林宜慧(2007)。台南地區國一學生參加校外數學補習對其學習的影響(未出版 之碩士論文)。國立高雄師範大學,高雄市。
[Lin, Y.-H. (2007). A study of the impact of attending math cram schools on seventh- grade students’ mathematics learning. (Unpublished master’s thesis). National Kaohsiung Normal University, Kaohsiung, Taiwan.]
孟瑛如、簡吟文、邱佳寧、陳虹君、周文聿(2015a)。國民小學一至二年級數 學診斷測驗(MDA/G1-2)。臺北市:心理。
[Meng, Y.-R., Chien, Y.-W., Chiu, C.-N., Chen, H.-C., & Chou, W.-Y. (2015a).
Elementary school mathematics diagnostic assessment/Grades 1-2. Taipei, Taiwan: Psychological.]
孟瑛如、簡吟文、邱佳寧、陳虹君、周文聿(2015b)。國民小學三至四年級數 學診斷測驗(MDA/G3-4)。臺北市:心理。
[Meng, Y.-R., Chien, Y.-W., Chiu, C.-N., Chen, H.-C., & Chou, W.-Y. (2015b).
Elementary school mathematics diagnostic assessment/Grades 3-4. Taipei, Taiwan: Psychological.]
孟瑛如、簡吟文、邱佳寧、陳虹君、周文聿(2015c)。國民小學五至六年級數 學診斷測驗(MDA/ G5-6)。臺北市:心理。
[Meng, Y.-R., Chien, Y.-W., Chiu, C.-N., Chen, H.-C., & Chou, W.-Y. (2015c).
Elementary school mathematics diagnostic assessment/Grades 5-6. Taipei, Taiwan: Psychological.]
孟瑛如、簡吟文、陳虹君、周文聿(2015)。國民中學七至九年級數學診斷測驗
(MDA/ G7-9)。臺北市:心理。
[Meng, Y.-R., Chien, Y.-W., Chen, H.-C., & Chou, W.-Y. (2015). Junior high school mathematics diagnostic assessment/Grades 7-9. Taipei, Taiwan: Psychological.]
柯華葳(1999)。基礎數學概念評量。臺北市:教育部。
[Ko, H.-W. (1999). Basic arithmetic skill test. Taipei, Taiwan: Minister of Education.]
洪儷瑜、連文宏(2015)。基本數學核心能力測驗。臺北市:中國行為科學社。
[Hung, L.-Y., & Lien, W.-H. (2015). Core competence of basic mathematics inventory.
Taipei, Taiwan: Chinese Behavioral Science Corporation.]
徐政業(2008)。學校與補習班數學教育情況及其對學生數學學習影響之比較
(未出版之碩士論文)。國立臺灣師範大學,臺北市。
[Hsu, C.-Y. (2008). Comparison of arithmetic learning effects between mathematical education in ordinary school and cram school. (Unpublished master’s thesis).
National Taiwan Normal University, Taipei, Taiwan.]
張雅俐(2011)。國小學童數學學業成就、數學補習經驗與數學學習策略關係 之研究(未出版之碩士論文)。國立臺南大學,臺南市。
[Chang, Y.-L. (2011). A study of the relationship among math achievement, mathematics tutorial experience, and mathematics learning strategies of elementary school students. (Unpublished master’s thesis). National University of Tainan, Tainan, Taiwan.]
許綺婷(2001)。探討國三學生對補習班與學校教學的看法及其與基本學測數 學科之表現的關係(未出版之碩士論文)。國立台灣師範大學,臺北市。
[Hsu, C.-T. (2011). Investigation of the ninth-grade students’ viewpoint on the teachings of cram schools and ordinary schools and their relationship with the performance of Basic Competence Test of Mathematics. (Unpublished master’s thesis). National Taiwan Normal University, Taipei, Taiwan.]
楊德清(2002)。從教學活動中幫助國小六年級學生發展數字常識之研究。科學 教育學刊,10(3),233-259。
[Yang, D.-C. (2002). A study of sixth grade students’ development of number sense through well-designed number sense activities. Chinese Journal of Science and Education, 10(3), 233-259.]
楊德清、黃瓊賢(2012)。心算教學活動實踐於小一數學課室之研究。教育科學 研究期刊,57(2),125-154。
[Yang, D.-C., & Huang, C.-S. (2012). Mental computation activity implementation into first-grade mathematics classes. Journal of Research in Education Sciences, 57(2), 125-154.]
American Psychiatric Association. (2013). Diagnostic and statistical manual of mental disorders (5th ed.). Arlington, VA: American Psychiatric.
