不同急性運動類型對BDNF及干擾控制之影響__臺灣人文及社會科學引文索引資料庫

:::

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：	不同急性運動類型對BDNF及干擾控制之影響
書刊名：	體育學報
作者：	曾竣瑋／洪巧菱／趙曉涵／洪聰敏／王鶴森
作者(外文)：	Tseng, Jun-wei／Hung, Chiao-ling／Chao, Hsiao-han／Hung, Tsung-min／Wang, Ho-seng
出版日期：	2019
卷期：	52:3
頁次：	頁307-318
主題關鍵詞：	身體活動；執行功能；旁側抑制作業；Physical activity；Executive function；Flanker task
原始連結：	連回原系統網址
相關次數：	被引用次數:期刊(6) 博士論文(0) 專書(0) 專書論文(0) 排除自我引用:6 共同引用:0 點閱:4

緒論：腦源性神經滋養因子（brain derived neurotrophic factor, BDNF）對認知、學習與能量代謝機能有促進效果，過去研究顯示有氧運動可增加血液中BDNF濃度與認知表現；豐富的環境刺激亦能夠提升大腦內的BDNF表現，而就運動類型來說，相較於閉鎖性運動，開放性運動因其環境的不可預期性較閉鎖性運動高，其認知需求或認知負荷也較高。因此，本研究旨在比較開放性運動與閉鎖性運動對於提升BDNF與干擾抑制效益之差異。方法：本研究招募22位男性健康成人（年齡22.78±2.54歲），採平衡次序研究設計分別進行單次30分鐘、60%HRR羽球及跑步運動，並在運動前後進行BDNF與Flanker測驗。結果：單次羽球與跑步運動皆能顯著提升BDNF濃度，而羽球提升效果具高於跑步之趨勢。跑步運動不分作業情境後測之RT較前測快；羽球運動則顯著提升Flanker不一致作業情境之RT。另外，僅在羽球運動後相較於前測有較小之Flanker效應，且在後測比起跑步亦有較小之Flanker效應。結論：單次跑步與羽球運動皆能增加BDNF的濃度；而跑步運動能促進高與低干擾作業的表現，而羽球運動的促進作用除了降低干擾效應外，主要在提升高干擾作業的表現。本研究結果延伸過去研究之發現，支持急性運動對認知功能之效益，閉鎖性運動效果呈現全面效應（general effect），而開放性運動參與則對干擾控制認知處理流程有助益，未來研究可比較長期從事開放性運動與閉鎖性運動之BDNF與認知功能差異。

以文找文

Introduction: Brain derived neurotrophic factor (BDNF) is mainly produced by the brain and has positive effects on cognitive functions, learning, and energy metabolism. Previous studies showed that not only aerobic exercise but also enriched environment can increase BDNF concentration and improve cognitive function. Compared with closed skills exercise, open skills exercise created a more complicated and unpredictable environment which entail higher cognitive demand. Therefore, this study aims to compare the effects of acute (a single bout of) open skills exercise (badminton) and acute closed skills exercise (running) on BDNF concentration and interference control. Methods: The study recruited 22 healthy male subjects (age: 22.78 ± 2.54), who were respectively given acute 60% HRR badminton and running for 30 minutes in a counterbalanced order. The subjects were tested on both BDNF concentration and Flanker task before and after the acute exercise intervention. Results: The results showed that both acute badminton and acute running significantly increased BDNF concentration. Moreover, there is a trend that badminton is more effective in increasing BDNF concentration than the running. Similarly, badminton was more effective in reducing flanker effect than that of running. However, running resulted in shorter reaction time (RT) regardless of the conditions of congruency whereas the improvement was only observed in incongruent condition after badminton exercise. Conclusion: The findings extend the current knowledge on effects of acute exercise type and aspects of executive function by showing that both acute running and badminton exercise can increase BDNF concentration. Moreover, running benefits interference control regardless of task demand whereas badminton, in addition to the reduction of flanker effect, improved performance in condition demanding higher interference control. A call to compare the effect of chronic open skills and closed skills exercise on BDNF concentration and cognitive function in future study is warranted.

