Return to search

A Comparison of Effects Between Post Exercise Resting Metabolic Rate after Thirty Minutes of Intermittent Treadmill and Resistance Exercise

PURPOSE: The purpose of the present study is to evaluate the acute effects of resistance exercise (RE) and intermittent anaerobic treadmill (IT) exercise matched for relative exercise intensity and duration on 14 hour post-exercise metabolic rate (MR) and 24 hour post-exercise resting metabolic rate (RMR) in healthy females. METHODS: Seven aerobically (>46 ml/kg/min) and resistance trained female college students, 18-30 yrs, were recruited. Subjects completed a running maximal oxygen uptake (VO2max) test, and one repetition maximal (1RM) tests for 5 resistance exercises. These tests were conducted at least 7 days prior to the exercise protocols. Subjects slept overnight in the laboratory for two consecutive nights during their early follicular menstrual phase. Evening and morning metabolic measurements were taken (9:30 p.m and 6:30 a.m) by indirect calorimetry. The subjects underwent one control night and then completed one exercise bout following the control morning RMR. Following the exercise protocol MR and RMR were measured again at 14 and 24 hours respectively. The subjects returned during a following menstrual cycle to complete the second exercise protocol. The two exercise protocols that were randomly assigned were RE and IT. Exercise duration (30 min), interval:recovery time (30 sec:60sec) was constant between the two protocols. The intensity for the IT was > 90% VO2max and the intensity of RE was 80% of 1RM lifts. Repeated measures analysis of variance was used to determine significance among the three conditions (control, RE, IT) for 14 hour MR and 24 hour RMR. Significance was accepted at p≤0.05. RESULTS: Kilocalories expended and heart rate during IT were significantly higher (298 ± 49 kcals; 169 ± 11 bpm) than RE (129 ± 29 kcals; 134 ± 18 bpm). At 14 hours post-exercise MR was significantly different among the three conditions (F (1.1,6.6)= 6.03; p≤0.05, effect size (ES)=0.50). MR was 8.8 and 11.8% higher for the IT and RE, respectively compared to control conditions. At 24 hours post-exercise RMR was not significantly different among the three conditions (F(2,12)= 2.70; p>0.05, ES=.31). CONCLUSION: Both protocols demonstrated that 30 minutes of intermittent-high intensity exercise can increase energy expenditure for up to 14 hours after exercise. This may have important implications for weight loss programs.46 ml/kg/min) and resistance trained female college students, 18-30 yrs, were recruited. Subjects completed a running maximal oxygen uptake (VO2max) test, and one repetition maximal (1RM) tests for 5 resistance exercises. These tests were conducted at least 7 days prior to the exercise protocols. Subjects slept overnight in the laboratory for two consecutive nights during their early follicular menstrual phase. Evening and morning metabolic measurements were taken (9:30 p.m and 6:30 a.m) by indirect calorimetry. The subjects underwent one control night and then completed one exercise bout following the control morning RMR. Following the exercise protocol MR and RMR were measured again at 14 and 24 hours respectively. The subjects returned during a following menstrual cycle to complete the second exercise protocol. The two exercise protocols that were randomly assigned were RE and IT. Exercise duration (30 min), interval:recovery time (30 sec:60sec) was constant between the two protocols. The intensity for the IT was > 90% VO2max and the intensity of RE was 80% of 1RM lifts. Repeated measures analysis of variance was used to determine significance among the three conditions (control, RE, IT) for 14 hour MR and 24 hour RMR. Significance was accepted at p≤0.05. RESULTS: Kilocalories expended and heart rate during IT were significantly higher (298 ± 49 kcals; 169 ± 11 bpm) than RE (129 ± 29 kcals; 134 ± 18 bpm). At 14 hours post-exercise MR was significantly different among the three conditions (F (1.1,6.6)= 6.03; p≤0.05, effect size (ES)=0.50). MR was 8.8 and 11.8% higher for the IT and RE, respectively compared to control conditions. At 24 hours post-exercise RMR was not significantly different among the three conditions (F(2,12)= 2.70; p>0.05, ES=.31). CONCLUSION: Both protocols demonstrated that 30 minutes of intermittent-high intensity exercise can increase energy expenditure for up to 14 hours after exercise. This may have important implications for weight loss programs. 90% VO2max and the intensity of RE was 80% of 1RM lifts. Repeated measures analysis of variance was used to determine significance among the three conditions (control, RE, IT) for 14 hour MR and 24 hour RMR. Significance was accepted at p≤0.05. RESULTS: Kilocalories expended and heart rate during IT were significantly higher (298 ± 49 kcals; 169 ± 11 bpm) than RE (129 ± 29 kcals; 134 ± 18 bpm). At 14 hours post-exercise MR was significantly different among the three conditions (F (1.1,6.6)= 6.03; p≤0.05, effect size (ES)=0.50). MR was 8.8 and 11.8% higher for the IT and RE, respectively compared to control conditions. At 24 hours post-exercise RMR was not significantly different among the three conditions (F(2,12)= 2.70; p>0.05, ES=.31). CONCLUSION: Both protocols demonstrated that 30 minutes of intermittent-high intensity exercise can increase energy expenditure for up to 14 hours after exercise. This may have important implications for weight loss programs.0.05, ES=.31). CONCLUSION: Both protocols demonstrated that 30 minutes of intermittent-high intensity exercise can increase energy expenditure for up to 14 hours after exercise. This may have important implications for weight loss programs. / A Thesis Submitted to the Department of Nutrition, Food & Exercise Sciences in Partial Fulfillment of the Requirements for the Degree of Masters of
Science. / Summer Semester, 2007. / July 2, 2007. / Interval Exercise RMR, EPOC, Weight Loss, Resistance Exercise, Women / Includes bibliographical references. / Lynn Panton, Professor Directing Thesis; Arturo Figueroa, Committee Member; Steve Mills, Committee Member.

Identiferoai:union.ndltd.org:fsu.edu/oai:fsu.digital.flvc.org:fsu_180658
ContributorsMeuret, Julie (authoraut), Panton, Lynn (professor directing thesis), Figueroa, Arturo (committee member), Mills, Steve (committee member), Department of Nutrition, Food, and Exercise Science (degree granting department), Florida State University (degree granting institution)
PublisherFlorida State University, Florida State University
Source SetsFlorida State University
LanguageEnglish, English
Detected LanguageEnglish
TypeText, text
Format1 online resource, computer, application/pdf
RightsThis Item is protected by copyright and/or related rights. You are free to use this Item in any way that is permitted by the copyright and related rights legislation that applies to your use. For other uses you need to obtain permission from the rights-holder(s). The copyright in theses and dissertations completed at Florida State University is held by the students who author them.

Page generated in 0.0021 seconds