急性健身運動對執行功能之影響：事件相關電位與大腦神經滋養因子之研究_

:::

詳目顯示

第 1 筆 / 總合 1 筆

/1頁

來源文獻資料
摘要
外文摘要
引文資料

題名：	急性健身運動對執行功能之影響：事件相關電位與大腦神經滋養因子之研究
書刊名：	體育學報
作者：	王俊智／黃啟彰／石家豪／祝堅恆／張育愷
作者(外文)：	Wang, Chun-chih／Huang, Chi-chang／Shih, Chia-hao／Chu, Chien-heng／Chang, Yu-kai
出版日期：	2016
卷期：	49:特刊
頁次：	頁47-60
主題關鍵詞：	大腦衍生神經滋養因子；執行功能；事件關聯電位；叫色測驗；BDNF；Event-related potential；Executive function；Stroop test
原始連結：	連回原系統網址
相關次數：	被引用次數:期刊(7) 博士論文(0) 專書(0) 專書論文(0) 排除自我引用:7 共同引用:22 點閱:26

緒論：多數研究發現急性健身運動對認知功能的正面影響，而此效果可能受認知功能的種類所調節。叫色測驗為被廣泛使用的神經心理測驗之一，其可同時檢測不同類別之認知功能。事件關聯電位可檢測大腦神經電位之變化，瞭解在認知過程中內隱的大腦歷程。大腦衍生神經滋養因子(Brain-derived Neurotrophic Factor, BDNF)為神經滋養因子之一，其對大腦神經功能的維持扮演著重要的角色。動物研究發現可透過健身運動提升BDNF的濃度；然而，目前仍缺乏人體研究探討BDNF是否為健身運動增進認知功能的潛在機制。為此，本研究目的在探討急性健身運動對叫色測驗之影響，並以神經電位與生化取向瞭解急性健身運動誘發認知功能改變的潛在機制。方法：本研究招募19名大學生實驗參與者分別參與以平衡次序法實施的健身運動與閱讀控制兩種實驗情境。健身運動情境包含5分鐘暖身、20分鐘中等強度腳踏車運動(約65% 儲備心跳率)，以及5分鐘的緩和。而閱讀情境則為閱讀體育相關書籍，其介入時間與健身運動情境相同。此外，於二種實驗情境後採集血液樣本，然後進行叫色測驗的施測。結果：急性健身運動後，叫色測驗一致與不一致情境的反應時間皆顯著縮短，而且叫色測驗不一致情境獲得來自急性健身運動的效益大於一致情境。此外，急性健身運動後，有較大P3振幅。然而，P3潛伏時間與BDNF濃度在急性健身運動後未發現明顯變化。結論：中等強度急性健身運動可以增進認知功能，其中，執行功能獲得來自健身運動的效果大於一般認知功能。該效益可能與急性健身運動增進注意力資源分配的提升有關。然而，BDNF的濃度在急性健身運動與認知功能間之角色仍須後續的探究。

以文找文

Introduction: Majority of studies have supported the positive effects of acute exercise on cognitive function; however, the relationship between acute exercise and cognition may be modulated by type of cognitive function. Stoop test is a widely used neuropsychological test to assess different types of cognition. ERP, a neuroelectric index, provide covert brain processes during cognitive test administration. Brain-derived neurotropic factor (BDNF) is a neurotrophic factor which plays an important role for maintenance of neuron function. Animal studies have shown that exercise increase BDNF concentration; however, mechanisms underlying cognitive improvement in response to acute exercise remind unknown. Therefore, the purpose of the present study was to examine the effects of acute exercise on Stoop test performance and to explore the potential mechanisms underlying exercise-induced cognitive change using neuroelectric and biochemical approaches. Methods: Nineteen collegiate students participated in the study. Participants came to laboratory at the same time in two separate days for exercise and reading control conditions. The two experimental conditions were counterbalanced. Exercise condition consisted of 5-minute warm-up, 20-minute moderate intensity cycling (around 65 % HRR), and 5-minute cool-down. In reading control condition, participants read an exercise-related book for the same duration as exercise condition. Blood samples were obtained immediately following each experimental condition. Results: Shorter response time was found following acute exercise for both Stroop congruent and incongruent conditions compared to reading control condition. Additionally, greater beneficial effects of acute exercise were observed in incongruent condition compared to congruent condition. As for electrophysiological measures, greater P3 amplitude was found after acute exercise compared to reading control condition while changes in P3 latency and concentration of BDNF did not reach significance. Conclusion: acute moderate intensity exercise resulted in improvement in cognitive function. Importantly, more gained has been observed for executive function relative to information processing. Increased allocation of attentional resource may explain why acute exercise benefits cognitive performance. However, BDNF may not be the underlying mechanism for exercise-induced cognitive function improvement, at least for the current exercise protocol. Therefore, future research on exploring the role of other neurotrophic factors in acute exercise-cognition relationship is warranted.