以文找文

期刊論文
1.	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。
2.	Hillman, C. H.、Pontifex, M. B.、Raine, L. B.、Castelli, D. M.、Hall, E. E.、Kramer, A. F.(2009)。The effect of acute treadmill walking on cognitive control and academic achievement in preadolescent children。Neuroscience，159(3)，1044-1054。
3.	Huang, C. J.、Lin, P. C.、Hung, C. L.、Chang, Y. K.、Hung, T. M.(2014)。Type of physical exercise and inhibitory function in older adults: An event-related potential study。Psychology of Sport and Exercise，15(2)，205-211。
4.	Hillman, C. H.、Snook, E. M.、Jerome, G. J.(2003)。Acute cardiovascular exercise and executive control function。International Journal of Psychophysiology: Official Journal of the International Organization of Psychophysiology，48(3)，307-314。
5.	Kesaniemi, Y. A.、Danforth, E.、Jensen, M. D.、Korpelman, P. G.、LefÈbvre, P.、Reeder, B. A.(2001)。Dose-response issues concerning physical activity and health: An evidence-based symposium。Medicine and Science in Sports and Exercise，33(6)，351-358。
6.	Robergs, R. A.、Landwehr, R.(2002)。The surprising history of the "HRmax=220-age" equation。Journal of Exercise Physiology，5(2)，1-10。
7.	Eriksen, B. A.、Eriksen, C. W.(1974)。Effects of noise letters upon the identification of a target letter in a nonsearch task。Perception and Psychophysics，16(1)，143-149。
8.	Lambourne, K.、Tomporowski, P. D.(2010)。The effect of exercise-induced arousal on cognitive task performance: A meta-regression analysis。Brain Research，1341，12-24。
9.	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。
10.	Chodzko-Zajko, W. J.(1991)。Physical fitness, cognitive performance, and aging。Medicine & Science in Sports & Exercise，23(7)，868-872。
11.	Tomporowski, P. D.(2003)。Cognitive and Behavioral Responses to Acute Exercise in Youths: A Review。Pediatric Exercise Science，15(4)，348-359。
12.	Griffin, É. W.、Mullally, S.、Foley, C.、Warmington, S. A.、O'Mara, S. M.、Kelly, Á. M.(2011)。Aerobic exercise improves hippocampal function and increases BDNF in the serum of young adult males。Physiology and Behavior，104(5)，934-941。
13.	Kamijo, K.、Hayashi, Y.、Sakai, T.、Yahiro, T.、Tanaka, K.、Nishihira, Y.(2009)。Acute effects of aerobic exercise on cognitive function in older adults。The Journals of Gerontology Series B: Psychological Sciences and Social Sciences，64(3)，356-363。
14.	Grego, F.、Vallier, J.-M.、Collardeau, M.、Bermon, S.、Ferrari, P.、Candito, M.、Brisswalter, J.(2004)。Effects of long duration exercise on cognitive function, blood glucose, and counterregulatory hormones in male cyclists。Neuroscience Letters，364(2)，76-80。
15.	Knaepen, K.、Goekint, M.、Heyman, E. M.、Meeusen, R.(2010)。Neuroplasticity--exercise-induced response of peripheral brain-derived neurotrophic factor。Sports Medicine，40(9)，765-801。
16.	Cao, L.、Liu, X.、Lin, E. J.、Wang, C.、Choi, E. Y.、Riban, V.、During, M. J.(2010)。Environmental and genetic activation of a brain-adipocyte BDNF/leptin axis causes cancer remission and inhibition。Cell，142(1)，52-64。
17.	Dandi, E.、Kalamari, A.、Touloumi, O.、Lagoudaki, R.、Nousiopoulou, E.、Simeonidou, C.、Tata, D. A.(2018)。Beneficial effects of environmental enrichment on behavior, stress reactivity and synaptophysin/BDNF expression in hippocampus following early life stress。International Journal of Developmental Neuroscience，67，19-32。
18.	Hung, Chiao-Ling、Tseng, Jun-Wei、Chao, Hsiao-Han、Hung, Tsung-Min、Wang, Ho-Seng(2018)。Effect of Acute Exercise Mode on Serum Brain-Derived Neurotrophic Factor (BDNF) and Task Switching Performance。Journal of Clinical Medicine，7(10)，(301)1-(301)12。
19.	Kamijo, K.、Abe, R.(2019)。Aftereffects of cognitively demanding acute aerobic exercise on working memory。Medicine and Science in Sports and Exercise，51(1)，153-159。
20.	McAllister, A. K.、Katz, L. C.、Lo, D. C.(1999)。Neurotrophins and synaptic plasticity。Annual Review of Neuroscience，22(1)，295-318。
21.	Piepmeier, A. T.、Etnier, J. L.(2015)。Brain-derived neurotrophic factor (BDNF) as a potential mechanism of the effects of acute exercise on cognitive performance。Journal of Sport and Health Science，4(1)，14-23。
22.	Peiffer, R.、Darby, L. A.、Fullenkamp, A.、Morgan, A. L.(2015)。Effects of acute aerobic exercise on executive function in older women。Journal of sports science and medicine，14(3)，574-583。
23.	Smid, H. G.、Lamain, W.、Hogeboom, M. M.、Mulder, G.、Mulder, L. J.(1991)。Psychophysiological evidence for continuous information transmission between visual search and response processes。Journal of Experimental Psychology: Human Perception and Performance，17(3)，696-714。
24.	Tanaka, J.、Horiike, Y.、Matsuzaki, M.、Miyazaki, T.、Ellis-Davies, G. C.、Kasai, H.(2008)。Protein synthesis and neurotrophin-dependent structural plasticity of single dendritic spines。Science，319(5870)，1683-1687。
25.	Tyler, W. J.、Alonso, M.、Bramham, C. R.、Pozzo-Miller, L. D.(2002)。From acquisition to consolidation: On the role of brain-derived neurotrophic factor signaling in hippocampal-dependent learning。Learning and Memory，9(5)，224-237。
26.	Walsh, J. J.、Tschakovsky, M. E.(2018)。Exercise and circulating BDNF: Mechanisms of release and implications for the design of exercise interventions。Applied Physiology, Nutrition, and Metabolism，43(11)，1095-1104。
27.	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。
28.	Sibley, B. A.、Etnier, J. L.(2003)。The Relationship between Physical Activity and Cognition in Children: A Meta-Analysis。Pediatric Exercise Science，15(3)，243-256。
29.	Diamond, Adele(2013)。Executive functions。Annual Review of Psychology，64(1)，135-168。
30.	Pontifex, Matthew B.、Hillman, Charles H.、Fernhall, Bo、Thompson, Kelli M.、Valentini, Teresa A.(2009)。The Effect of Acute Aerobic and Resistance Exercise on Working Memory。Medicine & Science in Sports & Exercise，41(4)，927-934。

