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研究生: 林志謙
Lin, Chih-Chien
論文名稱: 體操訓練對兒童視覺空間工作記憶表現影響之事件關聯電位研究
Effects of gymnastic Training on Visuo-Spatial Working Memory in children : An Event-Related Potential Study
指導教授: 洪聰敏
Hung, Tsung-Min
學位類別: 碩士
Master
系所名稱: 體育學系
Department of Physical Education
論文出版年: 2016
畢業學年度: 104
語文別: 中文
論文頁數: 92
中文關鍵詞: 執行功能體適能動作適能發展
英文關鍵詞: executive function, fitness, motor fitness, development
DOI URL: https://doi.org/10.6345/NTNU202203561
論文種類: 學術論文
相關次數: 點閱:301下載:42
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研究背景:學齡期兒童處於發展動作協調能力的最佳時期,給予兒童合理的運動經驗和刺激,尤其是大腦認知功能與身體協調能力的培養,對兒童日後動作學習及日常生活功能有其相當的重要性。而體操運動特別注重視覺空間與身體控制能力,對於協調能力方面亦是相當注重。因此,本研究探討體操運動對於兒童在視覺空間工作記憶作業是否有較佳的表現。目的:探討體操訓練對兒童視覺空間工作記憶表現的影響。方法:招募體操組24名及控制組20名,共44名7至10歲研究參與者。所有研究參與者均接受校內一般體育課程活動,僅體操組額外進行8週中低運動強度 (每週2次,每次90分鐘) 的體操運動訓練。運動介入前、後皆施測兒童動作評估量表二版、基本運動能力評估、視覺空間工作記憶作業並同步收錄腦波資料。結果:從事長期體操運動的兒童,能顯著提高M-ABC-2 (拋接精準、身體平衡、整體表現)、基本運動能力 (4公尺折返跑、坐姿體前彎、立定跳遠、20公尺衝刺、曲臂懸掛) 與VSWM作業的反應正確率;在事件關聯電位部分,體操組相較於前測,後測在VSWM作業顯著有較大的P3振幅。值得一提的是,相較於體操組,控制組在VSWM作業後測顯著有較小的pSW振幅表現。討論:本研究結果顯示為期8週的體操訓練能夠提升孩童的動作能力及視覺空間相關的認知功能,說明體操可作為學齡兒童身體活動的選擇之一。

Background: The school-aged period is the critical moment to promote children’s motor coordination and cognitive function. An adequate amount of daily exercise may stimulate brain plasticity, and improve motor learning capacities and everyday life functioning in short and long term. Gymnastics exercise emphases on visual spatial function and body control, and capacity of coordination. Therefore, the purpose of the study was to investigate the effects of gymnastics on body movement ability and visuo-spatial working memory in children. Methods: Forty-four children were recruited and randomly assigned into either the experimental group or control group. Children in the experimental group underwent gymnastics training for eight weeks (two session a week, ninety minutes per session) and the control group didn’t engage in specific exercise training, Measures were taken before and after interventions, which included motor and physical fitness assessments, cognitive testing and concurrent EEG data collection. Results: gymnastic training group showed significantly enhanced motor and physical fitness, and higher accuracy rates and enhanced P3 amplitudes during visuo-spatial working memory test in the encoding and retrieval-process phases, compared with their pre-training performances. In addition, there was a trend that the control group revealed smaller pSW amplitude compared with the gymnastic training group group. Conclusion: the current study demonstrated that gymnastics may improve motor ability and cognitive aspect associated with visuo-spatial ability in school-aged children, which suggest that gymnastics could serve as an alternative of physical exercise in such group.

口試委員與系主任簽字之論文通過簽名表..............................................................................i 論文授權書................................................................................................................................ii 中文摘要…………………………………………………………………………...………...iii 英文摘要....................................................................................................................................iv 謝誌.............................................................................................................................................v 目次............................................................................................................................................vi 表次……………………………………………………………………..…………...………viii 圖次…………………………………………………………………………………...……….ix 第壹章 緒論.........................................................................................................1 第一節 前言...................................................................................................................1 第二節 問題背景...........................................................................................................1 第三節 研究目的...........................................................................................................6 第四節 操作性名詞定義解釋.......................................................................................6 第五節 研究範圍與限制…………………………………………………..…….......7 第貳章 文獻探討.................................................................................................9 第一節 視覺空間工作記憶作業………………………………………………….....9 第二節 學齡兒童認知與大腦神經發展之關係.........................................................11 第三節 學齡兒童身體動作發展與認知發展之關係.................................................13 第四節 身體適能對認知表現影響之相關研究.........................................................17 第五節 身體活動促進大腦神經認知功能之生、心理機轉.......................................20 第六節 大腦認知功能與事件關聯電位之關係………………………………..