Browsing by Author "Ohlman, Thomas"

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    Active Gaming as a Form of Exercise to Induce Hypoalgesia
    (Liebert, 2017-08) Carey, Christopher; Naugle, Keith E.; Aqeel, Dania; Ohlman, Thomas; Naugle, Kelly M.; Kinesiology, School of Physical Education and Tourism Management
    Objective: An acute bout of moderate-to-vigorous exercise temporarily reduces pain sensitivity in healthy adults. Recently, active gaming has been rising in popularity as a means of light-to-moderate exercise and may be particularly suitable for deconditioned individuals. Whether the physical activity elicited in active games can produce a hypoalgesic effect remains unknown. The purpose of this study was to determine whether active videogames can reduce pressure and heat pain sensitivity in healthy adults. We also evaluated the relationship between the physical activity elicited by the games and the magnitude of the hypoalgesic response. Materials and Methods: Twenty-one healthy adults played four different active games on separate days, including Microsoft® Kinect Xbox® One's Fighter Within and Sports Rival's Tennis, and Nintendo® Wii™ Sports' Boxing and Tennis. Heat pain thresholds on the forearm and pressure pain thresholds (PPTs) on the trapezius and forearm were assessed immediately before and after a 15-minute active gaming or control session. Minutes spent in sedentary time and moderate-to-vigorous physical activity (MVPA) during active gaming were measured with an accelerometer. Results: The analyses revealed that PPTs at the forearm and trapezius significantly increased from pretest to posttest following Kinect Fighter Within. PPTs at the trapezius also significantly increased from pretest to posttest following Wii Boxing. The magnitude of the hypoalgesic response was significantly correlated with MVPA and sedentary time during gameplay. Conclusion: These results suggest that an active gaming session played at a moderate intensity is capable of temporarily reducing pain sensitivity.
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    Physical Activity Levels Predict Exercise-induced Hypoalgesia in Older Adults
    (Wolters Kluwer, 2018-05) Ohlman, Thomas; Miller, Leah; Naugle, Keith E.; Naugle, Kelly M.; Kinesiology, School of Physical Education and Tourism Management
    Prior research indicates that older adults exhibit a deficient capacity to activate multiple pain inhibitory mechanisms, including pain inhibition after acute exercise termed exercise-induced hypoalgesia (EIH). The influence of physical activity levels and psychological processes on EIH in older adults remains unclear. PURPOSE This study examined potential psychological and physical activity predictors of the magnitude of EIH following submaximal isometric exercise in healthy older adult men and women. METHODS Fifty-two healthy older adults completed a test of EIH, the Pain Catastrophizing Scale, the Tampa Scale of Kinesiophobia, and wore an accelerometer on the hip for one week to assess physical activity levels. For the test of EIH, participants complete a 3-minute isometric handgrip at 25% of maximum voluntary contraction. Pressure pain thresholds (PPTs) and a 30-sec continuous heat pain test were completed before and immediately after the exercise. RESULTS Mixed model ANOVAs revealed that older adults demonstrated significantly decreased PPTs following isometric exercise (p=.030), and no changes on the heat pain trials from pre to post test (p>.05). A multiple regression revealed that accumulated moderate to vigorous physical activity (MVPA) per week significantly predicted the change in PPT following exercise (β=0.35, p=.012). Participants who averaged greater MVPA experienced a greater increase in PPTs after exercise. No relationships were found with EIH and the psychological variables. CONCLUSIONS Older adults did not exhibit EIH following submaximal isometric exercise. However, those who did more MVPA per week experienced a greater magnitude of pain inhibition following acute exercise.
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    Sensitivity to Physical Activity Predicts Daily Activity Among Pain-Free Older Adults
    (Oxford, 2018-08) Miller, Leah; Ohlman, Thomas; Naugle, Kelly Marie; Kinesiology, School of Health and Human Sciences
    Objective Prior research indicates that older adults with knee osteoarthritis have increased sensitivity to physical activity (SPA) and respond to physical activities of stable intensity with increases in pain. Whether SPA is present in healthy older adults without chronic pain and predicts functional outcomes remains relatively unexplored. The purpose of this study was to determine the degree of SPA in healthy older adults in response to a standardized walking task, and whether SPA was associated with temporal summation of pain, pain-related fear of movement, and functional outcomes. Methods Fifty-two older adults without chronic pain completed self-reported measures of activity-related pain and physical function, completed the Six-Minute Walk Test (6MWT), underwent quantitative sensory testing to measure temporal summation of heat pain, and wore an accelerometer for one week to measure physical activity behavior. Subjects rated overall bodily discomfort (0–100 scale) prior to and during each minute of the 6MWT. An SPA index was created by subtracting the initial bodily discomfort ratings from the peak ratings. Results Repeated-measures analysis of variance indicated that bodily discomfort significantly increased across the walking task, with approximately 60% of the sample experiencing SPA. Hierarchical regressions indicated that greater SPA was associated with fewer average steps per day and greater activity-related pain. Additionally, analyses revealed that temporal summation of pain and pain-related fear of movement significantly predicted the degree of SPA on the walking task. Conclusions These findings shed light on potential mechanisms underlying SPA in older adults and suggest that SPA might be a risk factor for reduced physical activity.