常壓高氧降低女性運動員阻力運動後恢復__臺灣人文及社會科學引文索引資料庫

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題名：	常壓高氧降低女性運動員阻力運動後恢復
書刊名：	大專體育學刊
作者：	楊孫錦／王潔玲／廖進安／陳奕良
作者(外文)：	Yang, Sun-chin／Wang, Chieh-ling／Liao, Chin-an／Chen, Yi-liang
出版日期：	2020
卷期：	22:2
頁次：	頁167-180
主題關鍵詞：	氧化壓力；發炎；心律變異度；Oxidative stress；Inflammation；Heart rate variability
原始連結：	連回原系統網址
相關次數：	被引用次數:期刊(0) 博士論文(0) 專書(0) 專書論文(0) 排除自我引用:0 共同引用:1 點閱:2

本研究之目的為探討常壓高氧對於單次高強度阻力運動後恢復之影響。本研究為隨機雙盲交叉試驗設計，共招募10名女性運動員（年齡21.0±1.0歲）作為受試者，並將其隨機分為常氧組（normoxia group, NG）與高氧組（hyperoxia group, HG），並進行單次高強度阻力運動以引起肌肉損傷。於運動後立即給予75g葡萄糖水溶液。NG與HG受試者於運動後分別以面罩與雙通閥（two-way non-rebreathing valves）供給90分鐘的常壓常氧（FiO_2=0.21）或高氧（FiO_2=0.60）。此除之外，於運動前後測量上下肢肌肉力量，並以血液量測葡萄糖耐受度、肌肉損傷、發炎、氧化壓力與心律變異度（heart rate variability, HRV）指標。研究結果顯示NG阻力運動後血液肌酸激酶（creatine kinase, CK）、硫化巴比妥酸反應物（thiobarbituric acid-reactive substances, TBARS）與介白素6（interleukin6,IL-6）增加，HRV之高頻功率（high frequency, HF）顯著降低。而HGTBARS濃度之變化於運動後30～60分鐘顯著高於NG，IL-6則於同時間點顯著低於NG。儘管如此，兩組間的CK與HRV指標於各時間點均無顯著差異。除此之外，HG運動後血糖與胰島素曲線下面積顯著高於NG。於運動表現方面，HG二頭肌力量於運動後90分鐘顯著低於前測，於運動後24小時顯著低於NG。本研究結論為高氧下恢復會增加阻力運動引起的氧化壓力與降低葡萄糖耐受度，此外也可能影響肌肉力量之恢復。

以文找文

This study aimed to investigate the effect of acute hyperoxia on recovery following resistance exercise. Ten female athletes participated in this crossover study and were divided into normoxia group (NG) and hyperoxia group (HG). All subjects performed an acute resistance exercises (3 sets, 6 repetitions/set, 85% 1 repetition maximum [1RM]). Seventy-five g glucose was administered to all subjects immediately after exercise. Normoxic (FiO_2 = 0.21) and hyperoxic (FiO_2 = 0.60) air was respectively supplied to the athletes of both groups by two-way non-rebreathing valves and masks for 90 min after exercise. Isometric biceps muscle strength, standing long jump, glucose tolerance, heart rate variability (HRV), and circulating markers of muscle damage, inflammation, and oxidative stress were determined before and after exercise. Results indicated that creatine kinase (CK), thiobarbituric acid-reactive substances (TBARS), and interleukin 6 (IL-6) were increased, but high frequency (HF) power was significantly decreased after acute resistance exercise in NG. The TBARS level of HG was significantly higher, and IL-6 level was lower than that of NG at 30 and 60 min after exercise. However, CK and HRV markers showed no significant difference between NG and HG at all time points. Glucose tolerance tests showed that blood glucose and insulin area under the curve (AUC) were higher in HG than that of in NG. Furthermore, isometric biceps muscle strength in HG was significantly decreased 90 min after exercise, and was significantly lower than that of NG 24 h after exercise. In conclusion, these results indicate that recovery under hyperoxia may induce more oxidative stress, and decrease glucose tolerance and performance after acute resistance exercise.