….26 第七節 文獻總結…………………………………………………………………...28 第參章 研究方法與步驟...................................................................................30 第一節 研究架構.........................................................................................................30 第二節 研究參與者.....................................................................................................30 第三節 實驗步驟.........................................................................................................31 第四節 課程設計.........................................................................................................32 第五節 研究工具.........................................................................................................34 第六節 實驗流程.........................................................................................................37 第七節 資料處理與統計分析.....................................................................................41 第肆章 結果………...........................................................................................44 第一節 參與者背景變項結果.....................................................................................44 第二節 行為資料結果.................................................................................................45 第三節 腦波資料結果………………………………………………………......….57 第伍章 討論………...........................................................................................64 第一節 動作行為表現.................................................................................................64 第二節 事件關聯電位表現…………………………………………………....…..67 第三節 結論……………………………………………………………………...…69 第四節 建議………………………………………………………………………...70 引用文獻.............................................................................................................71

尤怡凱 (2008)。下肢發展協調障礙兒童視知覺與外因性整體反應時間探討。未出版碩士論文,國立屏東教育大學,屏東縣。
王駿濠 (2010)。從認知電生理角度探討不同身體活動量老年人在視覺空間工作記憶表現的差異。成功大學體育健康與休閒研究所學位論文,1-81。
王駿濠、蔡佳良 (2009)。運動介入對老年人認知神經生理功能的影響。大專體育,(102),181-188。
王駿濠、蔡佳良 (2011)。高活動量女性長者之視覺空間工作記憶:行為與事件相關電位之研究。中華心理衛生學刊,24(3),345-380。
王駿濠、蔡佳良、涂國誠、曾鈺婷、蔡馨栴 (2010)。從事件相關電位探討羽球訓練對女大學生視覺空間工作記憶的影響。大專體育學刊,12(4),29-43。
石恒星、洪聰敏 (2006)。身體活動與大腦神經認知功能老化。臺灣運動心理學報,(8),35-63。
曲世奎、周力行、陆保钟 (1999)。体操大辞典。北京:人民体育出版社。
吳昇光、蔡輔仁 (2002)。我國發展協調障礙學童之體適能及動作能力研究。台北市:教育部。
吳武典、蔡崇建、胡致芬、王振德、林幸臺、郭靜枝 (1996)。托尼非語文智力測驗 (乙式)。臺北市:心理出版社。
李曜全 (2006)。台灣兒童動作評估測驗之信效度分析與常模建立。中國醫藥大學醫學研究所碩士班學位論文,1-172。
林益瑞 (2013)。羽球教學對發展協調障礙學童身體動作能力之影響。未出版碩士論文,國立臺南大學,台南市。
林祐修 (2007)。瑜珈運動對國小學童動作協調能力之影響。未出版碩士論文,國立臺南大學,台南市。
林豐姿 (2011)。投籃訓練對發展協調障礙學童動作協調能力的影響。未出版碩士論文,國立臺南大學,台南市。
邱馨慧 (2008)。發展協調障礙兒童執行視覺空間注意力情境下大腦相關事件誘發電位之探討。成功大學體育健康與休閒研究所學位論文,1-58。
俞智贏 (2007)。你也可以成為體操教學高手-談體操教學理念與做法。大專體育,(88),1-5。
洪聰敏 (1998)。腦波:探討運動及身體活動心理學的另一扇視窗。中華體育季刊,11(4),63-74。
胡名霞 (2006)。動作控制和動作學習-第二版。新北市:金名圖書有限公司。
莊嵐雅、黃崇儒、洪聰敏 (2014)。以腦波測量來探討身體活動的心理效應:1990年至2014年研究趨勢探析。體育學報,47(4),555-568。
許齡方 (2014)。治療性運動對國小注意力缺陷過動症兒童工作記憶及問題行為之成效。國立臺北教育大學特殊教育學系早期療育碩士班學位論文,1-66。
郭靜晃、陳正乾 (1998)。幼兒教育:適合3-8歲幼兒的教學方法。台北:揚智文化事業股份有限公司。
陳志偉 (2011)。跳繩活動對高年級學童動作協調能力之影響。未出版碩士論文,國立臺南大學,台南市。
陳玟瑾 (2007)。學前男童身體活動能力與反應時間及事件關聯電位之關係。未出版碩士論文,臺北市立體育學院,臺北市。
陳彥宏 (2006)。後退跑與後滾翻對兒童平衡能力之影響。未出版碩士論文,國立臺南大學,台南市。
陳香吟 (2006)。足球課程對國小二年級學童動作協調之影響。未出版碩士論文,中國文化大學,臺北市。
陳湘 (1999)。智能障礙學童知覺動作訓練初探。大專體育,(45),94-98。
陳福成 (2004)。發展協調障礙兒童之團體動作訓練及縱向評估研究。未出版碩士論文,中國醫藥大學,台中市。
黃國明 (2004)。兒童體操基礎教學設計之探討。大專體育,(70),23-26。
黃瓊瑱、謝錦城 (2010)。體操運動教學介入訓練對發展協調障礙學童的影響。中華體育季刊,24(4),60-69。
黃靄雯、廖華芳、李淑貞、戴似芳、王湘慧、柯雅齡 (2002)。發展性協調障礙兒童之物理治療成效三個個案報告。物理治療,27(3),139-148。
楊姿娟 (2008)。桌球教學對發展協調障礙學童動作協調表現能力與熟練度之影響。未出版碩士論文,國立臺南大學,台南市。
趙思瑩 (2008)。運動介入對學前兒童反應時間與事件關聯電位之影響。未出版碩士論文,臺北市立體育學院,臺北市。
劉安鈞、林瑞興 (2012)。體操運動對兒童感覺統合發展之研究。屏東教大體育,(15),144-153。
劉有德 (2011)。運動行爲研究在體育的應用與課題。體育學報,44(2),163-171。
潘孝桂 (1999)。短跑選手與非運動員之聽覺反應時間及事件關連電位比較。臺灣師範大學體育學系學位論文,1-48。
蔡佳良、吳昇光、黃啟煌 (2005)。九歲和十歲發展協調障礙兒童動作特性與盛行率之探討。國立體育學院論叢,16(1),85-102。
蔡侑蓉 (2012)。以事件關聯電位探討運動對注意力缺陷過動症孩童抑制能力的影響。臺灣師範大學運動科學研究所學位論文,1-66。
戴尉珊、林耀豐 (2003)。兒童動作發展之初探。屏師體育,(7),104-113。
薛銘文 (2007)。十週足球課程對國小四年級學童動作協調與自尊之影響。未出版碩士論文,中國文化大學,臺北市。
韓濟生 (1996)。神經科學綱要。台中市:昭人出版社。
羅美惠 (1999)。優質大腦。台北市:先覺出版股份有限公司。
Alesi, M., Bianco, A., Padulo, J., Luppina, G., Petrucci, M., Paoli, A., … Pepi, A. (2015). Motor and cognitive growth following a Football Training Program. Frontiers in Psychology, 6, 1627-1627.
Alesi, M., Bianco, A., Padulo, J., Vella, F. P., Petrucci, M., Paoli, A., … Pepi, A. (2014). Motor and cognitive development: the role of karate. Muscles, Ligaments and Tendons Journal, 4(2), 114-120.
Alloway, T. P. (2007). Working memory, reading, and mathematical skills in children with developmental coordination disorder. Journal of Experimental Child Psychology, 96(1), 20-36.
Alloway, T. P., & Archibald, L. (2008). Working memory and learning in children with developmental coordination disorder and specific language impairment. Journal of Learning Disabilities, 41(3), 251-262.
Alloway, T. P., Rajendran, G., & Archibald, L. M. (2009). Working memory in children with developmental disorders. Journal of Learning Disabilities, 42(4), 372-382.
Alloway, T. P., & Temple, K. J. (2007). A comparison of working memory skills and learning in children with developmental coordination disorder and moderate learning difficulties. Applied Cognitive Psychology, 21(4), 473-487.
Alpkaya, U. (2013). The effects of basic gymnastics training integrated with physical education courses on selected motor performance variables. Educational Research and Reviews, 8(7), 317.
