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Scale-invariant changes in corticospinal excitability reflect multiplexed oscillations in the motor output

2024

BIAL Foundation Archive
- BIAL Grants
  - 2020 Grants
    - 246 - The hidden rhythm of interpersonal (sub-)movement coordination
      - Scale-invariant changes in corticospinal excitability reflect multiplexed oscillations in the motor output

Reference code:	PT/FB
Entity holding:	BIAL Foundation
Location:	S. Mamede do Coronado
Title:	BIAL Foundation Archive
Start date:	1994
History:	The BIAL Foundation was created in 1994 by Laboratórios BIAL in conjunction with the Council of Rectors of Portuguese Universities. BIAL’s Foundation mission is to foster the scientific study of Man from both the physical and spiritual perspectives. Along the years the BIAL Foundation has developed an important relationship with the scientific community, first in Portugal and after worldwide. Today it is an institution of reference which aims to stimulate new researches that may help people, promote more health and contribute to new milestones to gain access to knowledge. Among its activities the BIAL Foundation manages the BIAL Award, created in 1984, one of the most important awards in the Health field in Europe. The BIAL Award rewards both the basic and the clinical research distinguishing works of major impact in medical research. The BIAL Foundation also assigns Scientific Research Scholarships for the study of neurophysiological and mental health in people, arousing the interest of researchers in the areas of Psychophysiology and Parapsychology. To date the BIAL Foundation has supported 461 projects, more than 1000 researchers, with research groups in twenty-seven countries, resulting, until April 2013, in about 600 full papers, out of which 172 published in indexed international journals with an average impact factor of 3.6 and a substantial number of citations (1665). Since 1996 the BIAL Foundation organizes the Symposia entitled "Behind and Beyond the Brain", a Forum that gathers well renowned neurosciences speakers and the BIAL Foundation Fellows which are spread around the world. Classified as an institution of public utility, the BIAL Foundation includes among its patrons the Portuguese President, the Portuguese Universities Rectors' Council and the Portuguese Medical Association.
URL:	http://www.bial.com/pt/
Accessibility:	By permission

Reference code:	PT/FB/BL
Entity holding:	BIAL Foundation
Title:	BIAL Grants
Start date:	1994
History:	In 1994 the BIAL Foundation launched a programme of science research grants with the aim of encouraging the research into Man’s physical and mental processes, namely in fields still largely unexplored but which warrant further scientific analysis, as Psychophysiology and Parapsychology. Since its launch, applications to the BIAL grants have been increasing. Up to now 461 projects have been supported, involving more than 1000 researchers from 27 countries. The approved applications have benefited from grants in amounts comprised between €5,000 and €50, 000. The amount to be granted is fixed by the Scientific board according to the needs of each project. The supported projects have originated, until April 2013, in about 600 full papers, 172 out of which were published in indexed international journals with an average impact factor of 3.6 and a substantial number of citations (1665). Among the BIAL Foundation fellows is worth highlighting the presence of scientists from prestigious universities from the United States, United Kingdom, Australia, Russia, Germany, Japan, France, Canada, and many others. The BIAL grants are promoted biannually.

Reference code:	PT/FB/BL-2020
Location:	BF-GMS
Title:	2020 Grants
Start date:	2021-01

Reference code:	PT/FB/BL-2020-246
Location:	BF-GMS
Title:	246 - The hidden rhythm of interpersonal (sub-)movement coordination
Duration:	2021-06 - 2023-06
Researcher(s):	Alice Tomassini, Alessandro D'Ausilio, Julien Laroche
Institution(s):	Center for Translational Neurophysiology of Speech and Communication - CTNSC, Istituto Italiano di Tecnologia, Ferrara (Italy)
Contents:	Contents: Application form Correspondence Research Funding Agreement Progress report Final report Articles
Language:	eng
Author:	Tomassini, A.
Secondary author(s):	D'Ausilio, A., Laroche, J.
Number of reproductions:	1
Keywords:	Social cognition / Neurobehavioral coordination / Hyperscanning / Intermittent motor control / Psychophysiology

Reference code:	PT/FB/BL-2020-246.07
Location:	BF-GMS
Title:	Scale-invariant changes in corticospinal excitability reflect multiplexed oscillations in the motor output
Publication year:	2024
URL:	https://doi.org/10.1113/JP284273
Abstract/Results:	ABSTRACT: In the absence of disease, humans produce smooth and accurate movement trajectories. Despite such 'macroscopic' aspect, the 'microscopic' structure of movements reveals recurrent (quasi-rhythmic) discontinuities. To date, it is unclear how the sensorimotor system contributes to the macroscopic and microscopic architecture of movement. Here, we investigated how corticospinal excitability changes in relation to microscopic fluctuations that are naturally embedded within larger macroscopic variations in motor output. Participants performed a visuomotor tracking task. In addition to the 0.25 Hz modulation that is required for task fulfilment (macroscopic scale), the motor output shows tiny but systematic fluctuations at ~2 and 8 Hz (microscopic scales). We show that motor-evoked potentials (MEPs) elicited by transcranial magnetic stimulation (TMS) during task performance are consistently modulated at all (time) scales. Surprisingly, MEP modulation covers a similar range at both micro- and macroscopic scales, even though the motor output differs by several orders of magnitude. Thus, corticospinal excitability finely maps the multiscale temporal patterning of the motor output, but it does so according to a principle of scale invariance. These results suggest that corticospinal excitability indexes a relatively abstract level of movement encoding that may reflect the hierarchical organisation of sensorimotor processes. KEY POINTS: Motor behaviour is organised on multiple (time)scales. Small but systematic ('microscopic') fluctuations are engrained in larger and slower ('macroscopic') variations in motor output, which are instrumental in deploying the desired motor plan. Corticospinal excitability is modulated in relation to motor fluctuations on both macroscopic and microscopic (time)scales. Corticospinal excitability obeys a principle of scale invariance, that is, it is modulated similarly at all (time)scales, possibly reflecting hierarchical mechanisms that optimise motor encoding.
Accessibility:	Document exists in file
Language:	eng
Author:	Emanuele, M.
Secondary author(s):	D'Ausilio, A., Koch, G., Fadiga, L., Tomassini, A.
Document type:	Article
Number of reproductions:	1
Reference:	Emanuele, M., D'Ausilio, A., Koch, G., Fadiga, L., & Tomassini, A. (2024). Scale-invariant changes in corticospinal excitability reflect multiplexed oscillations in the motor output. The Journal of Physiology, 602(1), 205–222. https://doi.org/10.1113/JP284273
2-year Impact Factor:	4.7\|2023
Impact factor notes:	Impact factor not available yet for 2024
Times cited:	0\|2025-02-19
Indexed document:	Yes
Quartile:	Q1
Keywords:	Corticospinal excitability / Motor control / Physiological tremor / Submovements / Transcranial magnetic stimulation
Scale-invariant changes in corticospinal excitability reflect multiplexed oscillations in the motor output Scale-invariant changes in corticospinal excitability reflect multiplexed oscillations in the motor output