以文找文

期刊論文
1.	Kiuchi, T.、Lee, H.、Mikami, T.(2012)。Regular exercise cures depression-like behavior Via VEGF-Flk-1 signaling in chronically stressed mice。Neuroscience，207，208-217。
2.	Chang, Y.-K.、Etnier, J. L.(2009)。Effects of an acute bout of localized resistance exercise on cognitive performance in middle-aged adults: A randomized controlled trial study。Psychology of Sport and Exercise，10(1)，19-24。
3.	Chang, Y. K.、Etnier, J. L.(2009)。Exploring the dose-response relationship between resistance exercise intensity and cognitive function。Journal of Sport and Exercise Psychology，31(5)，640-656。
4.	Chang, Y.-K.、Chu, I.-H.、Chen, F.-T.、Wang, C.-C.(2011)。Dose-response effect of acute resistance exercise on Tower of London in middle-aged adults。Journal of Sport and Exercise Psychology，33(6)，866-883。
5.	Stroth, S.、Kubesch, S.、Dieterle, K.、Ruchsow, M.、Heim, R.、Kiefer, M.(2009)。Physical fitness, but not acute exercise modulates event-related potential indices for executive control in healthy adolescents。Brain Research，1269，114-124。
6.	Hillman, C. H.、Pontifex, M. B.、Castelli, D. M.、Khan, N. A.、Raine, L. B.、Scudder, M. R.、Kamijo, K.(2014)。Effects of the FITKids randomized controlled trial on executive control and brain function。Pediatrics，134(4)，e1063-e1071。
7.	Chang, Y. K.、Tsai, C. L.、Huang, C. C.、Wang, C. C.、Chu, I. H.(2014)。Effects of acute resistance exercise on cognition in late middle-aged adults: General or specific cognitive improvement?。Journal of Science and Medicine in Sport，17(1)，51-55。
8.	Verburgh, L.、Konigs, M.、Scherder, E. J. A.、Oosterlaan, J.(2014)。Physical exercise and executive functions in preadolescent children, adolescents and young adults: A meta-analysis。British Journal of Sports Medicine，48(12)，973-979。
9.	Etnier, J. L.、Chang, Y.-K.(2009)。The effect of physical activity on executive function: A brief commentary on definitions, measurement issues, and the current state of the literature。Journal of Sport and Exercise Psychology，31(4)，469-483。
10.	Kamijo, K.、Nishihira, Y.、Higashiura, T.、Kuroiwa, K.(2007)。The interactive effect of exercise intensity and task difficulty on human cognitive processing。International Journal of Psychophysiology，65(2)，114-121。
11.	王俊智、祝堅恆、吳建霆、林季燕、張育愷(20141100)。急性有氧健身運動對威斯康辛卡片分類測驗表現之前導研究。臺灣運動心理學報，14(2)，15-31。延伸查詢
12.	Byun, K.、Hyodo, K.、Suwabe, K.、Ochi, G.、Sakairi, Y.、Kato, M.、Dan, I.、Soya, H.(2014)。Positive effect of acute mild exercise on executive function via arousal-related prefrontal activations: An fNIRS study。Neuroimage，98，336-345。
13.	Carter, C. S.、Macdonald, A. M.、Botvinick, M.、Ross, L. L.、Stenger, V. A.、Noll, D.、Cohen, J. D.(2000)。Parsing executive processes: Strategic vs. evaluative functions of the anterior cingulate cortex。Proceedings of the National Academy of Sciences of the United States of America，97(4)，1944-1948。
14.	Chang, Y. K.、Chi, L.、Etnier, J. L.、Wang, C. C.、Chu, C. H.、Zhou, C. L.(2014)。Effect of acute aerobic exercise on cognitive performance: Role of cardiovascular fitness。Psychology of Sport and Exercise，15(5)，464-470。
15.	Chang, Y. K.、Etnier, J. L.(2013)。The dose-response relationship between resistance exercise intensity and cognitive performance: Does heart rate mediate this effect?。International Journal of Sport Psychology，44(1)，37-54。
16.	Chang, Y.-K.、Tsai, C.-L.、Hung, T.-M.、So, E. C.、Chen, F.-T.、Etnier, J. L.(2011)。Effects of acute exercise on executive function: A study with a Tower of London Task。Journal of Sport and Exercise Psychology，33(6)，847-865。
