A call for an exercise prescription aiming at pleasure promotion has been proposed by several authors. This entails that current exercise prescription guidelines are heavily focused on a dose-response relation derived from an effectiveness (e.g., fitness gains) and safety of the prescription (e.g., reduced risk of injury for the general population) standpoint. Despite its relevance, this bipartite or biomedical approach (e.g., rationale for a given dose of a drug and expected outcome) tends to overlook other relevant variables that are needed for, for example, behavior maintenance, or individual preferences. Although some flexibility of this rationale may account for personal differences, how to adequately adjust the training variables to individual characteristics is still poorly explored or even expressed. The call for a tripartite exercise prescription reflects the bout of evidence that supports the relevance of pleasurable experiences in exercise and their impact on adherence. Thus, besides an effective and safe program, contemplating how to assess and promote exercise-related pleasurable experiences are paramount. As stated in 2011 on the ACSM position stand, affect-regulation did not behold the necessary evidence to be a primary method of exercise prescription, although affect assessment (e.g., through the feeling scale) was proposed to be relevant for exercise intensity self-regulation. A decennial look at the ACSM exercise guidelines shows that although presenting an advancement in affect-related behavioral strategies and theories, no clear indications on operational instruments for assessment and admeasurement of affect are presented depicts a barrier to an adequate advancement in this matter. This can be seen, for example, in ACSM principles for exercise prescription (Frequency, Intensity, Time, and Type; FITT). Although supporting the use of affect regulation for exercise promotion and maintenance, the FITT is not based on a previous (e.g., preexercise evaluation) or in-session affective assessment, and more importantly, does not address how to adjust exercise prescription/supervision aiming to improve the pleasure/displeasure relation.
Background and rationale From a public health standpoint, gyms and health clubs are one of the most relevant contexts of supervised exercise practice, targeting millions of individuals worldwide. However, exercise adherence has proven to be a challenge in the last 20 years. Several indicators show high attrition rates (i.e., clients' dropout in a given period) in these contexts, particularly in the first 6 months. Individual physical activity promotion can be challenging as it reflects several aspects of a complex human behavior. Many psychological theories and strategies have been used to address this issue, albeit with differentiated results. These are usually based on cognitivist assumptions and have shown small to moderate effects on exercise adherence. However, in recent years, exercise psychology started to shift attention to other constructs that can help expand the predictive value of current theoretical models. Particularly, affective processes (e.g., emotions, mood) have been highlighted as relevant when trying to understand or predict behavior, and a call for a new era - the affectivism - is emerging. This reflects a new parading resulting from decades of evidence in which affective processes can be seen as outcomes, but also as relevant constructs that can expand the understanding of current behavioral strategies and theories. For example, the latest edition of the American College of Sports Medicine (ACSM) guidelines presented an expanded chapter addressing behavioral theories for increasing physical activity, which, besides the most commonly used (e.g., self-efficacy, self-determination theory, theory of planned behavior), now explores affect regulation as a product of non-conscious motivational processes (e.g., dual-process theories), and the automatic associations between behavior and previous affective response (i.e., remembered affect). Affective determinants in exercise and the role of exercise intensity Affect can be understood as an umbrella term that encompasses (1) the most general valenced experiential responses (e.g., pleasure/displeasure; good/bad), termed basic affect or core affect, and (2) emotion and mood, which reflects appraisal processes of basic affect, and are usually called distinct affective states. Several theories and models have been developed in recent years that reflect this conceptualization and the evidence of affect-related constructs, as is the case, for example, of the Affective-Reflective Theory of physical inactivity and exercise (ART); the Physical Activity Adoption and Maintenance (PAAM) model; the Theory of Effort Minimization in Physical Activity (TEMPA), and the Affect and Health Behavior Framework (AHBF). In the broader look given by the AHBF, the affective response (i.e., how one feels while performing an activity or