以文找文

期刊論文
1.	Vincent, H. K.、Vincent, K. R.(1997)。The effect of training status on the serum creatine kinase response, soreness and muscle function following resistance exercise。International Journal of Sports Medicine，18(6)，431-437。
2.	Mekjavic, I. B.、Exner, J. A.、Tesch, P. A.、Eiken, O.(2000)。Hyperbaric oxygen therapy does not affect recovery from delayed onset muscle soreness。Medicine and Science in Sports and Exercise，32(3)，558-563。
3.	Haseler, L. J.、Hogan, M. C.、Richardson, R. S.(1999)。Skeletal muscle phosphocreatine recovery in exercise-trained humans is dependent on O2 availability。Journal of Applied Physiology，86(6)，2013-2018。
4.	Haseler, L. J.、Richardson, R. S.、Videen, J. S.、Hogan, M. C.(1998)。Phosphocreatine hydrolysis during submaximal exercise: the effect of FiO2。Journal of Applied Physiology，85(4)，1457-1463。
5.	Chen, Jui-Lien、Yeh, Ding-Peng、Lee, Jo-Ping、Chen, Chung-Yu、Huang, Chih-Yang、Lee, Shin-Da、Chen, Chiu-Chou、Kuo, Terry B. J.、Kao, Chung-Lan、Kuo, Chia-Hua(2011)。Parasympathetic nervous activity mirrors recovery status in weightlifting performance after training。The Journal of Strength and Conditioning Research，25(6)，1546-1552。
6.	Fischer, C. P.(2006)。Interleukin-6 in acute exercise and training: what is the biological relevance。Exercise Immunology Review，12，6-33。
7.	Kirwan, J. P.、Hickner, R. C.、Yarasheski, K. E.、Kohrt, W. M.、Wiethop, B. V.、Holloszy, J. O.(1992)。Eccentric exercise induces transient insulin resistance in healthy individuals。Journal of Applied Physiology，72(6)，2197-2202。
8.	Loiseaux-Meunier, M. N.、Bedu, M.、Gentou, C.、Pepin, D.、Coudert, J.、Caillaud, D.(2001)。Oxygen toxicity: simultaneous measure of pentane and malondialdehyde in humans exposed to hyperoxia。Biomedical and Pharmacotherapy，55(3)，163-169。
9.	Bandali, K. S.、Belanger, M. P.、Wittnich, C.(2003)。Does hyperoxia affect glucose regulation and transport in the newborn?。Journal of Thoracic & Cardiovascular Surgery，126(6)，1730-1735。
10.	Lund, V. E.、Kentala, E.、Scheinin, H.、Klossner, J.、Helenius, H.、Sariola-Heinonen, K.、Jalonen, J.(1999)。Heart rate variability in healthy volunteers during normobaric and hyperbaric hyperoxia。Acta Physiologica Scandinavica，167(1)，29-35。
11.	Maeda, T.、Yasukouchi, A.(1998)。Blood lactate disappearance during breathing hyperoxic gas after exercise in two different physical fitness groups--on the workload fixed at 130% AT。Applied Human Science，17(2)，33-40。
12.	Fischer, C. P.、Hiscock, N. J.、Penkowa, M.、Basu, S.、Vessby, B.、Kallner, A.、Pedersen, B. K.(2004)。Supplementation with vitamins C and E inhibits the release of interleukin-6 from contracting human skeletal muscle。The Journal of Physiology，558(2)，633-645。
13.	Holmes, A. G.、Watt, M. J.、Febbraio, M. A.(2004)。Suppressing lipolysis increases interleukin-6 at rest and during prolonged moderate-intensity exercise in humans。Journal of Applied Physiology，97(2)，689-696。
14.	Yokoi, Y.、Yanagihashi, R.、Morishita, K.、Goto, N.、Fujiwara, T.、Abe, K.(2014)。Recovery effects of repeated exposures to normobaric hyperoxia on local muscle fatigue。Journal of Strength and Conditioning Research，28(8)，2173-2179。
15.	Alam, M. A.、Subhan, N.、Rahman, M. M.、Uddin, S. J.、Reza, H. M.、Sarker, S. D.(2014)。Effect of citrus flavonoids, naringin and naringenin, on metabolic syndrome and their mechanisms of action。Advances in Nutrition，5(4)，404-417。
16.	Bartolomei, Sandro、Sadres, Eliahu、Church, David D.、Arroyo, Eliott、Gordon, Joseph A. III、Varanoske, Alyssa N.、Wang, Ran、Beyer, Kyle S.、Oliveira, Leonardo P.、Stout, Jeffrey R.、Hoffman, Jay R.(2017)。Comparison of the recovery response from high-intensity and high-volume resistance exercise in trained men。European Journal of Applied Physiology，117(7)，1287-1298。