17.	Cho, H. C.、Kim, J.、Kim, S.、Son, Y. H.、Lee, N.、Jung, S. H.(2012)。The concentrations of serum, plasma and platelet BDNF are all increased by treadmill VO(2)max performance in healthy college men。Neuroscience Letters，579(1)，78-83。
18.	Fang, Z. H.、Lee, C. H.、Seo, M. K.、Cho, H.、Lee, J. G.、Lee, B. J.、Kim, Y. H.(2013)。Effect of treadmill exercise on the BDNF-mediated pathway in the hippocampus of stressed rats。Neuroscience Research，76(4)，187-194。
19.	Ferris, L. T.、Williams, J. S.、Shen, C. L.(2007)。The effect of acute exercise on serum brain-derived neurotrophic factor levels and cognitive function。Medicine and Science in Sports and Exercise，39(4)，728-734。
20.	Goekint, M.、Roelands, B.、Heyman, E.、Njemini, R.、Meeusen, R.(2011)。Influence of citalopram and environmental temperature on exercise-induced changes in BDNF。Neuroscience Letters，494(2)，150-154。
21.	Gomez-Pinilla, F.、Vaynman, S.、Ying, Z.(2008)。Brain-derived neurotrophic factor functions as a metabotrophin to mediate the effects of exercise on cognition。European Journal of Neuroscience，28(11)，2278-2287。
22.	Grandjean, J.、D'Ostilio, K.、Phillips, C.、Balteau, E.、Degueldre, C.、Luxen, A.、Collette, F.(2012)。Modulation of brain activity during a Stroop inhibitory task by the kind of cognitive control required。PLoS One，7(7)，41513-10。
23.	Hillman, C. H.、Snook, E. M.、Jerome, G. J.(2003)。Acute cardiovascular exercise and executive control function。International journal of psychophysiology，48(3)，307-314。
24.	Hung, T. M.、Tsai, C. L.、Chen, F. T.、Wang, C. C.、Chang, Y. K.(2013)。The immediate and sustained effects of acute exercise on planning aspect of executive function。Psychology of Sport and Exercise，14(5)，728-736。
25.	Khabour, O. F.、Alzoubi, K. H.、Alomari, M. A.、Alzubi, M. A.(2012)。Changes in spatial memory and BDNF expression to simultaneous dietary restriction and forced exercise。Brain Research Bulletin，90，19-24。
26.	Lafenetre, P.、Leske, O.、Ma,Ma-Hogemeie, Z.、Haghikia, A.、Bichler, Z.、Wahle, P.、Heumann, R.(2010)。Exercise can rescue recognition memory impairment in a model with reduced adult hippocampal neurogenesis。Frontiers in Behavioral Neuroscience，3，34。
27.	Lee, J.、Seroogy, K. B.、Mattson, M. P.(2002)。Dietary restriction enhances neurotrophin expression and neurogenesis in the hippocampus of adult mice。Journal of Neurochemistry，80(3)，539-547。
28.	MacDonald, A. W.、Cohen, J. D.、Stenger, V. A.、Carter, C. S.(2000)。Dissociating the role of the dorsolateral prefrontal and anterior cingulate cortex in cognitive control。Science，288(5472)，1835-1838。
29.	Mattson, M. P.、Maudsley, S.、Martin, B.(2004)。BDNF and 5-HT: A dynamic duo in age-related neuronal plasticity and neurodegenerative disorders。Trends in Neurosciences，27(10)，589-594。
30.	McMorris, T.、Sproule, J.、Turner, A.、Hale, B. J.(2011)。Acute, intermediate intensity exercise, and speed and accuracy in working memory tasks: A meta-analytical comparison of effects。Physiology and Behavior，102(3/4)，421-428。
31.	Nofuji, Y.、Suwa, M.、Sasaki, H.、Ichimiya, A.、Nishichi, R.、Kumagai, S.(2012)。Different circulating brain-derived neurotrophic factor responses to acute exercise between physically active and sedentary subjects。Journal of Sports Science and Medicine，11(1)，83-88。
32.	Pan, W.、Banks, W. A.、Fasold, M. B.、Bluth, J.、Kastin, A. J.(1998)。Transport of brain-derived neurotrophic factor across the blood-brain barrier。Neuropharmacology，37(12)，1553-1561。
33.	Rasmussen, P.、Brassard, P.、Adser, H.、Pedersen, M. V.、Leick, L.、Hart, E.、Pilegaard, H.(2009)。Evidence for a release of brain-derived neurotrophic factor from the brain during exercise。Experimental Physiology，94(10)，1062-1069。
