PERFORM Publications

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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:	Kinematic profiles suggest differential control processes involved in bilateral in-phase and anti-phase movements.
Authors:	Shih PC, Steele CJ, Nikulin V, Villringer A, Sehm B
Link:	https://www.ncbi.nlm.nih.gov/pubmed/30824858?dopt=Abstract
Publication:
Keywords:
PMID:	30824858	Category:	Sci Rep	Date Added:	2019-06-03
Dept Affiliation:	PSYCHOLOGY 1 Department of Neurology, Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig, Germany. 2 Department of Psychology, Concordia University, Montreal, Quebec, Canada. 3 Department of Cognitive Neurology, University of Leipzig, Leipzig, Germany. 4 Department of Neurology, Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig, Germany. sehm@cbs.mpg.de. 5 Department of Cognitive Neurology, University of Leipzig, Leipzig, Germany. sehm@cbs.mpg.de.

Description:

Kinematic profiles suggest differential control processes involved in bilateral in-phase and anti-phase movements.

Sci Rep. 2019 Mar 01;9(1):3273

Authors: Shih PC, Steele CJ, Nikulin V, Villringer A, Sehm B

Abstract

In-phase and anti-phase movements represent two basic coordination modes with different characteristics: during in-phase movements, bilateral homologous muscle groups contract synchronously, whereas during anti-phase movements, they contract in an alternating fashion. Previous studies suggested that in-phase movements represent a more stable and preferential bilateral movement template in humans. The current experiment aims at confirming and extending this notion by introducing new empirical measures of spatiotemporal dynamics during performance of a bilateral circle drawing task in an augmented-reality environment. First, we found that anti-phase compared to in-phase movements were performed with higher radial variability, a result that was mainly driven by the non-dominant hand. Second, the coupling of both limbs was higher during in-phase movements, corroborated by a lower inter-limb phase difference and higher inter-limb synchronization. Importantly, the movement acceleration profile between bilateral hands followed an in-phase relationship during in-phase movements, while no specific relationship was found in anti-phase condition. These spatiotemporal relationships between hands support the hypothesis that differential neural processes govern both bilateral coordination modes and suggest that both limbs are controlled more independently during anti-phase movements, while bilateral in-phase movements are elicited by a common neural generator.

PMID: 30824858 [PubMed - in process]

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