The Exercise–Affect–Adherence Pathway: An Evolutionary Perspective

Lee, Harold; Emerson, Jessica A.; Williams, David M.

doi:10.3389/fpsyg.2016.01285

Cited by 131 publications

(89 citation statements)

References 87 publications

(104 reference statements)

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“…Therefore, BMEC could be conceived of as a reward. This assumption concurs with previous studies claiming that individuals possess an innate tendency to conserve energy and avoid unnecessary physical exertion [62,63], thereby explaining the negative affects experienced during exercise [13]. This evolutionary view of exercise may explain the exercise paradox: Why do individuals persist to be physically inactive despite knowledge of the risks associated with this inactivity?…”

Section: Behaviors Minimizing Energetic Cost As a Rewardsupporting

confidence: 89%

“…This review showed a higher tendency to approach rather than avoid physical activity, irrespective of the individuals' level of exercise. While this result seems in line with the suggestion that physical activity is a reward, it does not discard the possibility that sedentary behaviors and cost minimization are also rewarding [62]. First, almost all studies relied on physically active (motivated) individuals, who are more likely to have repeatedly experienced positive affective experiences during exercise than physically inactive (unmotivated) individuals [13].…”

Section: Neurophysiological Studies Are Neededsupporting

confidence: 60%

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Behavioral and neural evidence of the rewarding value of exercise behaviors: A systematic review

Cheval

Radel

Neva

et al. 2017

Preprint

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BackgroundIn a time of physical inactivity pandemic, attempts to better understand the factors underlying the regulation of exercise behavior are important. The dominant neurobiological approach to exercise behavior considers physical activity to be a reward. However, negative affective responses during exercise challenge this idea. Objective Our objective was to systematically review studies testing the automatic reactions triggered by stimuli associated with different types of exercise behavior (e.g., physical activity, sedentary behaviors) and energetic cost variations (e.g., decreased energetic cost, irrespective of the level of physical activity). Methods Two authors systematically searched, screened, extracted, and analyzed data from articles in the MEDLINE database. Results We included 26 studies. Three outcomes of automatic processes were tested: Affective reactions, attentional capture, and approach tendencies. Behavioral results show that physical activity can become attention-grabbing, automatically trigger positive affect, and elicit approach behaviors. These automatic reactions explain and predict exercise behaviors. However, the use of a wide variety of measures prevents drawing solid conclusions about the specific effects of automatic processes. Brain imaging results are scarce but show that stimuli associated with physical activity and, to a lesser extent, sedentary behaviors activate regions involved in reward processes. Studies investigating the rewarding value of behaviors driving energetic cost variations such as behaviors minimizing energetic cost are lacking. Conclusion Reward is an important factor in exercise behavior. The literature based on the investigation of automatic behaviors seems in line with the suggestion that physical activity is rewarding, at least for physically active individuals. Results suggest that sedentary behaviors could also be rewarding, although this evidence remains weak due to a lack of investigations. Finally, from an evolutionary perspective, behaviors minimizing energetic cost are likely to be rewarding. However, no study has investigated this hypothesis. In sum, additional studies are required to establish a strong and complete framework of the reward processes underlying automatic exercise behavior.Key points -Behavioral and brain imaging studies using different outcomes of automatic behavior show that physical activity and, to a weaker extent, sedentary behaviors are rewarding. -Behaviors minimizing energetic cost have been essential to evolutionary survival and are likely to be rewarding. However, experimental evidence is still lacking. -The dominant neuropsychological approaches to exercise behavior are incomplete, which may partly explain our current inability to counteract the pandemic of physical inactivity..CC-BY 4.0 International license not peer-reviewed) is the author/funder. It is made available under aThe copyright holder for this preprint (which was . http://dx.doi.org/10.1101/211425 doi: bioRxiv preprint first posted online Rewardi...

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Section: Behaviors Minimizing Energetic Cost As a Rewardsupporting

confidence: 89%

Section: Neurophysiological Studies Are Neededsupporting

confidence: 60%

Behavioral and neural evidence of the rewarding value of exercise behaviors: A systematic review