Ansari, D. (2008). Effects of development and enculturation on number representation in the brain. Nature Review Neuroscience, 9(4), 278-291. doi:10.1038/nrn2334 Arsalidou, M., & Taylor, M. J. (2011). Is 2+2=4? Meta-analyses of brain areas needed
for numbers and calculations. Neuroimage, 54(3), 2382-2393.
doi:10.1016/j.neuroimage.2010.10.009
Ashcraft, M. H. (2002). Math anxiety: Personal, educational, and cognitive consequences. Current Directions in Psychological Science, 11(5), 181-185. doi:
10.1111/1467-8721.00196
Ashcraft, M. H., & Krause, J. A. (2007). Working memory, math performance, and math anxiety. Psychonomic Bulletin and Review, 14(2), 243-248.
Ashkenazi, S., Mark-Zigdon, N., & Henik, A. (2013). Do subitizing deficits in developmental dyscalculia involve pattern recognition weakness? Developmental Science, 16(1), 35-46. doi:10.1111/j.1467-7687.2012.01190.x
Ashkenazi, S., Rosenberg-Lee, M., Metcalfe, A. W., Swigart, A. G., & Menon, V.
(2013). Visuo-spatial working memory is an important source of domain-general vulnerability in the development of arithmetic cognition. Neuropsychologia, 51(11), 2305-2317. doi:10.1016/j.neuropsychologia.2013.06.031
Butterworth, B. (2005). Developmental dyscalculia. In J. I. D. Campbell (Ed.), Handbook of mathematical cognition (pp. 455-467). Hove, England: Psychology Press.
Butterworth, B., & Laurillard, D. (2010). Low numeracy and dyscalculia:
Identification and intervention. ZDM, 42(6), 527-539.
doi:10.1007/s11858-010-0267-4
Butterworth, B., Varma, S., & Laurillard, D. (2011). Dyscalculia: From brain to education. Science, 332(6033), 1049-1053. doi:10.1126/science.1201536
Campbell, J. I. D., & Xue, Q. (2001). Cognitive arithmetic across cultures. Journal of Experimental Psychology: General, 130(2), 299-315.
Cantlon, J. F., Libertus, M. E., Pinel, P., Dehaene, S., Brannon, E. M., & Pelphrey, K.
A. (2009). The neural development of an abstract concept of number. Journal of Cognitive Neuroscience, 21(11), 2217-2229. doi:10.1162/jocn.2008.21159 Chang, T. T., Metcalfe, A. W., Padmanabhan, A., Chen, T., & Menon, V. (2015).
Heterogeneous and nonlinear development of human posterior parietal cortex function. Neuroimage, 126, 184-195. doi:10.1016/j.neuroimage.2015.11.053 Chang, T. T., Rosenberg-Lee, M., Metcalfe, A. W., Chen, T., & Menon, V. (2015).
Development of common neural representations for distinct numerical problems.
Neuropsychologia, 75, 481-495. doi:10.1016/j.neuropsychologia.2015.07.005 Cho, S., Metcalfe, A. W., Young, C. B., Ryali, S., Geary, D. C., & Menon, V. (2012).
Hippocampal-prefrontal engagement and dynamic causal interactions in the maturation of children’s fact retrieval. Journal of Cognitive Neuroscience, 24(9), 1849-1866. doi:10.1162/jocn_a_00246
Cho, S., Ryali, S., Geary, D. C., & Menon, V. (2011). How does a child solve 7 + 8?
Decoding brain activity patterns associated with counting and retrieval strategies.
Developmental Science, 14(5), 989-1001. doi:10.1111/j.1467-7687.2011.01055.x Chochon, F., Cohen, L., van de Moortele, P. F., & Dehaene, S. (1999). Differential
contributions of the left and right inferior parietal lobules to number processing.
Journal of Cognitive Neuroscience, 11(6), 617-630.
Cohen Kadosh, R., Cohen Kadosh, K., Kaas, A., Henik, A., & Goebel, R. (2007).
Notation-dependent and -independent representations of numbers in the parietal lobes. Neuron, 53(2), 307-314. doi:10.1016/j.neuron.2006.12.025
Cohen Kadosh, R., Lammertyn, J., & Izard, V. (2008). Are numbers special? An overview of chronometric, neuroimaging, developmental and comparative studies of magnitude representation. Progress in Neurobiology, 84(2), 132-147.
doi:10.1016/j.pneurobio.2007.11.001
Davis, N., Cannistraci, C. J., Rogers, B. P., Gatenby, J. C., Fuchs, L. S., Anderson, A.
