Glathe A; Taatgen NA; Cnossen F; Lanzer P; Villringer A; Steele CJ; | 36529202 PSYCHOLOGY |
| 6 | Mental rotation ability predicts the acquisition of basic endovascular skills | Paul KI; Glathe A; Taatgen NA; Steele CJ; Villringer A; Lanzer P; Cnossen F; | 34789742 PSYCHOLOGY |
| 7 | Motor sequences; separating the sequence from the motor. A longitudinal rsfMRI study | Jäger AP; Huntenburg JM; Tremblay SA; Schneider U; Grahl S; Huck J; Tardif CL; Villringer A; Gauthier CJ; Bazin PL; Steele CJ; | 34704176 PERFORM |
| 8 | Alpha and beta neural oscillations differentially reflect age-related differences in bilateral coordination | Shih PC; Steele CJ; Nikulin VV; Gundlach C; Kruse J; Villringer A; Sehm B; | 33979705 PSYCHOLOGY |
| 9 | White matter microstructural changes in short-term learning of a continuous visuomotor sequence | Tremblay SA; Jäger AT; Huck J; Giacosa C; Beram S; Schneider U; Grahl S; Villringer A; Tardif CL; Bazin PL; Steele CJ; Gauthier CJ; | 33885965 PERFORM |
| 10 | Modulation of premotor cortex response to sequence motor learning during escitalopram intake. | Molloy EN; Mueller K; Beinhölzl N; Blöchl M; Piecha FA; Pampel A; Steele CJ; Scharrer U; Zheleva G; Regenthal R; Sehm B; Nikulin VV; Möller HE; Villringer A; Sacher J; | 33148103 PSYCHOLOGY |
| 11 | High resolution atlas of the venous brain vasculature from 7 T quantitative susceptibility maps. | Huck J, Wanner Y, Fan AP, Jäger AT, Grahl S, Schneider U, Villringer A, Steele CJ, Tardif CL, Bazin PL, Gauthier CJ | 31278570 PSYCHOLOGY |
| 12 | Advanced MRI techniques to improve our understanding of experience-induced neuroplasticity. | Tardif CL, Gauthier CJ, Steele CJ, Bazin PL, Schäfer A, Schaefer A, Turner R, Villringer A | 26318050 PERFORM |
| 13 | Elevated brain oxygen extraction fraction measured by MRI susceptibility relates to perfusion status in acute ischemic stroke. | Fan AP, Khalil AA, Fiebach JB, Zaharchuk G, Villringer A, Villringer K, Gauthier CJ | 30732551 PHYSICS |
| 14 | Kinematic profiles suggest differential control processes involved in bilateral in-phase and anti-phase movements. | Shih PC, Steele CJ, Nikulin V, Villringer A, Sehm B | 30824858 PSYCHOLOGY |
| 15 | Investigation of the confounding effects of vasculature and metabolism on computational anatomy studies. | Tardif CL, Steele CJ, Lampe L, Bazin PL, Ragert P, Villringer A, Gauthier CJ | 28159689 PERFORM |
| Title: | White matter microstructural changes in short-term learning of a continuous visuomotor sequence | ||||
| Authors: | Tremblay SA, Jäger AT, Huck J, Giacosa C, Beram S, Schneider U, Grahl S, Villringer A, Tardif CL, Bazin PL, Steele CJ, Gauthier CJ | ||||
| Link: | https://pubmed.ncbi.nlm.nih.gov/33885965/ | ||||
| DOI: | 10.1007/s00429-021-02267-y | ||||
| Publication: | Brain structure & function | ||||
| Keywords: | DTI; DWI; Fractional anisotropy (FA); Motor sequence learning; Plasticity; White matter; | ||||
| PMID: | 33885965 | Category: | Date Added: | 2021-04-24 | |
| Dept Affiliation: |
PERFORM
1 Department of Physics/PERFORM Center, Concordia University, Montreal, QC, Canada. 2 Montreal Heart Institute, Montreal, QC, Canada. 3 Department of Neurology, Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig, Germany. 4 Charite Universitätsmedizin, Charite, Berlin, Germany. 5 Clinic for Cognitive Neurology, Leipzig, Germany. 6 Leipzig University Medical Centre, IFB Adiposity Diseases, Leipzig, Germany. 7 Collaborative Research Centre 1052-A5, University of Leipzig, Leipzig, Germany. 8 Department of Biomedical Engineering, McGill University, Montreal, QC, Canada. 9 Montreal Neurological Institute, Montreal, QC, Canada. 10 Faculty of Social and Behavioral S |
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Description: |
Efficient neural transmission is crucial for optimal brain function, yet the plastic potential of white matter (WM) has long been overlooked. Growing evidence now shows that modifications to axons and myelin occur not only as a result of long-term learning, but also after short training periods. Motor sequence learning (MSL), a common paradigm used to study neuroplasticity, occurs in overlapping learning stages and different neural circuits are involved in each stage. However, most studies investigating short-term WM plasticity have used a pre-post design, in which the temporal dynamics of changes across learning stages cannot be assessed. In this study, we used multiple magnetic resonance imaging (MRI) scans at 7 T to investigate changes in WM in a group learning a complex visuomotor sequence (LRN) and in a control group (SMP) performing a simple sequence, for five consecutive days. Consistent with behavioral results, where most improvements occurred between the two first days, structural changes in WM were observed only in the early phase of learning (d1-d2), and in overall learning (d1-d5). In LRNs, WM microstructure was altered in the tracts underlying the primary motor and sensorimotor cortices. Moreover, our structural findings in WM were related to changes in functional connectivity, assessed with resting-state functional MRI data in the same cohort, through analyses in regions of interest (ROIs). Significant changes in WM microstructure were found in a ROI underlying the right supplementary motor area. Together, our findings provide evidence for highly dynamic WM plasticity in the sensorimotor network during short-term MSL. |