Amso, D., & Casey, B. (2006). Beyond what develops when neuroimaging may inform how cognition changes with development. Current Directions in Psychological Science, 15(1), 24-29.
Andersen, R., Essick, G., & Siegel, R. (1985). Neurons of area 7 activated by both visual stimuli and oculomotor behavior. Experimental Brain Reserch, 67, 316-322.
Babin, J., Katić, R., Ropac, D., & Bonacin, D. (2001). Effect of specially programmed physical and health education on motor fitness of seven-year-old school children. Collegium Antropologicum, 25(1), 153-165.
Baddeley, A. (1992). Working memory. Science, 255(5044), 556.
Baddeley, A., & Hitch, G. (1974). Working memory. Psychology of Learning and Motivation, 8, 47-89.
Barnea-Goraly, N., Menon, V., Eckert, M., Tamm, L., Bammer, R., Karchemskiy, A., … Reiss, A. L. (2005). White matter development during childhood and adolescence: a cross-sectional diffusion tensor imaging study. Cerebral Cortex, 15(12), 1848-1854.
Bellebaum, C., & Daum, I. (2007). Cerebellar involvement in executive control. The Cerebellum, 6(3), 184-192.
Best, J. R. (2010). Effects of physical activity on children’s executive function: Contributions of experimental research on aerobic exercise. Developmental Review, 30(4), 331-351.
Black, J. E., Greenough, W. T., Anderson, B. J., & Isaacs, K. R. (1987). Environment and the aging brain. Canadian Journal of Psychology, 41(2), 111-130.
Black, J. E., Isaacs, K. R., Anderson, B. J., Alcantara, A. A., & Greenough, W. T. (1990). Learning causes synaptogenesis, whereas motor activity causes angiogenesis, in cerebellar cortex of adult rats. Proceedings of the National Academy of Sciences, 87(14), 5568-5572.
Blondis, T. A., Snow, J. H., Roizen, N. J., Opacich, K. J., & Accardo, P. J. (1993). Early maturation of motor-delayed children at school age. Journal of Child Neurology, 8(4), 323-329.
Bolton, M. M., Pittman, A. J., & Lo, D. C. (2000). Brain-derived neurotrophic factor differentially regulates excitatory and inhibitory synaptic transmission in hippocampal cultures. The Journal of Neuroscience, 20(9), 3221-3232.
Bornstein, M. H., Arterberry, M. E., & Mash, C. (1999). Perceptual development. Developmental Psychology: An Advanced Textbook, 4, 231-274.
Brown, L., Sherbenou, R., & Johnsen, S. (1990). TONI-2. Test of nonverbal intelligence. Examiner’s manual. Austin, TX: Pro-edn.
Buckworth, J., Dishman, R., & Bahrke, M. (2002). Determinants of exercise and physical activity. Exercise psychology. Champaign: Human Kinetics, 191-209.
Burnham, J. (1998). Exercise is medicine: health benefits of regular physical activity. The Journal of the Louisiana State Medical Society: official organ of the Louisiana State Medical Society, 150(7), 319-323.
Cacioppo, J. T., & Tassinary, L. G. (1990). Inferring psychological significance from physiological signals. American Psychologist, 45(1), 16-28.
Casey, B., Galvan, A., & Hare, T. A. (2005). Changes in cerebral functional organization during cognitive development. Current Opinion in Neurobiology, 15(2), 239-244.
Castrén, E., Berninger, B., Leingärtner, A., & Lindholm, D. (1998). Regulation of brain-derived neurotrophic factor mRNA levels in hippocampus by neuronal activity. Progress in Brain Research, 117, 57-64.
Chaddock-Heyman, L., Erickson, K. I., Holtrop, J. L., Voss, M. W., Pontifex, M. B., Raine, L. B., ... Kramer, A. F. (2014). Aerobic fitness is associated with greater white matter integrity in children. Frontiers in Human Neuroscience, 8, 584.
Chaddock‐Heyman, L., Hillman, C. H., Cohen, N. J., & Kramer, A. F. (2014). III. The importance of physical activity and aerobic fitness for cognitive control and memory in children. Monographs of the Society for Research in Child Development, 79(4), 25-50.
Chaddock, L., Pontifex, M. B., Hillman, C. H., & Kramer, A. F. (2011). A review of the relation of aerobic fitness and physical activity to brain structure and function in children. Journal of the International Neuropsychological Society, 17(6), 975-985.
Chaddock, L., Voss, M. W., & Kramer, A. F. (2012). Physical activity and fitness effects on cognition and brain health in children and older adults. Kinesiology Review, 1(1), 37-45.
Chafee, M. V., & Goldman-Rakic, P. S. (1998). Matching patterns of activity in primate prefrontal area 8a and parietal area 7ip neurons during a spatial working memorytask. Journal of Neurophysiology, 79(6), 2919-2940.
Chang, Y. K., Pan, C. Y., Chen, F. T., Tsai, C. L., & Huang, C. C. (2012). Effect of resistance exercise training on cognitive function in healthy older adults: a review. Journal of Aging and Physical Activity, 20(4), 497-517.
Chang, Y. K., Tsai, Y. J., Chen, T. T., & Hung, T. M. (2013). The impacts of coordinative exercise on executive function in kindergarten children: an ERP study. Experimental Brain Research, 225(2), 187-196.
Chaouloff, F. (1989). Physical exercise and brain monoamines: a review. Acta Physiologica Scandinavica, 137(1), 1-13.
Christakou, A., Halari, R., Smith, A.B., Ifkovits, E., Brammer, M., Rubia, K. (2009). Sex-dependent age modulation of frontostriatal and temporoparietal activation during cognitive control. NeuroImage, 48, 223-236.
Chu, M., & Kita, S. (2011). The nature of gestures' beneficial role in spatial problem solving. Journal of Experimental Psychology: General, 140(1), 102-116.
Chugani, H. T., Phelps, M. E., & Mazziotta, J. C. (1987). Positron emission tomography study of human brain functional development. Annals of neurology, 22(4), 487-497.
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.
Colcombe, S. J., Kramer, A. F., Erickson, K. I., Scalf, P., McAuley, E., Cohen, N. J., … Elavsky, S. (2004). Cardiovascular fitness, cortical plasticity, and aging. Proceedings of the National Academy of Sciences of the United States of America, 101(9), 3316-3321.
