The impact of wearable weights on perceptual responses to treadmill walking

Kuczynski, Ashley T

01 June 2009

The growing public health burden associated with insufficient physical activity has resulted in the development of numerous health initiatives and products aimed at stabilizing and reversing the negative trends reported in epidemiological literature. A relatively novel product that has only recently made its way to the market are wearable weights. These products are designed to be worn on the lower legs and arms along with regular clothing as a means to increase caloric expenditure. However, no research to date has tested the efficacy of this product. PURPOSE: Compare psychological responses within bouts of aerobic exercise that vary on intensity and the presence of wearable weights. METHODS: Seventeen (11 female, 6 male, mean age = 24 years, mean BMI = 25.0 ) healthy volunteers were tested for aerobic fitness on a treadmill to determine VO2 max (mean = 44 ml x kg-1 x min-1). Participants then completed eight 30-minute walking trials on a treadmill while three ratings of perceived exertion (RPE - overall, RPE - chest and breathing, and RPE - legs ) were monitored while walking at different speeds and with varying combination of upper and lower body wearable weights. The design included two intensities (slow walking and brisk walking) and four conditions (no weights, arm weights, leg weights, and arm and leg weights) for a total of eight experimental trials. RESULTS: Data were analyzed using ANOVA and pairwise comparisons. Analyses revealed RPE overall was significantly elevated (P < 0.05), as was RPE of the legs (p < 0.05) while wearing upper and lower weights in the brisk walk trial but not in the slow walk trial. CONCLUSIONS: Findings suggest that exercising while using wearable weights increases RPE for the legs and overall only during the faster walking trials. PRACTICAL APPLICATIONS: This finding suggests that physical activity associated with daily living could be enhanced through the wearing of weights that can be worn under clothing without increasing perceptions of effort. In contrast, findings relative to brisk walking suggest that any beneficial increase in energy expenditure is potentially offset by significantly increased effort.

Perceived exertion

Body togs

Exercise

Physical activity

Resistance

American Studies

Arts and Humanities

The Impact of Wearable Weights on the Cardiovascular and Metabolic Responses to Treadmill Walking

Fallon, Kristine M

06 April 2009

The growing public health burden associated with insufficient physical activity has resulted in the development of numerous health initiatives and products aimed at stabilizing and reversing the negative trends reported in epidemiological literature. A relatively novel product that has only recently made its way to the market are wearable weights called Body Togs®. These products are designed to be worn on the lower legs and arms along with regular clothing as a means to increase caloric expenditure. However, no research to date has tested the efficacy of this product. PURPOSE: Compare the physiological responses within bouts of aerobic exercise that vary on intensity and the presence of wearable weights. METHODS: Seventeen (11 female, 6 male, mean age = 24 years ± 5.92) healthy volunteers were tested for aerobic fitness on a treadmill to determine VO2 max (mean = 42.68 ml x kg-1 x min-1). Participants then completed eight 30-minute walking trials on a treadmill while oxygen consumption (VO2) and heart rate (HR) were monitored while walking at different speeds and with varying combination of upper and lower body wearable weights. The design included two intensities (slow walking and brisk walking) and four conditions (no weights, arm weights, leg weights, and arm and leg weights) for a total of eight experimental trials. RESULTS: Data were analyzed using ANOVA and pair-wise comparisons. Analyses revealed that VO2 was significantly lower without the wearable weights in comparison to wearing both upper and lower weights in the slow walk trial (P < 0.001; ES = 0.69) and also during the brisk walk trial (P < 0.001; ES = 0.62). HR was significantly higher during the brisk walk trials with togs on both the arms and legs (P=0.029, ES=0.31). CONCLUSIONS: Findings suggest that exercising while using wearable weights increases energy expenditure and has minimal impact on HR. PRACTICAL APPLICATIONS: This finding suggests that physical activity associated with daily living could be enhanced through the wearing of the Body Tog® weights that can be worn under clothing. Additionally, wearing the togs during exercise increases energy cost of walking, therefore allowing for possible weight loss applications.

exercise

oxygen consumption

heart rate

Body Togs®

energy expenditure

American Studies

Arts and Humanities