Effect of Post-Exercise Normobaric Hyperoxia Recovery on Resistance Exercise-induced Fatigue

博士 === 臺北市立大學 === 競技運動訓練研究所 === 105 === The purpose of this experiment is to study post-exercise recovery for metabolic capacity caused by the resistance movement, muscle damage and inflammation of the impact in normobaric hyperoxia enveronment . In this study, single-blind crossover design, with 10...

Full description

Bibliographic Details
Main Authors: Yang, Sun-Chin, 楊孫錦
Other Authors: Chen, Yi-Liang
Format: Others
Language:zh-TW
Published: 2017
Online Access:http://ndltd.ncl.edu.tw/handle/14262459780408130921
id ndltd-TW-105UT005418001
record_format oai_dc
spelling ndltd-TW-105UT0054180012017-03-31T04:39:14Z http://ndltd.ncl.edu.tw/handle/14262459780408130921 Effect of Post-Exercise Normobaric Hyperoxia Recovery on Resistance Exercise-induced Fatigue 運動後常壓高氧環境下恢復對於阻力運動引起疲勞指標之影響 Yang, Sun-Chin 楊孫錦 博士 臺北市立大學 競技運動訓練研究所 105 The purpose of this experiment is to study post-exercise recovery for metabolic capacity caused by the resistance movement, muscle damage and inflammation of the impact in normobaric hyperoxia enveronment . In this study, single-blind crossover design, with 10 subjects were divided into two groups of college athletes, normoxic group (N; normoxia) and hyperoxia group (H; hyperoxia). All players completed total six items of systemic resistance exercise with 85% of the maximum muscle strength. Within 90 minutes, breathing 21% and 60 % oxygen in the static recovery after exercise. OGTT test conducted immediately after exercise, and before exercise(Pre), immediately after exercise(Post), 30, 60, 90 minutes and 24 hours, measure oxidative stress, muscle damage indicators (creatine kinase) and inflammation index (interleukin 6, 10), also detected the performance, muscle pain and heart rate variability rate understanding autonomy changes in nerve, before and after exercise. It was found that after resistance exercise in the normobaric hyperxica recovery increased oxidative stress but insulin sensitivity and muscle pain decrease ; Post-inflammatory factor and muscle pain relative decreased but decreased muscle strength. Chen, Yi-Liang 陳奕良 2017 學位論文 ; thesis 73 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 博士 === 臺北市立大學 === 競技運動訓練研究所 === 105 === The purpose of this experiment is to study post-exercise recovery for metabolic capacity caused by the resistance movement, muscle damage and inflammation of the impact in normobaric hyperoxia enveronment . In this study, single-blind crossover design, with 10 subjects were divided into two groups of college athletes, normoxic group (N; normoxia) and hyperoxia group (H; hyperoxia). All players completed total six items of systemic resistance exercise with 85% of the maximum muscle strength. Within 90 minutes, breathing 21% and 60 % oxygen in the static recovery after exercise. OGTT test conducted immediately after exercise, and before exercise(Pre), immediately after exercise(Post), 30, 60, 90 minutes and 24 hours, measure oxidative stress, muscle damage indicators (creatine kinase) and inflammation index (interleukin 6, 10), also detected the performance, muscle pain and heart rate variability rate understanding autonomy changes in nerve, before and after exercise. It was found that after resistance exercise in the normobaric hyperxica recovery increased oxidative stress but insulin sensitivity and muscle pain decrease ; Post-inflammatory factor and muscle pain relative decreased but decreased muscle strength.
author2 Chen, Yi-Liang
author_facet Chen, Yi-Liang
Yang, Sun-Chin
楊孫錦
author Yang, Sun-Chin
楊孫錦
spellingShingle Yang, Sun-Chin
楊孫錦
Effect of Post-Exercise Normobaric Hyperoxia Recovery on Resistance Exercise-induced Fatigue
author_sort Yang, Sun-Chin
title Effect of Post-Exercise Normobaric Hyperoxia Recovery on Resistance Exercise-induced Fatigue
title_short Effect of Post-Exercise Normobaric Hyperoxia Recovery on Resistance Exercise-induced Fatigue
title_full Effect of Post-Exercise Normobaric Hyperoxia Recovery on Resistance Exercise-induced Fatigue
title_fullStr Effect of Post-Exercise Normobaric Hyperoxia Recovery on Resistance Exercise-induced Fatigue
title_full_unstemmed Effect of Post-Exercise Normobaric Hyperoxia Recovery on Resistance Exercise-induced Fatigue
title_sort effect of post-exercise normobaric hyperoxia recovery on resistance exercise-induced fatigue
publishDate 2017
url http://ndltd.ncl.edu.tw/handle/14262459780408130921
work_keys_str_mv AT yangsunchin effectofpostexercisenormobarichyperoxiarecoveryonresistanceexerciseinducedfatigue
AT yángsūnjǐn effectofpostexercisenormobarichyperoxiarecoveryonresistanceexerciseinducedfatigue
AT yangsunchin yùndònghòuchángyāgāoyǎnghuánjìngxiàhuīfùduìyúzǔlìyùndòngyǐnqǐpíláozhǐbiāozhīyǐngxiǎng
AT yángsūnjǐn yùndònghòuchángyāgāoyǎnghuánjìngxiàhuīfùduìyúzǔlìyùndòngyǐnqǐpíláozhǐbiāozhīyǐngxiǎng
_version_ 1718435914441555968