Colcombe, S. J., Erickson, K. I., Raz, N., Webb, A. G., Cohen, N. J., McAuley, E., & Kramer, A. F. (2003). Aerobic fitness reduces brain tissue loss in aging humans. Journal of Gerontology: Medical Sciences, 58(2), 176-180.
Colcombe, S. J., Erickson, K. I., Scalf, P. E., Kim, J. S., Prakash, R., McAuley, E., … Kramer, A. F. (2006). Aerobic exercise training increases brain volume in aging humans. Journal of Gerontology: Medical Sciences, 61(11), 1166-1170.
Colcombe, S. J., Kramer, A. F., Erickson, K. I., Scalf, P., McAuley, E., Cohen, N. J., … Elavsky, S. (2004). Cardiovascular fitness, cortical plasticity, and aging. Proceedings of the National Academy of Sciences of the United States of America, 101(9), 3316-3321.
Čuljak, Z., Ćavar, M., Crnjac, D., Ćorluka, M., & Marić, K. (2011). Effectiveness of the school of gymnastics in 7 years old children. Sport Scientific and Practical Aspects, 8(2), 41-45.
Cummins, R., Livesey, P., & Evans, J. (1977). A developmental theory of environmental enrichment. Science, 197(4304), 692-694.
Curtis, C. (2006). Prefrontal and parietal contributions to spatial working memory. Neuroscience, 139(1), 173-180.
Dai, C. T., Chang, Y. K., Huang, C. J., & Hung, T. M. (2013). Exercise mode and executive function in older adults: an ERP study of task-switching. Brain and Cognition, 83(2), 153-162.
Davis, E. E., Pitchford, N. J., & Limback, E. (2011). The interrelation between cognitive and motor development in typically developing children aged 4-11 years is underpinned by visual processing and fine manual control. British Journal of Psychology, 102(3), 569-584.
De Greeff, J., Hartman, E., Mullender-Wijnsma, M., Bosker, R., Doolaard, S., & Visscher, C. (2016). Long-term effects of physically active academic lessons on physical fitness and executive functions in primary school children. Health Education Research, 31(2), 185-194.
Diamond, A. (2000). Close interrelation of motor development and cognitive development and of the cerebellum and prefrontal cortex. Child Development, 71(1), 44-56.
Dishman, R. K., Berthoud, H. R., Booth, F. W., Cotman, C. W., Edgerton, V. R., Fleshner, M. R., … Hillman, C. H. (2006). Neurobiology of exercise. Obesity, 14(3), 345-356.
Donnelly, J. E., & Lambourne, K. (2011). Classroom-based physical activity, cognition, and academic achievement. Preventive Medicine, 52, 36-42.
Dubbert, P. M., Vander Weg, M. W., Kirchner, K. A., & Shaw, B. (2004). Evaluation of the 7-day physical activity recall in urban and rural men. Medicine and Science in Sports and Exercise, 36(9), 1646-1654.
Duncan-Johnson, C. C. (1981). Young psychophysiologist award address, 1980. P300 latency: A new metric of information processing. Psychophysiol, 18, 207-215.
Erickson, K. I., Prakash, R. S., Voss, M. W., Chaddock, L., Hu, L., Morris, K. S., … Kramer, A. F. (2009). Aerobic fitness is associated with hippocampal volume in elderly humans. Hippocampus, 19(10), 1030-1039.
Eveland-Sayers, B. M., Farley, R. S., Fuller, D. K., Morgan, D. W., & Caputo, J. L. (2009). Physical fitness and academic achievement in elementary school children. Journal of Physical Activity and Health, 6, 99-104.
Fordyce, D., & Farrar, R. (1991). Enhancement of spatial learning in F344 rats by physical activity and related learning-associated alterations in hippocampal and cortical cholinergic functioning. Behavioural Brain Research, 46(2), 123-133.
Fox, A. M., & Lent, B. (1996). Clumsy children. Primer on developmental coordination disorder. Canadian Family Physician, 42, 1965-1971.
Fu, S., Zinni, M., Squire, P. N., Kumar, R., Caggiano, D. M., & Parasuraman, R. (2008). When and where perceptual load interacts with voluntary visuospatial attention: An event-related potential and dipole modeling study. Neuroimage, 39(3), 1345-1355.
Gómez-Pinilla, F., So, V., & Kesslak, J. P. (1998). Spatial learning and physical activity contribute to the induction of fibroblast growth factor: neural substrates for increased cognition associated with exercise. Neuroscience, 85(1), 53-61.
Gómez‐Pinilla, F., Ying, Z., Opazo, P., Roy, R., & Edgerton, V. (2001). Differential regulation by exercise of BDNF and NT‐3 in rat spinal cord and skeletal muscle. European Journal of Neuroscience, 13(6), 1078-1084.
Garcı́a-Larrea, L., & Cézanne-Bert, G. (1998). P3, positive slow wave and working memory load: a study on the functional correlates of slow wave activity. Electroencephalography and Clinical Neurophysiology/Evoked Potentials Section, 108(3), 260-273.
Giedd, J. N. (2004). Structural magnetic resonance imaging of the adolescent brain. Annals of the New York Academy of Sciences, 1021(1), 77-85.
Giedd, J. N., Blumenthal, J., Jeffries, N. O., Castellanos, F. X., Liu, H., Zijdenbos, A., … Rapoport, J. L. (1999). Brain development during childhood and adolescence: a longitudinal MRI study. Nature Neuroscience, 2(10), 861-863.
Gogtay, N., Giedd, J. N., Lusk, L., Hayashi, K. M., Greenstein, D., Vaituzis, A. C., … Toga, A. W. (2004). Dynamic mapping of human cortical development during childhood through early adulthood. Proceedings of the National Academy of Sciences of The United States of America, 101(21), 8174-8179.
Hatfield, B., & Hillman, C. (2001). The psychophysiology of sport: A mechanistic understanding of the psychology of superior performance. Handbook of Sport Psychology, 2, 362-386.
Hatfield, B., & Landers, D. (1987). Psychophysiology in exercise and sport research: an overview. Exercise and Sport Sciences Reviews, 15(1), 351-388.
Hillman, C. H., Belopolsky, A. V., Snook, E. M., Kramer, A. F., & McAuley, E. (2004). Physical activity and executive control: implications for increased cognitive health during older adulthood. Research Quarterly for Exercise and Sport, 75(2), 176-185.