圖書
1.	Borg, G. A.(1998)。Borg's perceived exertion and pain scales。Human Kinetics。
2.	Schmidt, R. A.、Wrisberg, C. A.(2008)。Motor learning and performance: A situation-based learning approach。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.	身體活動型態對乳癌患者認知功能之影響：文獻回顧
2.	不同運動遊戲類型對於年輕成年人生理與心理健康之介入成效：前導研究
3.	跆拳道運動表現的體、技、智--試論抑制控制之重要性
4.	急性阻力健身運動與抑制控制：強度與訓練量之觀點
5.	急性健身運動、肥胖與執行功能之回顧
6.	以身體活動中斷靜態行為對認知功能之影響：系統性回顧
7.	以擴散張量成像視角探討退役運動員腦震盪與腦白質結構之關聯：系統性文獻回顧
8.	長期運動介入對ADHD兒童之效益：文獻回顧
9.	急性健身運動與認知功能：國際歷史與臺灣研究發展
10.	單次運動與長期運動對認知功能的影響
11.	身體活動與老年大腦功能：功能性磁共振造影的研究回顧
12.	健身運動與工作記憶之文獻回顧：以研究方式及年齡層觀點探討
13.	健身運動與兒童認知功能：協調性運動的效果
14.	急性健身運動對認知功能的影響--事件相關電位的文獻回顧

無相關博士論文

無相關書籍

無相關著作

無相關點閱

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