Acute exercise performed before and after motor practice enhances the positive effects on motor memory consolidation

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Standard

Acute exercise performed before and after motor practice enhances the positive effects on motor memory consolidation. / Jespersen, Lasse; Maes, Katrine Matlok; Ardenkjær-Skinnerup, Nicoline; Roig, Marc; Bjørndal, Jonas Rud; Beck, Mikkel Malling; Lundbye-Jensen, Jesper.

I: Neurobiology of Learning and Memory, Bind 205, 107830, 2023.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Jespersen, L, Maes, KM, Ardenkjær-Skinnerup, N, Roig, M, Bjørndal, JR, Beck, MM & Lundbye-Jensen, J 2023, 'Acute exercise performed before and after motor practice enhances the positive effects on motor memory consolidation', Neurobiology of Learning and Memory, bind 205, 107830. https://doi.org/10.1016/j.nlm.2023.107830

APA

Jespersen, L., Maes, K. M., Ardenkjær-Skinnerup, N., Roig, M., Bjørndal, J. R., Beck, M. M., & Lundbye-Jensen, J. (2023). Acute exercise performed before and after motor practice enhances the positive effects on motor memory consolidation. Neurobiology of Learning and Memory, 205, [107830]. https://doi.org/10.1016/j.nlm.2023.107830

Vancouver

Jespersen L, Maes KM, Ardenkjær-Skinnerup N, Roig M, Bjørndal JR, Beck MM o.a. Acute exercise performed before and after motor practice enhances the positive effects on motor memory consolidation. Neurobiology of Learning and Memory. 2023;205. 107830. https://doi.org/10.1016/j.nlm.2023.107830

Author

Jespersen, Lasse ; Maes, Katrine Matlok ; Ardenkjær-Skinnerup, Nicoline ; Roig, Marc ; Bjørndal, Jonas Rud ; Beck, Mikkel Malling ; Lundbye-Jensen, Jesper. / Acute exercise performed before and after motor practice enhances the positive effects on motor memory consolidation. I: Neurobiology of Learning and Memory. 2023 ; Bind 205.

Bibtex

@article{c2ed086c27334a05bcb60d04a7acb125,
title = "Acute exercise performed before and after motor practice enhances the positive effects on motor memory consolidation",
abstract = "Performing a single bout of exercise can enhance motor learning and long-term retention of motor skills. Parameters such as the intensity and when the exercise bout is performed in relation to skill practice (i.e., timing) likely influence the effectiveness. However, it is still not fully understood how exercise should be administered to maximize its effects and how exercise interacts with distinct components of skill learning. Here, we expand this knowledge by investigating the potential synergistic effects of performing acute exercise both prior to and following motor practice. Sixty-four, able-bodied, young adult male participants practiced a sequential visuomotor accuracy tracking (SVAT) task requiring rapid and accurate force modulation and high levels of precision control using intrinsic hand muscles. The task also contained a repeated pattern of targets that allowed sequence-specific skill improvements. Sequential and non-sequential motor performance was assessed at baseline, immediately after motor practice, and again seven days later. One group performed moderate-intensity exercise before practice (PREMO), a second group performed high-intensity exercise after practice (POSTHI), a third group exercised both before and after practice (PREMO + POSTHI), and a fourth group did not exercise during these periods (CON). Regardless of the exercise condition, acute exercise improved long-term retention of the skill by countering performance decay between experimental sessions (i.e., a 7-day interval). Furthermore, exercising both before and after motor practice led to the greatest improvements in skilled performance over time. We found that the effects of exercise were not specific to the practiced sequence. Namely, the effects of exercise generalized across sequential and non-sequential target positions and orders. This suggests that acute exercise works through mechanisms that promote general aspects of motor memory (e.g., lasting improvements in fast and accurate motor execution). The results demonstrate that various exercise protocols can promote the stabilization and long-term retention of motor skills. This effect can be enhanced when exercise is performed both before and after practice.",
keywords = "Consolidation, Encoding, Exercise, Motor learning, Motor memory, Retention",
author = "Lasse Jespersen and Maes, {Katrine Matlok} and Nicoline Ardenkj{\ae}r-Skinnerup and Marc Roig and Bj{\o}rndal, {Jonas Rud} and Beck, {Mikkel Malling} and Jesper Lundbye-Jensen",
note = "Publisher Copyright: {\textcopyright} 2023 The Author(s)",
year = "2023",
doi = "10.1016/j.nlm.2023.107830",
language = "English",
volume = "205",
journal = "Neurobiology of Learning and Memory",
issn = "1074-7427",
publisher = "Academic Press",

