The effectiveness of five types of cognitive preparation on strength performance was examined in a 2 X 5 (Pre- and Posttest × Mental Preparation Condition) design, with repeated measures on pre-posttest. The mental preparation conditions were: arousal, attention, imagery, self-efficacy, and a control read condition. Immediately following the posttest trials, subjects completed a questionnaire measuring various cognitive states. The results showed that preparatory arousal and self-efficacy techniques produced significantly greater posttest strength performance than the control group. Analysis of the postexperimental questionnaire data suggested that a general effect of the preparation strategies used was to focus attention on the task to be performed. It was concluded that the effectiveness of a particular cognitive strategy may depend on the nature of the task to be performed and the particular aspects of the task to which attention is directed.
Robert L. Wilkes and Jeffery J. Summers
Kathryn T. Goode and David L. Roth
Experienced runners completed a Thoughts During Running Scale (TORS) immediately after a typical training run to assess the prevalence of certain thoughts during running. The Profile of Mood States (POMS) was also completed before and after the run. Confirmatory factor analyses revealed that a five-factor model provided better fit than simpler models. Items concerning the demands of the running activity and the monitoring of body responses loaded on one "associative" factor. The four "nonassociative" factors in this model were labeled Daily Events, Interpersonal Relationships, External Surroundings, and Spiritual Reflection. Correlational analyses indicated small but significant relationships between the TDRS dimensions and changes in mood. Increases in vigor were correlated with the tendency to engage in nonassociative thought, and decreases in tension and anxiety were found among those who thought about interpersonal relationships during the run. These results supplement findings on the effects of certain thought patterns during strenuous exercise.
Lieselot Decroix, Maria Francesca Piacentini, Gerard Rietjens and Romain Meeusen
High training loads combined with other stressors can lead to performance decrements. The time needed to recover determines the diagnosis of (non)-functional overreaching or the overtraining syndrome. The aim of this study was to describe the effects of an 8-day (intensified) training camp of professional female cyclists on physical and cognitive performance.
Nine subjects performed a 30-min time trial (TT), cognitive test, and Profile of Mood States questionnaire before, during, and after a training camp (49% increased training volume). On data collection, cyclists were classified as “overreached” (OR) or “adapted” (A) based on TT performance. Two-way repeated-measures analysis of variance was used to detect changes in physical and cognitive parameters.
Five cyclists were described as OR based on decreased mean power output (MPO) (–7.03%) on day 8. Four cyclists were classified as A (increased MPO: +1.72%). MPO and maximal heart rate were significantly different between A and OR groups. A significant slower reaction time (RT) (+3.35%) was found in OR subjects, whereas RT decreased (–4.59%) in A subjects. The change in MPO was negatively correlated with change in RT in the cognitive test (R 2 = .52).
This study showed that the use of objective, inexpensive, and easy-to-interpret physical and cognitive tests can facilitate the monitoring of training adaptations in professional female athletes.
Phillip D. Tomporowski
Several approaches have been taken to evaluate the effects of physical and mental training interventions on the mental abilities of older adults. A selective review of theory-based research suggests that older adults’ mental functioning may improve following both forms of training; however, the mechanisms that underlie these changes are not well understood. Several multidisciplinary approaches are evaluated that may help to explain how both exercise and mental training interventions may modify or offset age-related declines in mental abilities.
Jamie L. Moul, Bert Goldman and Beverly Warren
The effect of exercise on cognitive performance in an older population was studied. Thirty sedentary men and women 65–72 years of age were randomly assigned to a walking group, a weight training group, or a placebo control group. Intervention groups exercised 30–60 min 5 days per week for 16 weeks, with the walking group training at 60% heart rate reserve, the weight training group employing the DAPRE method of weight progression, and the placebo control group engaging in mild range-of-motion and flexibility movements that kept their heart rates close to resting levels. At baseline and 16 weeks posttraining each subject completed the Ross Information Processing Assessment (RIPA), a maximal graded treadmill test, and a strength assessment of the knee extensors and elbow flexors. Sixteen weeks of walking improved VO2peak of the sedentary subjects 15.8%; VO2peak did not improve in the other two groups. Additionally, the RIPA scores of the walking group increased 7.5%, while those of the weight-training and control groups showed little change.