Hillman, C. H., Buck, S. M., Themanson, J. R., Pontifex, M. B., & Castelli, D. M. (2009). Aerobic fitness and cognitive development: Event-related brain potential and task performance indices of executive control in preadolescent children. Developmental Psychology, 45(1), 114-129.
Hillman, C. H., Castelli, D. M., & Buck, S. M. (2005). Aerobic fitness and neurocognitive function in healthy preadolescent children. Medicine and Science in Sports and Exercise, 37,1967-1974.
Hillman, C. H., Erickson, K. I., & Kramer, A. F. (2008). Be smart, exercise your heart: exercise effects on brain and cognition. Nature Reviews Neuroscience, 9(1), 58-65.
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), 1063-1071.
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.
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.
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.
Huttenlocher, P. R., & Dabholkar, A. S. (1997). Regional differences in synaptogenesis in human cerebral cortex. Journal of Comparative Neurology, 387(2), 167-178.
Isaacs, K. R., Anderson, B. J., Alcantara, A. A., Black, J. E., & Greenough, W. T. (1992). Exercise and the brain: angiogenesis in the adult rat cerebellum after vigorous physical activity and motor skill learning. Journal of Cerebral Blood Flow and Metabolism, 12(1), 110-119.
Jansen, P., & Kellner, J. (2015). The role of rotational hand movements and general motor ability in children’s mental rotation performance. Frontiers in Psychology, 6, 984.
Jonides, J., Lacey, S. C., & Nee, D. E. (2005). Processes of working memory in mind and brain. Current Directions in Psychological Science, 14(1), 2-5.
Kalmijn, S., Launer, L. J., Ott, A., Witteman, J., Hofman, A., & Breteler, M. (1997). Dietary fat intake and the risk of incident dementia in the Rotterdam Study. Annals of Neurology, 42(5), 776-782.
Kamijo, K., Pontifex, M. B., O’Leary, K. C., Scudder, M. R., Wu, C. T., Castelli, D. M., & Hillman, C. H. (2011). The effects of an afterschool physical activity program on working memory in preadolescent children. Developmental Science, 14(5), 1046-1058.
Kesslak, J. P., So, V., Choi, J., Cotman, C. W., & Gomez-Pinilla, F. (1998). Learning upregulates brain-derived neurotrophic factor messenger ribonucleic acid: a mechanism to facilitate encoding and circuit maintenance? Behavioral Neuroscience, 112(4), 1012-1019.
Khan, N. A., & Hillman, C. H. (2014). The relation of childhood physical activity and aerobic fitness to brain function and cognition: a review. Pediatric Exercise Science, 26(2), 138-146.
Kleim, J. A., Lussnig, E., Schwarz, E. R., Comery, T. A., & Greenough, W. T. (1996). Synaptogenesis and Fos expression in the motor cortex of the adult rat after motor skill learning. The Journal of Neuroscience, 16(14), 4529-4535.
Knight, R. T. (1996). Contribution of human hippocampal region to novelty detection. Nature, 383(6597), 256-259.
Knight, R. T., Scabini, D., Woods, D. L., & Clayworth, C. C. (1989). Contributions of temporal-parietal junction to the human auditory P3. Brain Research, 502(1), 109-116.
Knopman, D., Boland, L., Mosley, T., Howard, G., Liao, D., Szklo, M., ... Investigators, A. R. i. C. S. (2001). Cardiovascular risk factors and cognitive decline in middle-aged adults. Neurology, 56(1), 42-48.
Koziol, L. F., Budding, D. E., & Chidekel, D. (2012). From movement to thought: executive function, embodied cognition, and the cerebellum. The Cerebellum, 11(2), 505-525.
Kramer, A. F., Hahn, S., Cohen, N. J., Banich, M. T., McAuley, E., Harrison, C. R., ... Boileau, R. A. (1999). Ageing, fitness and neurocognitive function. Nature, 400(6743), 418-419.
Kutas, M., McCarthy, G., & Donchin, E. (1977). Augmenting mental chronometry: the P300 as a measure of stimulus evaluation time. Science, 197(4305), 792-795.
Landers, D. M., & Arent, S. M. (2001). Physical activity and mental health. Handbook of Sport Psychology, 2, 740-765.
Lasheras, L., Aznar, S., Merino, B., & López, E. G. (2001). Factors associated with physical activity among Spanish youth through the National Health Survey. Preventive Medicine, 32(6), 455-464.
Linden, D. E. (2005). The P300: where in the brain is it produced and what does it tell us? The Neuroscientist, 11(6), 563-576.
Lopes, V. P., Stodden, D. F., Bianchi, M. M., Maia, J. A., & Rodrigues, L. P. (2012). Correlation between BMI and motor coordination in children. Journal of Science and Medicine in Sport, 15(1), 38-43.
Losse, A., Henderson, S. E., Elliman, D., Hall, D., Knight, E., & Jongmans, M. (1991). Clumsiness in children‐do they grow out of it? A 10‐year follow‐up study. Developmental Medicine and Child Neurology, 33(1), 55-68.
Müller, N. G., & Knight, R. T. (2002). Age-related changes in fronto-parietal networks during spatial memory: an ERP study. Cognitive Brain Research, 13(2), 221-234.
Mandich, A., Polatajko, H., & Rodger, S. (2003). Rites of passage: Understanding participation of children with developmental coordination disorder. Human Movement Science, 22(4), 583-595.
Mann, L., & Sabatino, D. A. (1985). Foundations of cognitive process in remedial and special education. New Jersy: Aspen Publisher, Inc.
Marchetti, R., Forte, R., Borzacchini, M., Vazou, S., Tomporowski, P. D., & Pesce, C. (2015). Physical and motor fitness, sport skills and executive function in adolescents: a moderated prediction model. Psychology, 6, 1915-1929.
Marković, K. Ž., Čavar, I., & Sporiš, G. (2012). Changes in gymnasts motor abilities during the nine month training process of female gymnasts 5-6 years of age. Science of Gymnastics Journal, 4(2), 45-54.
Martin, L. T., & Chalmers, G. R. (2007). The relationship between academic achievement and physical fitness. Physical Educator, 64(4), 214-221.
Mecklinger, A., & Pfeifer, E. (1996). Event-related potentials reveal topographical and temporal distinct neuronal activation patterns for spatial and object working memory. Cognitive Brain Research, 4(3), 211-224.
Merriam, E. P., Genovese, C. R., & Colby, C. L. (2003). Spatial updating in human parietal cortex. Neuron, 39(2), 361-373.