immediately after completing the activity; core affect), triggers a set of influences that can, via an automatic or reflective affect processing, influence motivation, goals, behavioral intentions and, ultimately, the exercise behavior. As shown in some research, the affective response during exercise has demonstrated to be a determinant of future behavior, and core affective valence and activation the most relevant aspects in this matter. This seems to be grounded in hedonic assumptions (i.e., pursuing pleasure and avoiding displeasure or pain), in which positive (and regular) shifts in affective valence and/or activation tend to increase the likelihood of future exercise behavior, and a negative shift may have an opposite influence. Regarding exercise characteristics that may influence the affective response, exercise intensity stand out as the most relevant. Current evidence suggests that people present distinct responses as intensity increases. Generally, aerobic activities intensities below the ventilator threshold depict similar patterns among exercisers, given that an increase in intensity usually corresponds to an increase in the pleasurable response. After the ventilator threshold, inter-individual variability marks how soon or accentuated the pleasure decline will be manifested. For resistance training, some evidence also indicates that increases in intensity (e.g., Repetition Maximum (RM) %) are positively associated with pleasure until the 70-80 RM% interval, a moment from which individual characteristics will reflect, albeit unclear at this point at which rate or magnitude, an inverted association with pleasure. Thus, targeting the intensity-pleasure/displeasure relation individually may be of particular relevance for the exercise domain when aiming to promote adherence. Exercise prescription - a tripartite approach A call for an exercise prescription aiming pleasure promotion has been proposed by several authors. This entails that current exercise prescription guidelines are heavily focused on a dose-response relation derived from an effectiveness (e.g., fitness gains) and safety of the prescription (e.g., reduced risk of injury for the general population) standpoint. Despite its relevance, this bipartite or biomedical approach (e.g., rationale for a given dose of a drug and expected outcome) tends to overlook other relevant variables needed for, for example, behavior maintenance or individual preferences. Although some flexibility of this rationale may account for personal differences, how to adequately adjust the training variables to individual characteristics is still poorly explored or even expressed. The call for a tripartite exercise prescription reflects the bout of evidence that supports the relevance of pleasurable experiences in exercise and their impact on adherence. Thus, besides an effective and safe program, contemplating how to assess and promote exercise-related pleasurable experiences are paramount. As stated in 2011 on the ACSM position stand, affect-regulation did not behold the necessary evidence to be a primary method of exercise prescription, although affect assessment (e.g., through the feeling scale) was proposed to be relevant for exercise intensity self-regulation. A decennial look at the ACSM exercise guidelines shows, and although presenting an advancement in affect-related behavioral strategies and theories, that no clear indications on operational instruments for assessment and admeasurement of affect are presented, which depicts a barrier to an adequate advancement in this matter. This can be seen, for example, in ACSM principles for exercise prescription (Frequency, Intensity, Time, and Type; FITT). Although supporting the use of affect regulation for exercise promotion and maintenance, the FITT is not based on a previous (e.g., preexercise evaluation) or in-session affective assessment, and more importantly, does not address how to adjust exercise prescription/supervision aiming to improve the pleasure/displeasure relation.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
SINGLE
Enrollment
46
The (1) control group (FITT) will receive a preexercise evaluation and 3 individualized training sessions based on the ACSM and FITT principles (ACSM, 2021). These are the procedures commonly used for apparently healthy individuals that start to exercise in health clubs.
As for the (2) experimental group (AFFECT), the focus will be given to exercise intensity assessment and manipulation. The same preexercise evaluation, number of individualized sessions, and methodological approach (i.e., FITT) will be made. However, individual preferences and experiences regarding exercise intensity will be assessed in the preexercise evaluation. These will be used to select the exercise sessions' initial intensity. Moreover, intensity self-selection guidance and affective response assessments will be made throughout the session for continuous intensity adjustments (aiming for pleasurable feelings).