Arthur D. Fisk and Wendy A. Rogers
Two important questions are addressed in this article. The first concerns whether performance of well-learned skills is maintained as individuals grow older. The second question concerns whether older adults are able to acquire new skills. The answer to both questions is “yes”; however, the acquisition rate and the final performance level for newly acquired skills is generally less for older adults than for younger adults. The article resolves an apparent puzzle of how it is that older adults are capable of successful performance of everyday activities, given noted declines in cognitive-ability-type tasks shown for performance in laboratory studies. A brief discussion of age-related training strategies to enhance skill learning is provided.
Arthur F. Kramer, Sowon Hahn and Edward McAuley
The article provides a brief review of the literature on the relationship between aerobic Fitness and neurocognitive function, particularly as it relates to older adults. Cross-sectional studies provide strong support for the beneficial influence of fitness on neurocognitive function. The longitudinal or interventional literature, however, provides more equivocal support for this relationship. In discussing the literature, the authors introduce a new hypothesis, the executive control/fitness hypothesis, which suggests that selective neurocognitive benefits will be observed with improvements in aerobic fitness; that is, executive control processes that include planning, scheduling, task coordination, inhibition, and working memory will benefit from enhanced fitness. Preliminary evidence for this hypothesis is discussed.
Sarah Kelly, Len Coote, T. Bettina Cornwell and Anna McAlister
This research provides insight into the complex relationship between consumer response to persuasion attempts and skepticism, suggesting that erstwhile targets may be swayed by campaigns pitched as a form of entertainment. The authors examine consumer responses to an important sponsorship-leveraging tool: sponsorship-linked advertising (SLA). A theoretical model of consumer response to SLA is proposed, drawing on important resistance mechanisms to persuasion, including ad skepticism, attributed advertiser motives, and the nature of thoughts. Results confirm existing research on consumer skepticism suggesting its transitory nature and hence potential for advertisers to strategically temper it through specific cues in ad execution. Differential processing between SLA and traditional advertising is supported, such that SLA elicits more favorable cognitive response.
Sandra A. Billinger, Eric D. Vidoni, Jill K. Morris, John P. Thyfault and Jeffrey M. Burns
Positive physiologic and cognitive responses to aerobic exercise have resulted in a proposed cardiorespiratory (CR) fitness hypothesis in which fitness gains drive changes leading to cognitive benefit. The purpose of this study was to directly assess the CR fitness hypothesis. Using data from an aerobic exercise trial, we examined individuals who completed cardiopulmonary and cognitive testing at baseline and 26 weeks. Change in cognitive test performance was not related to CR fitness change (r 2 = .06, p = .06). However, in the subset of individuals who gave excellent effort during exercise testing, change in cognitive test performance was related to CR fitness change (r 2 = .33, p < .01). This was largely due to change in the cognitive domain of attention (r 2 = .36, p < .01). The magnitude of change was not explained by duration of exercise. Our findings support further investigation of the CR fitness hypothesis and mechanisms by which physiologic adaptation may drive cognitive change.
Angela L. Ridgel, Chul-Ho Kim, Emily J. Fickes, Matthew D. Muller and Jay L. Alberts
Individuals with Parkinson’s disease (PD) often experience cognitive declines. Although pharmacologic therapies are helpful in treating motor deficits in PD, they do not appear to be effective for cognitive complications. Acute bouts of moderate aerobic exercise have been shown to improve cognitive function in healthy adults. However, individuals with PD often have difficulty with exercise. This study examined the effects of passive leg cycling on executive function in PD. Executive function was assessed with Trail-Making Test (TMT) A and B before and after passive leg cycling. Significant improvements on the TMT-B test occurred after passive leg cycling. Furthermore, the difference between times to complete the TMT-B and TMT-A significantly decreased from precycling to postcycling. Improved executive function after passive cycling may be a result of increases in cerebral blood flow. These findings suggest that passive exercise could be a concurrent therapy for cognitive decline in PD.