Miller, E. K., & Cohen, J. D. (2001). An integrative theory of prefrontal cortex function. Annual Review of Neuroscience, 24(1), 167-202.
Miller, E. K., & Desimone, R. (1994). Parallel neuronal mechanisms for short-term memory. Science, 263(5146), 520-522.
Molteni, R., Wu, A., Vaynman, S., Ying, Z., Barnard, R., & Gomez-Pinilla, F. (2004). Exercise reverses the harmful effects of consumption of a high-fat diet on synaptic and behavioral plasticity associated to the action of brain-derived neurotrophic factor. Neuroscience, 123(2), 429-440.
Molteni, R., Barnard, R., Ying, Z., Roberts, C., & Gomez-Pinilla, F. (2002). A high-fat, refined sugar diet reduces hippocampal brain-derived neurotrophic factor, neuronal plasticity, and learning. Neuroscience, 112(4), 803-814.
Morgan, W. P. (1985). Affective beneficence of vigorous physical activity. Medicine and Science in Sports and Exercise, 17(1), 94-100.
Myer, G. D., Faigenbaum, A. D., Edwards, N. M., Clark, J. F., Best, T. M., & Sallis, R. E. (2015). Sixty minutes of what? A developing brain perspective for activating children with an integrative exercise approach. British Journal of Sports Medicine, 49(23), 1510-1516.
Narayanan, N., Horst, N., & Laubach, M. (2006). Reversible inactivations of rat medial prefrontal cortex impair the ability to wait for a stimulus. Neuroscience, 139(3), 865-876.
Netz, Y., & Jacob, T. (1994). Exercise and the psychological state of institutionalized elderly: a review. Perceptual and Motor Skills, 79(3), 1107-1118.
Nibuya, M., Nestler, E. J., & Duman, R. S. (1996). Chronic antidepressant administration increases the expression of cAMP response element binding protein (CREB) in rat hippocampus. The Journal of Neuroscience, 16(7), 2365-2372.
Niederer, I., Kriemler, S., Gut, J., Hartmann, T., Schindler, C., Barral, J., & Puder, J. J. (2011). Relationship of aerobic fitness and motor skills with memory and attention in preschoolers (Ballabeina): a cross-sectional and longitudinal study. BMC Pediatrics, 11(1), 34.
O'Beirne, C., Larkin, D., & Cable, T. (1994). Coordination problems and anaerobic performance in children. Adapted Physical Activity Quarterly, 11, 141-141.
Oelkers‐Ax, R., Schmidt, K., Bender, S., Reimer, I., Möhler, E., Knauss, E., ... Weisbrod, M. (2008). Longitudinal assessment of response preparation and evaluation in migraine gives evidence for deviant maturation. Cephalalgia, 28(3), 237-249.
Olesen, P. J., Nagy, Z., Westerberg, H., & Klingberg, T. (2003). Combined analysis of DTI and fMRI data reveals a joint maturation of white and grey matter in a fronto-parietal network. Cognitive Brain Research, 18(1), 48-57.
Pang, T. Y., & Hannan, A. J. (2013). Enhancement of cognitive function in models of brain disease through environmental enrichment and physical activity. Neuropharmacology, 64, 515-528.
Pangelinan, M. M., Zhang, G., VanMeter, J. W., Clark, J. E., Hatfield, B. D., & Haufler, A. J. (2011). Beyond age and gender: relationships between cortical and subcortical brain volume and cognitive-motor abilities in school-age children. Neuroimage, 54(4), 3093-3100.
Paus, T., Zijdenbos, A., Worsley, K., Collins, D. L., Blumenthal, J., Giedd, J. N., ... Evans, A. C. (1999). Structural maturation of neural pathways in children and adolescents: in vivo study. Science, 283(5409), 1908-1911.
Payne, G., Isaacs, L., Payne, V., & Isaacs, L. (2002). Fundamental object-control skills of childhood. Human Motor Development, 328-364.
Perchet, C., Revol, O., Fourneret, P., Mauguière, F., & Garcia-Larrea, L. (2001). Attention shifts and anticipatory mechanisms in hyperactive children: an ERP study using the Posner paradigm. Biological Psychiatry, 50(1), 44-57.
Pereira, A. C., Huddleston, D. E., Brickman, A. M., Sosunov, A. A., Hen, R., McKhann, G. M., ... Small, S. A. (2007). An in vivo correlate of exercise-induced neurogenesis in the adult dentate gyrus. Proceedings of the National Academy of Sciences, 104(13), 5638-5643.
Pesce, C. (2012). Shifting the focus from quantitative to qualitative exercise characteristics in exercise and cognition research. Journal of Sport and Exercise Psychology, 34, 766-786.
Pesce, C., Crova, C., Cereatti, L., Casella, R., & Bellucci, M. (2009). Physical activity and mental performance in preadolescents: Effects of acute exercise on free-recall memory. Mental Health and Physical Activity, 2(1), 16-22.
Petrides, M. (1994). Frontal lobes and working memory: evidence from investigations of the effects of cortical excisions in nonhuman primates. Handbook of Neuropsychology, 9, 59-82.
Polich, J. (2004). Clinical application of the P300 event-related brain potential. Physical Medicine and Rehabilitation Clinics of North America, 15(1), 133-161.
Polich, J. (2007). Updating P300: an integrative theory of P3a and P3b. Clinical Neurophysiology, 118(10), 2128-2148.
Polich, J., & Kok, A. (1995). Cognitive and biological determinants of P300: an integrative review. Biological Psychology, 41(2), 103-146.
Pontifex, M. B., Hillman, C. H., & Polich, J. (2009). Age, physical fitness, and attention: P3a and P3b. Psychophysiology, 46(2), 379-387.
Pontifex, M. B., Hillman, C. H., Fernhall, B., Thompson, K., & Valentini, T. (2009). The effect of acute aerobic and resistance exercise on working memory. Medicine and Science in Sports and Exercise, 41(4), 927-934.
Pontifex, M. B., Raine, L. B., Johnson, C. R., Chaddock, L., Voss, M. W., Cohen, N. J., ... Hillman, C. H. (2011). Cardiorespiratory fitness and the flexible modulation of cognitive control in preadolescent children. Journal of Cognitive Neuroscience, 23(6), 1332-1345.
Poo, M. M. (2001). Neurotrophins as synaptic modulators. Nature Reviews Neuroscience, 2(1), 24-32.