People Family Club
Lisbon, Portugal
Post-intervention exercise attendance to the health club
Post-intervention weekly exercise frequency, objectively measured by the accesses via the turnstile in the health clubs
Time frame: During 8 weeks, at day 7, 14, 21, 28, 35, 42, 49, and 56
Exercise habit measured with the Self-reported behavioral automaticity index (SRBAI)
Automaticity for exercise practice measured with the Self-reported behavioral automaticity index (SRBAI)
Time frame: 5 minutes before the first session
Exercise habit measured with the Self-reported behavioral automaticity index (SRBAI)
Automaticity for exercise practice measured with the Self-reported behavioral automaticity index (SRBAI)
Time frame: 5 minutes after the last session
Initial behavioral intention to continue exercising; the intention to exercise questionnaire
Behavioral intention as defined by the theory of planned behavior with the intention to exercise questionnaire
Time frame: 5 minutes before the first session
Final behavioral intention to continue exercising; the intention to exercise questionnaire
Behavioral intention as defined by the theory of planned behavior with the intention to exercise questionnaire
Time frame: 5 minutes after the last session
Motivation to exercise measured with the enjoyment/interest scale of the Intrinsic Motivation Inventory
Intrinsic motivation measured with the enjoyment/interest scale Intrinsic Motivation Inventory
Time frame: 5 minutes before the first session
Motivation to exercise measured with the enjoyment/interest scale of the Intrinsic Motivation Inventory
Intrinsic motivation measured with the enjoyment/interest scale Intrinsic Motivation Inventory
Time frame: 5 minutes after the last session
Autonomy in exercise practice measured with the perceived choice scale of the Intrinsic Motivation Inventory
Autonomy in exercise practice measured with the perceived choice scale of the Intrinsic Motivation Inventory
Time frame: 5 minutes before the first session
Autonomy in exercise practice measured with the perceived choice scale of the Intrinsic Motivation Inventory
Autonomy in exercise practice measured with the perceived choice scale of the Intrinsic Motivation Inventory
Time frame: 5 minutes after the last session
Competence in exercise practice measured with the competence scale of the Intrinsic Motivation Inventory
Competence in exercise practice measured with the competence scale of the Intrinsic Motivation Inventory
Time frame: 5 minutes before the first session
Competence in exercise practice measured with the competence scale of the Intrinsic Motivation Inventory
Competence in exercise practice measured with the competence scale of the Intrinsic Motivation Inventory
Time frame: 5 minutes after the last session
Subjective vitality in exercise measured with the subjective vitality in exercise scale (SVS)
Subjective vitality in exercise measured with the subjective vitality in exercise scale (SVS) as defined by the self-determination theory
Time frame: 5 minutes before the first session
Subjective vitality in exercise measured with the subjective vitality in exercise scale (SVS)
Subjective vitality in exercise measured with the subjective vitality in exercise scale (SVS) as defined by the self-determination theory
Time frame: 5 minutes after the last session
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Time frame: At minute 5
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Time frame: At minute 10 of the session
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Time frame: At minute 15 of the session
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Time frame: Immediately after resistance exercise
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Time frame: Immediately after stretching exercise
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Time frame: At minute 45 of the session
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Time frame: At minute 50 of the session
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Feelings in exercise; assessed with the Feeling Scale; score ranges between -5 and +5; higher values represent a better outcome
Time frame: At minute 55 of the session
Arousal/Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Time frame: At minute 5
Arousal/Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Time frame: At minute 10
Arousal/Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Time frame: At minute 15
Arousal/Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Time frame: Immediately after resistance exercise
Arousal/Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Time frame: Immediately after stretching exercise
Arousal/Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Time frame: At minute 45
Arousal/Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Time frame: At minute 50
Arousal/Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Activation in exercise; assessed with the Felt Arousal Scale; score ranges between 1 and 6; higher values represent a better outcome
Time frame: At minute 55
Initial affective attitudes related to exercise
Individual affective attitudes for exercise measured with the Exercise and Me Questionnaire (AFFEXX)
Time frame: 5 minutes before the session
Final affective attitudes related to exercise
Individual affective attitudes for exercise measured with the Exercise and Me Questionnaire (AFFEXX)
Time frame: 48 hours after the end of the intervention (all sessions)
Exercise enjoyment measured with the the Physical Activity Enjoyment Scale (PACES)
Exercise enjoyment measured with the the Physical Activity Enjoyment Scale (PACES)
Time frame: Measured at baseline; 5 minutes before the session
Exercise enjoyment measured with the the Physical Activity Enjoyment Scale (PACES)
Exercise enjoyment measured with the the Physical Activity Enjoyment Scale (PACES)
Time frame: Measured at the end of the intervention (all sessions); 5 minutes after the last session
Anticipated affective response to exercise
Anticipated affective response to a future exercise session measured with the Empirical Valence Scale
Time frame: 5 minutes before the session
Final anticipated affective response to exercise
Anticipated affective response to a future exercise session measured with the Empirical Valence Scale
Time frame: 48 hours after the intervention
Remembered affect to the previous exercise session
Remembered affect of previous exercise session measured with the Visual Analog Scale
Time frame: 5 minutes before the session
Final remembered affect to the previous exercise session
Remembered affect of previous exercise session measured with the Visual Analog Scale
Time frame: 48 hours after the intervention
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