}

RIS

TY - JOUR

T1 - Acute exercise performed before and after motor practice enhances the positive effects on motor memory consolidation

AU - Jespersen, Lasse

AU - Maes, Katrine Matlok

AU - Ardenkjær-Skinnerup, Nicoline

AU - Roig, Marc

AU - Bjørndal, Jonas Rud

AU - Beck, Mikkel Malling

AU - Lundbye-Jensen, Jesper

N1 - Publisher Copyright: © 2023 The Author(s)

PY - 2023

Y1 - 2023

N2 - Performing a single bout of exercise can enhance motor learning and long-term retention of motor skills. Parameters such as the intensity and when the exercise bout is performed in relation to skill practice (i.e., timing) likely influence the effectiveness. However, it is still not fully understood how exercise should be administered to maximize its effects and how exercise interacts with distinct components of skill learning. Here, we expand this knowledge by investigating the potential synergistic effects of performing acute exercise both prior to and following motor practice. Sixty-four, able-bodied, young adult male participants practiced a sequential visuomotor accuracy tracking (SVAT) task requiring rapid and accurate force modulation and high levels of precision control using intrinsic hand muscles. The task also contained a repeated pattern of targets that allowed sequence-specific skill improvements. Sequential and non-sequential motor performance was assessed at baseline, immediately after motor practice, and again seven days later. One group performed moderate-intensity exercise before practice (PREMO), a second group performed high-intensity exercise after practice (POSTHI), a third group exercised both before and after practice (PREMO + POSTHI), and a fourth group did not exercise during these periods (CON). Regardless of the exercise condition, acute exercise improved long-term retention of the skill by countering performance decay between experimental sessions (i.e., a 7-day interval). Furthermore, exercising both before and after motor practice led to the greatest improvements in skilled performance over time. We found that the effects of exercise were not specific to the practiced sequence. Namely, the effects of exercise generalized across sequential and non-sequential target positions and orders. This suggests that acute exercise works through mechanisms that promote general aspects of motor memory (e.g., lasting improvements in fast and accurate motor execution). The results demonstrate that various exercise protocols can promote the stabilization and long-term retention of motor skills. This effect can be enhanced when exercise is performed both before and after practice.

AB - Performing a single bout of exercise can enhance motor learning and long-term retention of motor skills. Parameters such as the intensity and when the exercise bout is performed in relation to skill practice (i.e., timing) likely influence the effectiveness. However, it is still not fully understood how exercise should be administered to maximize its effects and how exercise interacts with distinct components of skill learning. Here, we expand this knowledge by investigating the potential synergistic effects of performing acute exercise both prior to and following motor practice. Sixty-four, able-bodied, young adult male participants practiced a sequential visuomotor accuracy tracking (SVAT) task requiring rapid and accurate force modulation and high levels of precision control using intrinsic hand muscles. The task also contained a repeated pattern of targets that allowed sequence-specific skill improvements. Sequential and non-sequential motor performance was assessed at baseline, immediately after motor practice, and again seven days later. One group performed moderate-intensity exercise before practice (PREMO), a second group performed high-intensity exercise after practice (POSTHI), a third group exercised both before and after practice (PREMO + POSTHI), and a fourth group did not exercise during these periods (CON). Regardless of the exercise condition, acute exercise improved long-term retention of the skill by countering performance decay between experimental sessions (i.e., a 7-day interval). Furthermore, exercising both before and after motor practice led to the greatest improvements in skilled performance over time. We found that the effects of exercise were not specific to the practiced sequence. Namely, the effects of exercise generalized across sequential and non-sequential target positions and orders. This suggests that acute exercise works through mechanisms that promote general aspects of motor memory (e.g., lasting improvements in fast and accurate motor execution). The results demonstrate that various exercise protocols can promote the stabilization and long-term retention of motor skills. This effect can be enhanced when exercise is performed both before and after practice.

KW - Consolidation

KW - Encoding

KW - Exercise

KW - Motor learning

KW - Motor memory

KW - Retention

U2 - 10.1016/j.nlm.2023.107830

DO - 10.1016/j.nlm.2023.107830

M3 - Journal article

C2 - 37741613

AN - SCOPUS:85173558269

VL - 205

JO - Neurobiology of Learning and Memory

JF - Neurobiology of Learning and Memory

SN - 1074-7427

M1 - 107830

ER -

ID: 375202137