Pritchard, W. S., Shappell, S. A., & Brandt, M. E. (1991). Psychophysiology of N200/N400: A review and classification scheme. Advances in Psychophysiology, 4, 43-106.
Radák, Z., Kaneko, T., Tahara, S., Nakamoto, H., Pucsok, J., Sasvári, M., ... Goto, S. (2001). Regular exercise improves cognitive function and decreases oxidative damage in rat brain. Neurochemistry International, 38(1), 17-23.
Raine, A., Venables, P. H., Dalais, C., Mellingen, K., Reynolds, C., & Mednick, S. A. (2001). Early educational and health enrichment at age 3-5 years is associated with increased autonomic and central nervous system arousal and orienting at age 11 years: Evidence from the Mauritius Child Health Project. Psychophysiology, 38(2), 254-266.
Richardson, M. T., Ainsworth, B. E., Jacobs, D. R., & Leon, A. S. (2001). Validation of the Stanford 7-day recall to assess habitual physical activity. Annals of Epidemiology, 11(2), 145-153.
Rigoli, D., Piek, J. P., Kane, R., & Oosterlaan, J. (2012). An examination of the relationship between motor coordination and executive functions in adolescents. Developmental Medicine and Child Neurology, 54(11), 1025-1031.
Ruchkin, D. S., Johnson, R., Grafman, J., Canoune, H., & Ritter, W. (1992). Distinctions and similarities among working memory processes: An event-related potential study. Cognitive Brain Research, 1(1), 53-66.
Ruchkin, D. S., Johnson, R., Grafman, J., Canoune, H., & Ritter, W. (1997). Multiple visuospatial working memory buffers: Evidence from spatiotemporal patterns of brain activity. Neuropsychologia, 35(2), 195-209.
Rybak, L., Somani, S., & Ravi, R. (1995). Effect of exercise training on antioxidant system in brain regions of rat. Pharmacology Biochemistry and Behavior, 50(4), 635-639.
Sallis, J. F., Buono, M. J., Roby, J. J., Micale, F. G., & Nelson, J. A. (1993). Seven-day recall and other physical activity self-reports in children and adolescents. Medicine and Science in Sports and Exercise, 25(1), 99-108.
Sallis, J. F., Haskell, W. L., Wood, P. D., Fortmann, S. P., Rogers, T., Blair, S. N., & Paffenbarger, R. S. (1985). Physical activity assessment methodology in the Five-City Project. American Journal of Epidemiology, 121(1), 91-106.
Sarkin, J., Campbell, J., Gross, L., Roby, J., Bazzo, S., Sallis, J., & Calfas, K. (1997). Project GRAD seven-day physical activity recall interviewer's manual. Medicine and Science in Sports and Exercise, 29(6), 91-102.
Schmidt, R. A. (2004). Motor learning and performance. Champaign, IL: Human Kinetics.
Schmidt, M., Jäger, K., Egger, F., Roebers, C. M., & Conzelmann, A. (2015). Cognitively engaging chronic physical activity, but not aerobic exercise, affects executive functions in primary school children: a group-randomized controlled trial. Journal of Sport and Exercise Psychology, 37(6), 575-591.
Schoemaker, M. M., & Kalverboer, A. F. (1994). Social and Affective Problems of Children Who Are Clumsy: How Early Do" bey Begin? Adapted Physical Activity Quarterly, 11, 130-140.
Seifert, T., & Secher, N. H. (2011). Sympathetic influence on cerebral blood flow and metabolism during exercise in humans. Progress in Neurobiology, 95(3), 406-426.
Serrien, D. J., Ivry, R. B., & Swinnen, S. P. (2007). The missing link between action and cognition. Progress in Neurobiology, 82(2), 95-107.
Sharkey, B. J., & Gaskill, S. E. (2007). Fitness and health, 6th ed. Champaign, IL: Human Kinetics.
Shay, K. A., & Roth, D. L. (1992). Association between aerobic fitness and visuospatial performance in healthy older adults. Psychology and Aging, 7(1), 15-24.
Silvers, J. M., Tokunaga, S., Berry, R. B., White, A. M., & Matthews, D. B. (2003). Impairments in spatial learning and memory: ethanol, allopregnanolone, and the hippocampus. Brain Research Reviews, 43(3), 275-284.
Smith, P. J., Blumenthal, J. A., Hoffman, B. M., Cooper, H., Strauman, T. A., Welsh-Bohmer, K., ... Sherwood, A. (2010). Aerobic exercise and neurocognitive performance: a meta-analytic review of randomized controlled trials. Psychosomatic Medicine, 72(3), 239-252.
Socci, D., Crandall, B., & Arendash, G. (1995). Chronic antioxidant treatment improves the cognitive performance of aged rats. Brain Research, 693(1), 88-94.
Sowell, E. R., Thompson, P. M., Holmes, C. J., Jernigan, T. L., & Toga, A. W. (1999). In vivo evidence for post-adolescent brain maturation in frontal and striatal regions. Nature Neuroscience, 2(10), 859-861.
Spirduso, W. W. (1995). Physical dimensions of aging. Champaign, IL: Human Kinetics.
Stöckel, T., & Hughes, C. M. (2015). The relation between measures of cognitive and motor functioning in 5-to 6-year-old children. Psychological Research, 80(4), 543-554.
Stroth, S., Hille, K., Spitzer, M., & Reinhardt, R. (2009). Aerobic endurance exercise benefits memory and affect in young adults. Neuropsychological Rehabilitation, 19(2), 223-243.
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.
Suwazono, S., Machado, L., & Knight, R. T. (2000). Predictive value of novel stimuli modifies visual event-related potentials and behavior. Clinical Neurophysiology, 111(1), 29-39.
Tamnes, C. K., Fjell, A. M., Westlye, L. T., Østby, Y., & Walhovd, K. B. (2012). Becoming consistent: developmental reductions in intraindividual variability in reaction time are related to white matter integrity. The Journal of Neuroscience, 32(3), 972-982.
Tereschenko, I., Otsupok, A., Krupenio, S., Levchuk, T., & Boloban, V. (2013). Evaluation of freshmen coordination abilities on practical training in gymnastics. Physical Education of Students, 3, 60-71.
Tomporowski, P. D., Davis, C. L., Miller, P. H., & Naglieri, J. A. (2008). Exercise and children’s intelligence, cognition, and academic achievement. Educational Psychology Review, 20(2), 111-131.