34.	Roig, M.、Nordbrandt, S.、Geertsen, S. S.、Nielsen, J. B.(2013)。The effects of cardiovascular exercise on human memory: A review with meta-analysis。Neuroscience and Biobehavioral Reviews，37(8)，1645-1666。
35.	Ruscheweyh, R.、Willemer, C.、Kruger, K.、Duning, T.、Warnecke, T.、Sommer, J.、Flöel, A.(2011)。Physical activity and memory functions: An interventional study。Neurobiology of Aging，32(7)，1304-1319。
36.	Scudder, M. R.、Drollette, E. S.、Pontifex, M. B.、Hillman, C. H.(2012)。Neuroelectric indices of goal maintenance following a single bout of physical activity。Biological Psychology，59(2)，528-531。
37.	Seifert, T.、Brassard, P.、Wissenberg, M.、Rasmussen, P.、Nordby, P.、Stallknecht, B.、Secher, N. H.(2010)。Endurance training enhances BDNF release from the human brain。American Journal of Physiology，298(2)，372-377。
38.	Suijo, K.、Inoue, S.、Ohya, Y.、Odagiri, Y.、Takamiya, T.、Ishibashi, H.、Shimomitsu, T.(2013)。Resistance exercise enhances cognitive function in mouse。International Journal of Sports Medicine，34(4)，368-375。
39.	Tsai, C. L.、Chen, F. C.、Pan, C. Y.、Wang, C. H.、Huang, T. H.、Chen, T. C.(2014)。Impact of acute aerobic exercise and cardiorespiratory fitness on visuospatial attention performance and serum BDNF levels。Psychoneuroendocrinology，41，121-131。
40.	Yanagisawa, H.、Dan, I.、Tsuzuki, D.、Kato, M.、Okamoto, M.、Kyutoku, Y.、Soya, H.(2010)。Acute moderate exercise elicits increased dorsolateral prefrontal activation and improves cognitive performance with Stroop test。Neuroimage，50(4)，1702-1710。
41.	Woodrow, H.(1914)。The measurement of attention。The Psychological Monographs，17，1-158。
42.	Colcombe, S. J.、Kramer, A. F.(2003)。Fitness effects on the cognitive function of older adults: a meta-analytic study。Psychological Science，14(2)，125-130。
43.	Kutas, M.、McCarthy, G.、Donchin, E.(1977)。Augmenting mental chronometry: The P300 as a measure of stimulus evaluation time。Science，197(4305)，792-795。
44.	Polich, J.、Kok, A.(1995)。Cognitive and biological determinants of P300: An integrative review。Biological Psychology，41(2)，103-146。
45.	陳豐慈、王俊智、祝堅恆、張育愷(20130300)。急性有氧健身運動對計畫相關執行功能之影響。體育學報，46(1)，45-54。延伸查詢
46.	陳豐慈、王俊智、齊璘、張育愷(20130300)。急性健身運動對計畫相關執行功能在立即與延續時間之影響：前導研究。大專體育學刊，15(1)，29-39。延伸查詢
47.	Chang, Y. K.、Labban, J. D.、Gapin, J. I.、Etnier, J. L.(2012)。The effects of acute exercise on cognitive performance: A meta-analysis。Brain Research，1453(250)，87-101。
48.	Donchin, Emanuel、Coles, Michael G. H.(1988)。Is the P300 component a manifestation of context updating?。Behavioral and Brain Sciences，11(3)，357-374。
49.	Polich, John(2007)。Updating P300: An integrative theory of P3a and P3b。Clinical Neurophysiology，118(10)，2128-2148。
50.	Stroop, J. R.(1935)。Studies of Interference in Serial Verbal Reactions。Journal of Experimental Psychology，18(6)，643-662。
51.	Miyake, A.、Friedman, N. P.、Emerson, M. J.、Witzki, A. H.、Howerter, A.、Wager, T. D.(2000)。The unity and diversity of executive functions and their contributions to complex "frontal lobe" tasks: A latent variable analysis。Cognitive Psychology，41(1)，49-100。
52.	Fitts, Paul M.(1954)。The information capacity of the human motor system in controlling the amplitude of movement。Journal of Experimental Psychology，47(6)，381-391。
53.	Tsai, C. L.、Wang, C. H.、Pan, C. Y.、Chen, F. C.、Huang, T. H.、Chou, F. Y.(2014)。Executive function and endocrinological responses to acute resistance exercise。Frontiers in Behavioral Neuroscience，8，(262)1-(262)12。

