The Effect of High Intensity Interval Exercise with Blood Flow Restriction on Anti-Oxidation Enzymes and Cellular Damage Factors in Recovery Time Courses among Inactive Females

Document Type : Research Paper

Authors

1 M.Sc. of Sport Physiology, Kharazmi University

2 Assistant Professor of Sport Physiology, Kharazmi University

3 Associate Professor of Sport Physiology, Kharazmi University

Abstract

The purpose of this study was to determine the effect of a session of High intensity interval exercise with blood flow restriction on anti-oxidation system and the cellular damage indicators at recovery time courses among inactive females. for this purpose ,14 inactive female students of kharazmi university with (average height 161.21±6.69 cm, Weight 58.92±6.81 kg, age 25.75±1.86 years, body mass index (BMI) 22.48±2.53 kg per m2 and Vo2max 39.87±4.87ml/kg/min) participated in this study voluntarily. The participants were divided into two groups: with blood flow restriction (7 persons) and without the blood flow restriction (7 persons) participants after completing the conset, and questionnaires about lifestyle and daily physical activities took part in the test. Before, Immediately, after 3 hours and 48 hours ofter testing blood samples were taken from the participants to specify the amount of anti-oxidant enzyme and cellular damage indicators using the ELISA laboratory method. Kolmogorow-Smirnow test was used to evaluate how data distribution is normal, ofter that ANOVA test with two-way repeated measurements and inter group factor was used at significance level of (P<0.05), if there was any significant difference Bonferroni was used. The results showed in response to one session high-intensity interval exercise with blood flow restriction and without blood flow restriction groups there were significantly differences in glutathione reductase and also lactate dehydrogenase. But there was a significant difference in the amount of creatine kinase of both with or without blood flow restriction groups.

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Main Subjects

References

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Sport Physiology
Volume 10, Issue 37
Spring 2018
April 2018
Pages 49-62

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History

  • Receive Date: 01 January 2016
  • Revise Date: 28 May 2016
  • Accept Date: 07 June 2016

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