17.	Brinkmann, C.、Bloch, W.、Brixius, K.(2018)。Exercise during short-term exposure to hypoxia or hyperoxia-novel treatment strategies for type 2 diabetic patients?!。Scandinavian Journal of Medicine & Science in Sports，28(2)，549-564。
18.	Brueckl, C.、Kaestle, S.、Kerem, A.、Habazettl, H.、Krombach, F.、Kuppe, H.、Kuebler, W. M.(2006)。Hyperoxia-induced reactive oxygen species formation in pulmonary capillary endothelial cells in situ。American Journal of Respiratory Cell and Molecular Biology，34(4)，453-463。
19.	Deuber, C.、Terhaar, M.(2011)。Hyperoxia in very preterm infants: A systematic review of the literature。The Journal of Perinatal & Neonatal Nursing，25(3)，268-274。
20.	Figueiredo, V. C.、Cameron-Smith, D.(2013)。Is carbohydrate needed to further stimulate muscle protein synthesis/hypertrophy following resistance exercise?。Journal of the International Society of Sports Nutrition，10(1)，1-3。
21.	Gole, Y.、Gargne, O.、Coulange, M.、Steinberg, J.-G.、Bouhaddi, M.、Jammes, Y.、Boussuges, A.(2011)。Hyperoxia-induced alterations in cardiovascular function and autonomic control during return to normoxic breathing。European Journal of Applied Physiology，111(6)，937-946。
22.	Graff, B.、Szyndler, A.、Czechowicz, K.、Kucharska, W.、Graff, G.、Boutouyrie, P.、Narkiewicz, K.(2013)。Relationship between heart rate variability, blood pressure and arterial wall properties during air and oxygen breathing in healthy subjects。Autonomic Neuroscience，178(1/2)，60-66。
23.	He, J. Y.、Cui, H. J.、Tang, L. J.、Chen, J.、Huang, W. M.(2017)。Inhibition of pre-B cell colony-enhancing factor attenuates inflammation induced by hyperoxia in EA.hy926 cells。International Journal of Molecular Medicine，40(3)，859-866。
24.	Jakobsson, P.、Jorfeldt, L.(2006)。Oxygen supplementation increases glucose tolerance during euglycaemic hyperinsulinaemic glucose clamp procedure in patients with severe COPD and chronic hypoxaemia。Clinical Physiology and Functional Imaging，26(5)，271-274。
25.	Kawada, S.、Fukaya, K.、Ohtani, M.、Kobayashi, K.、Fukusaki, C.(2008)。Effects of pre-exposure to hyperbaric hyperoxia on high-intensity exercise performance。Journal of Strength and Conditioning Research，22(1)，66-74。
26.	Kay, B.、Stannard, S. R.、Morton, R. H.(2008)。Hyperoxia during recovery improves peak power during repeated Wingate cycle performance。Brazilian Journal of Biomotricity，2(2)，92-100。
27.	Lund, V. E.、Laine, J.、Laitio, T.、Kentala, E.、Jalonen, J.、Scheinin, H.(2003)。Instantaneous beatto-beat variability reflects vagal tone during hyperbaric hyperoxia。Undersea & Hyperbaric Medicine，30(1)，29-36。
28.	Lund, V. E.、Kentala, E.、Scheinin, H.、Lertola, K.、Klossner, J.、Aitasalo, K.、Jalonen, J.(2005)。Effect of age and repeated hyperbaric oxygen treatments on vagal tone。Undersea & Hyperbaric Medicine，32(2)，111-119。
29.	Maeda, T.、Yasukouchi, A.(1997)。Blood lactate disappearance during breathing hyperoxic gas after exercise in two different physical fitness groups--On the work load fixed at 70% VO2max。Applied Human Science，16(6)，249-255。
30.	Mallette, M. M.、Stewart, D. G.、Cheung, S. S.(2018)。The effects of hyperoxia on sea-level exercise performance, training, and recovery: A meta-analysis。Sports Medicine，48(1)，153-175。
31.	Manselin, T. A.、Södergård, O.、Larsen, F. J.、Lindholm, P.(2017)。Aerobic efficiency is associated with the improvement in maximal power output during acute hyperoxia。Physiological Reports，5(2)。