Cheval

Radel

Neva

et al. 2017

Preprint

View full text Add to dashboard Cite

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“…Specifically, we hypothesized that in individual intending to be physically active, like all participants of the current study, sensory integration is shorter (i.e., larger positive deflection and earlier LRP onset latency) when they are asked to approach physical activity and avoid sedentary behaviors compared to approach sedentary behaviors and avoid physical activity (Hypothesis 2). Additionally, consistent with recent conceptual and review articles suggesting that individuals tend to save energy and avoid unnecessary physical exertion (Cheval, et al, 2018;Lee, Emerson, & Williams, 2016;Lieberman, 2015), lower reaction times when approaching physical activity and avoiding sedentary behaviors should require more cortical resources. Accordingly, we hypothesized higher attentional processing (larger P1 and late N1 amplitudes), conflict monitoring (larger early N1 and late N1 amplitudes), and inhibition (larger N2 amplitude) when approaching physical activity compared to sedentary behaviors and when avoiding sedentary behaviors compared to physical activity (Hypothesis 3).…”

Section: Introductionsupporting

confidence: 68%

Avoiding sedentary behaviors requires more cortical resources than avoiding physical activity: An EEG study

et al. 2018

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Why do individuals fail to exercise regularly despite knowledge of the risks associated with physical inactivity? Automatic processes regulating exercise behaviors may partly explain this paradox. Yet, these processes have only been investigated with behavioral outcomes (i.e., based on reaction times). Here, using electroencephalography, we investigated the cortical activity underlying automatic approach and avoidance tendencies toward stimuli depicting physical activity and sedentary behaviors in 29 young adults who were physically active or physically inactive but with the intention of becoming physically active. Behavioral results showed faster reactions when approaching physical activity compared to sedentary behaviors and when avoiding sedentary behaviors compared to physical activity. These faster reactions were more pronounced in physically active individuals and were associated with changes during sensory integration (earlier onset latency and larger positive deflection of the stimulus-locked lateralized readiness potentials) but not during motor preparation (no effect on the response-locked lateralized readiness potentials). Faster reactions when avoiding sedentary behaviors compared to physical activity were also associated with higher conflict monitoring (larger early and late N1 event-related potentials) and higher inhibition (larger N2 event-related potentials), irrespective of the usual level of physical activity. These results suggest that additional cortical resources were required to counteract an attraction to sedentary behaviors. Data and Materials [https://doi.org/10.5281/zenodo.1169140]. Preprint [https://doi.org/10.1101/277988].

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“…The metabolic rate was shown to influence body size, resource use, rate of senescence and survival probability (Berghänel et al, 2015; Brown et al, 2004; DeLong et al, 2010; Munch and Salinas, 2009; Strotz et al, 2018; Voorhies and Ward, 1999). Preserving muscle effort may thus represent an essential pursuit for the brain (Baraduc et al, 2013; Bramble and Lieberman, 2004; Carrier et al, 2011; Cheval et al, 2018a, 2018b; Farshchiansadegh et al, 2016; Huang et al, 2012; Inzlicht et al, 2018; Kurzban et al, 2013; Lee et al, 2016; Lieberman, 2015; Mazzoni et al, 2007; Morel et al, 2017; Pageaux, 2016; Pageaux and Gaveau, 2016; Selinger et al, 2015; Shadmehr et al, 2016; Walton et al, 2006; Wang and Dounskaia, 2012).…”

Section: Discussionmentioning

confidence: 99%

A cross-species neural integration of gravity for motor optimisation

Gaveau

Grosprêtre

Angelaki

et al. 2019

Preprint

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15Recent kinematic results, combined with model simulations, have provided support for the 16 hypothesis that the human brain uses an internal model of gravity to shape motor patterns that 17 minimise muscle effort. Because many different muscular activation patterns can give rise to 18 the same trajectory, here we analyse muscular activation patterns during single-degree-of-19 freedom arm movements in various directions, which allow to specifically investigating 20 gravity-related movement properties. Using a well-known decomposition method of tonic and 21 phasic electromyographic activities, we demonstrate that phasic EMGs present systematic 22 negative phases. This negativity demonstrates that gravity effects are harvested to save 23 muscle effort and reveals that the brain implements an optimal motor plan using gravity to 24 accelerate downward and decelerate upward movements. Furthermore, for the first time, we 25 compare experimental findings in humans to monkeys, thereby generalising the Effort-26 optimization strategy across species. 27 the velocity and acceleration of the limb -and the gravity forces -related to the position of 51

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The Exercise–Affect–Adherence Pathway: An Evolutionary Perspective

Cited by 131 publications

References 87 publications

Behavioral and neural evidence of the rewarding value of exercise behaviors: A systematic review

Behavioral and neural evidence of the rewarding value of exercise behaviors: A systematic review

Avoiding sedentary behaviors requires more cortical resources than avoiding physical activity: An EEG study

A cross-species neural integration of gravity for motor optimisation

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