Summary: Physical activity enhances the ability to learn and remember motor skills. The new research involved 67 young men and explored how exercise before and after motor skill learning impacts memory retention.
The study found that exercising both before and after learning optimizes memory formation, with a notable 10% improvement in remembering motor skills. This research is significant for various fields, from rehabilitation to skill training, demonstrating that incorporating physical activity can enhance learning effectiveness.
Key Facts:
- Exercising before and after learning motor skills leads to better memory retention.
- The study demonstrated around a 10% improvement in motor memory when exercise was included.
- This research is applicable to various areas, including rehabilitation and professional skill training.
Source: University of Copenhagen
Before a violinist tunes their instrument or surgeon stands at the training table to learn the skills needed for a new symphony or surgical procedure, they might consider heading out for a bike ride or run. Once they’ve practiced the new skill, there’s good reason to put on their workout attire again.
Indeed, being physically active and elevating one’s heart rate has the wonderful side effect of improving our ability to learn by increasing the brain’s ability to remember.
In a new study, researchers from the Department of Nutrition, Exercise and Sports have shown that this effect also applies to the formation of motor memory, enabling us to recall and perform tasks such as riding a bike, drive a car and lace up our shoes, almost automatically.
Before or after is good, both are best
“Our results demonstrate that there is a clear effect across the board. If you exercise before learning a skill, you will improve and remember what you have learned better. The same applies if you exercise after learning. But our research shows that the greatest effect is achieved if you exercise both before and after,” says PhD Lasse Jespersen, first author of the study.
Specifically, the researchers see around 10% improvement in people’s ability to remember a learned motor skills when exercise is included either before or after an exercise. And, the effect can be enhanced by exercising at both times.
“Things can’t go wrong if a bit of physical exercise is incorporated. A person will experience beneficial effects. This is probably because physical activity increases the brain’s ability to change, which is a prerequisite for remembering,” explains co-author Jesper Lundbye-Jensen, who heads the department’s Movement and Neuroscience section.
The effect applies to everyone, including children, adolescents and older adults, but in particular, anyone who regularly needs to learn new skills. Moreover, the effects may hold significance for individuals undergoing rehabilitation, aiming to recover mobility and lost motor skills.
Gamers and musicians excluded
Sixty-seven test subjects were involved in the research project. To ensure for comparable data, all subjects were young men between the ages of 18 and 35 who were not physically or mentally impaired in ways that could limit their learning ability and physical performance.
The researchers examined the subjects’ behaviour and performance while reviewing one of four possible scenarios.
First, they either rested or exercised moderately on a bicycle. After that, they were subjected to a fine motor task in the form of a simple computer game that, with a small device on their fingertips, challenged and practiced the participants’ motor dexterity.
Next, they either had to exercise intensely on a fitness bike or rest. Thus, there was one group that rested both before and after, one that trained both times and two that trained once, either before or after. Their skill level and memory were tested again after seven days to assess whether what they had learned stuck.
As a somewhat unusual criterion, professional musicians and gamers were excluded as possible participants.
“People with extensive experience in practicing motor skills typically start at a different level. While the motor task used in the research study were unknown to all, involving experts would have changed the dynamic from the get go. But that doesn’t mean they wouldn’t benefit from the effects we’ve shown. To the contrary, in a future study, it could be exciting to investigate how exercise affects people with elite level fine motor skills,” says Lasse Jespersen.
Helping hand for those rehabilitating
The increased effect of motor learning is something everyone can benefit from. Children who are developing their motor skills are often highlighted, and previous studies with pianists have already shown that people with extraordinary motor skills also benefit from exercise.
At the other end of the spectrum, the new knowledge could make an important contribution as well. For example, among those needing to regain mobility after an accident.
“Typically, rehabilitation is divided between two or three different disciplines. In practice, this may mean that Mr. Smith will have physical training with a physiotherapist on one day, work with an ergonomist the next and train cognitive abilities with a psychologist on the third. Our research suggests that it could be wise to plan rehabilitation so that these areas are considered together, as doing so could have a synergistic effect,” explains Jesper Lundbye-Jensen, who points out:
“Coming back often entails hard work, and even slight improvements in efficiency can mean a lot to people in that situation.”
In the long term, the researchers hope to be able to provide such recommendations with more ammunition for a long-term study where more lasting effects can be measured. A longer-term study would also let the researchers investigate whether the effects observed by the study become even greater over a longer trial period.
Extra info: This is what happens physiologically
Specific parts of the brain are activated when a person engages in motor practice that require the acquisition of fine motor skills.
If the task is an activity that one knows well, like riding a bicycle, the centers are less active, but that all changes when learning something new.
The brain undergoes actual changes which is essential for our ability to learn and remember new skills, a phenomenon known as brain plasticity. These changes occur both while the new skill is acquired through practice, but also in the hours after when the memory is consolidated. This is why it is meaningful to be physically active even after we’ve engaged in something new.
“In the study, we use the terms online and offline to describe these two aspects of learning – memory acquisition and retention. Both are important for us to acquire new motor skills and remember what we’ve learned,” Jesper Lundbye-Jensen explains.
Previous studies have also shown that physical exercise releases a number of neurotransmitters that have the side benefit of promoting the development in the brain that new learning has initiated. The researchers believe that this is the relationship that produces the beneficial effects.
Facts:
About the study:
67 men between the ages of 18-35 participated in the studies.
A behavioural study, where results were studied across 4 groups with different behaviours. No blood tests, brain activity or genetics were used.
- group trained at moderate intensity before engaging in fine motor practice, but rested afterwards.
- group rested before the motor practice, but exercised intensely thereafter.
- group trained both prior to and after motor practice.
- group was the control group, and rested both before and after.
(Previous studies have shown that intense exercise before can negatively affect results, while intense workout afterwards have the best effect.)
Facts: Measured performance in two dimensions
The researchers examined two dimensions of performance.
- Development of the skill level during motor practice (online)
- Maintaining skill levels when repeating the task after a 7-day break (offline)
About this exercise, learning, and memory research news
Author: Kristian Bjørn-Hansen
Source: University of Copenhagen
Contact: Kristian Bjørn-Hansen – University of Copenhagen
Image: The image is credited to Neuroscience News
Original Research: Open access.
“Acute exercise performed before and after motor practice enhances the positive effects on motor memory consolidation” by Lasse Jespersen et al. Neurobiology of Learning and Memory
Abstract
Acute exercise performed before and after motor practice enhances the positive effects on motor memory consolidation
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.