32.	Michael, S.、Graham, K. S.、Davis, G. M.(2017)。Cardiac autonomic responses during exercise and post-exercise recovery using heart rate variability and systolic time intervals--A review。Frontiers in Physiology，8。
33.	Nagato, A. C.、Bezerra, F. S.、Lanzetti, M.、Lopes, A. A.、Silva, M. A. S.、Porto, L. C.、Valença, S. S.(2012)。Time course of inflammation, oxidative stress and tissue damage induced by hyperoxia in mouse lungs。International Journal of Experimental Pathology，93(4)，269-278。
34.	Owens, D. J.、Twist, C.、Cobley, J. N.、Howatson, G.、Close, G. L.(2019)。Exercise-induced muscle damage: What is it, what causes it and what are the nutritional solutions?。European Journal of Sport Science，19(1)，71-85。
35.	Peeling, P.、Andersson, R.(2011)。Effect of hyperoxia during the rest periods of interval training on perceptual recovery and oxygen resaturation time。Journal of Sports Sciences，29(2)，147-150。
36.	Porzionato, A.、Zaramella, P.、Macchi, V.、Grisafi, D.、Salmaso, R.、Baraldi, M.、De Caro, R.(2012)。Fluoxetine may worsen hyperoxia-induced lung damage in neonatal rats。Histology and Histopathology，27(12)，1599-1610。
37.	Quintero, P.、González-Muniesa, P.、García-Díaz, D. F.、Martínez, J. A.(2012)。Effects of hyperoxia exposure on metabolic markers and gene expression in 3T3-L1 adipocytes。Journal of Physiology and Biochemistry，68(4)，663-669。
38.	Raastad, T.、Glomsheller, T.、Bjøro, T.、Hallén, J.(2003)。Recovery of skeletal muscle contractility and hormonal responses to strength exercise after two weeks of high-volume strength training。Scandinavian Journal of Medicine & Science in Sports，13(3)，159-168。
39.	Sperlich, B.、Schiffer, T.、Achtzehn, S.、Mester, J.、Holmberg, H.-C.(2010)。Pre-exposure to hyperoxic air does not enhance power output during subsequent sprint cycling。European Journal of Applied Physiology，110(2)，301-305。
40.	Sperlich, B.、Zinner, C.、Krueger, M.、Wegrzyk, J.、Achtzehn, S.、Holmberg, H.-C.(2012)。Effects of hyperoxia during recovery from 5 × 30-s bouts of maximal-intensity exercise。Journal of Sports Sciences，30(9)，851-858。
41.	Sureda, A.、Batle, J. M.、Capó, X.、Martorell, M.、Córdova, A.、Tur, J. A.、Pons, A.(2014)。Scuba diving induces nitric oxide synthesis and the expression of inflammatory and regulatory genes of the immune response in neutrophils。Physiological Genomics，46(17)，647-654。
42.	Vallabha, T.、Karjol, U.、Kalyanappagol, V.、Sindgikar, V.、Nidoni, R.、Biradar, H.、Das, K. K.(2016)。Rational hyperoxia in the perioperative period: A safe and effective tool in the reduction of SSI。Indian Journal of Surgery，78(1)，27-31。
43.	White, J.、Dawson, B.、Landers, G.、Croft, K.、Peeling, P.(2013)。Effect of supplemental oxygen on post-exercise inflammatory response and oxidative stress。European Journal of Applied Physiology，113(4)，1059-1067。
44.	Zangl, Q.、Martignoni, A.、Jackson, S. H.、Ohta, A.、Klaunberg, B.、Kaufmann, I.、Choukèr, A.(2014)。Postoperative hyperoxia (60%) worsens hepatic injury in mice。Anesthesiology，121(6)，1217-1225。
45.	Zara, S.、De Colli, M.、Rapino, M.、Di Valerio, V.、Marconi, G. D.、Cataldi, A.、Porzionato, A.(2013)。NF-κB involvement in hyperoxia-induced myocardial damage in newborn rat hearts。Histochemistry and Cell Biology，140(5)，575-583。
46.	Zinner, C.、Hauser, A.、Born, D.-P.、Wehrlin, J. P.、Holmberg, H.-C.、Sperlich, B.(2015)。Influence of hypoxic interval training and hyperoxic recovery on muscle activation and oxygenation in connection with double-poling exercise。Plos One，10(10)。

學位論文
1.	李文志(2010)。運動後不同氧氣濃度恢復對醣類代謝的影響(博士論文)。國立體育大學。延伸查詢

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