Tsai, C. L. (2009). The effectiveness of exercise intervention on inhibitory control in children with developmental coordination disorder: using a visuospatial attention paradigm as a model. Research in Developmental Disabilities, 30(6), 1268-1280.
Tsai, C. L., Chang, Y. K., Chen, F. C., Hung, T. M., Pan, C. Y., & Wang, C. H. (2013). Effects of cardiorespiratory fitness enhancement on deficits in visuospatial working memory in children with developmental coordination disorder: a cognitive electrophysiological study. Archives of Clinical Neuropsychology, 29, 173-185.
Tsai, C. L., Chang, Y. K., Hung, T. M., Tseng, Y. T., & Chen, T. C. (2012). The neurophysiological performance of visuospatial working memory in children with developmental coordination disorder. Developmental Medicine and Child Neurology, 54(12), 1114-1120.
Tsai, C. L., Pan, C. Y., Chang, Y. K., Wang, C. H., & Tseng, K. D. (2010). Deficits of visuospatial attention with reflexive orienting induced by eye-gazed cues in children with developmental coordination disorder in the lower extremities: An event-related potential study. Research in Developmental Disabilities, 31(3), 642-655.
Tsai, C. L., Pan, C. Y., Cherng, R. J., Hsu, Y. W., & Chiu, H. H. (2009). Mechanisms of deficit of visuospatial attention shift in children with developmental coordination disorder: A neurophysiological measure of the endogenous Posner paradigm. Brain and Cognition, 71(3), 246-258.
Tsai, C. L., Wang, C. H., & Tseng, Y. T. (2012). Effects of exercise intervention on event-related potential and task performance indices of attention networks in children with developmental coordination disorder. Brain and Cognition, 79(1), 12-22.
Tsai, C. L., & Wang, W. L. (2015). Exercise-mode-related changes in task-switching performance in the elderly. Frontiers in Behavioral Neuroscience, 9, 56.
Tudor-Locke, C., Ainsworth, B. E., Adair, L. S., Du, S., & Popkin, B. M. (2003). Physical activity and inactivity in Chinese school-aged youth: the China Health and Nutrition Survey. International Journal of Obesity, 27(9), 1093-1099.
Van der Fels, I. M., Te Wierike, S. C., Hartman, E., Elferink-Gemser, M. T., Smith, J., & Visscher, C. (2015). The relationship between motor skills and cognitive skills in 4–16 year old typically developing children: A systematic review. Journal of Science and Medicine in Sport, 18(6), 697-703.
Van der Niet, A. G., Smith, J., Oosterlaan, J., Scherder, E. J., Hartman, E., & Visscher, C. (2016). Effects of a Cognitively Demanding Aerobic Intervention During Recess on Children's Physical Fitness and Executive Functioning. Pediatric Exercise Science, 28(1), 64-70.
Van Praag, H., Kempermann, G., & Gage, F. H. (1999). Running increases cell proliferation and neurogenesis in the adult mouse dentate gyrus. Nature Neuroscience, 2(3), 266-270.
Vandorpe, B., Vandendriessche, J., Vaeyens, R., Pion, J., Matthys, S., Lefevre, J., ... Lenoir, M. (2012). Relationship between sports participation and the level of motor coordination in childhood: A longitudinal approach. Journal of Science and Medicine in Sport, 15(3), 220-225.
Vaynman, S., & Gomez-Pinilla, F. (2005). License to run: exercise impacts functional plasticity in the intact and injured central nervous system by using neurotrophins. Neurorehabilitation and Neural Repair, 19(4), 283-295.
Verleger, R. (1997). On the utility of P3 latency as an index of mental chronometry. Psychophysiology, 34(2), 131-156.
Voelcker‐Rehage, C., Godde, B., & Staudinger, U. M. (2010). Physical and motor fitness are both related to cognition in old age. European Journal of Neuroscience, 31(1), 167-176.
Von Cramon, Y. D., & Bublak, P. (1997). Zur Funktion des visuellraumlichen arbeitsgedachtiniess. In B. Rockstroh, T. Elbett, and H. Watzl (Eds.), Impulse fur die klinische psychologie (pp. 29-41). Gottingen: Hogrefe.
Wager, T. D., & Smith, E. E. (2003). Neuroimaging studies of working memory. Cognitive, Affective and Behavioral Neuroscience, 3(4), 255-274.
Wang, T., Xie, K., & Lu, B. (1995). Neurotrophins promote maturation of developing neuromuscular synapses. The Journal of Neuroscience, 15(7), 4796-4805.
Wang, C. H., & Tsai, C. L. (2016). Physical Activity Is Associated With Greater Visuospatial Cognitive Functioning Regardless of the Level of Cognitive Load in Elderly Adults. Journal of Sport and Exercise Psychology, 38(1), 69-81.
Wang, Z., Guo, Y., Myers, K. G., Heintz, R., & Holschneider, D. P. (2015). Recruitment of the prefrontal cortex and cerebellum in Parkinsonian rats following skilled aerobic exercise. Neurobiology of Disease, 77, 71-87.
Wassenberg, R., Feron, F. J., Kessels, A. G., Hendriksen, J. G., Kalff, A. C., Kroes, M., ... Vles, J. S. (2005). Relation between cognitive and motor performance in 5‐to 6‐year‐old children: Results from a large‐scale cross‐sectional study. Child Development, 76(5), 1092-1103.
Wickens, C., Kramer, A., Vanasse, L., & Donchin, E. (1983). Performance of concurrent tasks: a psychophysiological analysis of the reciprocity of information-processing resources. Science, 221(4615), 1080-1082.
Wilson, P. H., & Maruff, P. (1999). Deficits in the endogenous control of covert visuospatial attention in children with developmental coordination disorder. Human Movement Science, 18(2), 421-442.
Wilson, P. H., Maruff, P., & McKenzie, B. E. (1997). Covert orienting of visuospatial attention in children with developmental coordination disorder. Developmental Medicine and Child Neurology, 39(11), 736-745.
Wilson, P. H., & McKenzie, B. E. (1998). Information processing deficits associated with developmental coordination disorder: A meta‐analysis of research findings. Journal of Child Psychology and Psychiatry, 39(6), 829-840.
Wittberg, R. A., Northrup, K. L., & Cottrel, L. (2009). Children’s physical fitness and academic performance. American Journal of Health Education, 40(1), 30-36.
Zani, A., & Rossi, B. (1991). Cognitive psychophysiology as an interface between cognitive and sport psychology. International Journal of Sport Psychology, 22, 376-398.

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