圖書
1.	American College of Sports Medicine(2013)。ACSM's guidelines for exercise testing and prescription。Pennsylvania, PA。
2.	Golding, L. A.(2000)。YMCA Fitness Testing and Assessment Manual。Champaign, IL：Human Kinetics。

推文
推薦
引用網址
引用嵌入語法
轉寄

top

:::

相關期刊
相關論文
相關專書
相關著作
熱門點閱

1.	多面向健身運動訓練與老年人認知功能之文獻回顧
2.	老年人心肺適能與執行功能之關聯：頸動脈血流速度之角色
3.	慢性有氧運動對提升輕度智能障礙學生認知與學習之成效
4.	臺灣高齡者認知功能與身體適能關係之探究
5.	急性健身運動與執行功能之前導研究：家庭收入之調節角色
6.	急性健身運動與認知功能：國際歷史與臺灣研究發展
7.	單次運動與長期運動對認知功能的影響
8.	影響大學運動員認知學習成效因果模式之探究
9.	新觀點：健身運動與營養補充劑對認知老化之影響
10.	飛輪有氧課程介入探討大學生運動自我效能、運動認知與自覺憂鬱程度之關係以及對體適能的影響--以逢甲大學為例
11.	正念、執行功能與運動表現之關聯
12.	中等強度急性健身運動對早產兒計畫執行功能之影響
13.	健身運動對倫敦塔作業之影響：文獻回顧與未來展望
14.	急性健身運動與執行功能之劑量反應關係
15.	四肢發達頭腦卻不簡單運動員與認知神經功能之研究回顧與展望

1.	肥胖、心肺適能與任務轉換之關係：事件關聯電位研究
2.	中等強度急性健身運動對ADHD兒童作業轉換之影響
3.	急性有氧與阻力健身運動對叫色測驗之影響：事件關聯電位之研究

無相關書籍

無相關著作

1.	身體活動與老年大腦功能：功能性磁共振造影的研究回顧
2.	運動介入對輕度認知損傷老年人認知功能之影響：文獻回顧與未來展望
3.	肥胖、心血管適能與抑制相關執行功能之關係：事件相關電位研究
4.	急性高山症之生理反應及藥物治療
5.	阿茲海默症患者之運動處方
6.	柔力球運動基本動作與教學的介紹
7.	桌球競賽三次單淘汰系統之研發
8.	恐懼管理理論在運動休閒領域中的應用
9.	高中短距離選手100公尺速度、反應與下肢力量分析
10.	肥胖兒童以不同步速下階梯對下肢關節負荷之影響
11.	振動訓練對橄欖球選手爆發力之影響--以高雄市六龜高中為例
12.	科技與技術：跆拳道電子護具之比賽技術的田野研究
13.	個體間隙穿越之移動及觀察點：環境賦使知覺判斷與信心評估
14.	核因子-kB (NF-kB)代謝路徑在運動影響骨質代謝所扮演的角色與影響
15.	美國健康與體育教育者學會之演進

QR Code

臺灣人文及社會科學引文索引資料庫系統

詳目顯示

臺灣人文及社會科學引文索引資料庫