W., & Gore, J. C. (2009). Aberrant functional activation in school age children at-risk for mathematical disability: A functional imaging study of simple arithmetic skill. Neuropsychologia, 47(12), 2470-2479.
doi:10.1016/j.neuropsychologia.2009.04.024
De Smedt, B., & Gilmore, C. K. (2011). Defective number module or impaired access?
Numerical magnitude processing in first graders with mathematical difficulties.
Journal of Experimental Child Psychology, 108(2), 278-292. doi:
10.1016/j.jecp.2010.09.003
De Smedt, B., Holloway, I. D., & Ansari, D. (2011). Effects of problem size and arithmetic operation on brain activation during calculation in children with varying levels of arithmetical fluency. Neuroimage, 57(3), 771-781.
doi:10.1016/j.neuroimage.2010.12.037
Dehaene, S., Piazza, M., Pinel, P., & Cohen, L. (2003). Three parietal circuits for number processing. Cognitive Neuropsychology, 20(3), 487-506.
doi:10.1080/02643290244000239
Fehr, T., Code, C., & Herrmann, M. (2008). Auditory task presentation reveals predominantly right hemispheric fMRI activation patterns during mental calculation. Neuroscience Letters, 431(1), 39-44.
doi:10.1016/j.neulet.2007.11.016
Fuchs, L. S., Powell, S. R., Hamlett, C. L., Fuchs, D., Cirino, P. T., & Fletcher, J. M.
(2008). Remediating computational deficits at third grade: A randomized field trial. Journal of Research on Educational Effectiveness, 1(1), 2-32.
doi:10.1080/19345740701692449
Fuchs, L. S., Powell, S. R., Seethaler, P. M., Cirino, P. T., Fletcher, J. M., Fuchs, D., …Zumeta, R. O. (2009). Remediating number combination and word problem deficits among students with mathematics difficulties: A randomized control trial.
Journal of Educational Psychology, 101(3), 561-576. doi:10.1037/a0014701 Furman, T., & Rubinsten, O. (2012). Symbolic and non symbolic numerical
representation in adults with and without developmental dyscalculia. Behavioral and Brain Functions, 8, 55. doi:10.1186/1744-9081-8-55
Geary, D. C. (1990). A componential analysis of an early learning deficit in mathematics. Journal of Experimental Child Psychology, 49(3), 363-383.
Geary, D. C. (1993). Mathematical disabilities: Cognitive, neuropsychological, and genetic components. Psychological Bulletin, 114(2), 345-362.
Geary, D. C. (2004). Mathematics and learning disabilities. Journal of Learning Disabilities, 37, 4-15.
Geary, D. C. (2011). Consequences, characteristics, and causes of mathematical learning disabilities and persistent low achievement in mathematics. Journal of Developmental and Behavioral Pediatrics, 32(3), 250-263.
doi:10.1097/DBP.0b013e318209edef
Geary, D. C. (2013). Early foundations for mathematics learning and their relations to learning disabilities. Current Directions in Psychological Science, 22(1), 23-27.
doi:10.1177/0963721412469398
Geary, D. C., & Brown, S. C. (1991). Cognitive addition: Strategy choice and speed-of-processing differences in gifted, normal, and mathematically disabled children. Developmental Psychology, 27(3), 398-406.
Geary, D. C., Hamson, C. O., & Hoard, M. K. (2000). Numerical and arithmetical cognition: A longitudinal study of process and concept deficits in children with learning disability. Journal of Experimental Child Psychology, 77(3), 236-263.
Geary, D. C., Hoard, M. K., Byrd-Craven, J., & DeSoto, M. C. (2004). Strategy choices in simple and complex addition: Contributions of working memory and counting knowledge for children with mathematical disability. Journal of Experimental Child Psychology, 88(2), 121-151. doi:10.1016/j.jecp.2004.03.002 Geary, D. C., Hoard, M. K., Nugent, L., & Bailey, D. H. (2012). Mathematical
cognition deficits in children with learning disabilities and persistent low achievement: A five-year prospective study. Journal of Educational Psychology, 104(1), 206-223. doi:10.1037/a0025398
Grabner, R. H., Ansari, D., Reishofer, G., Stern, E., Ebner, F., & Neuper, C. (2007).
Individual differences in mathematical competence predict parietal brain activation during mental calculation. Neuroimage, 38(2), 346-356.
doi:10.1016/j.neuroimage.2007.07.041
Greicius, M. D., Krasnow, B., Reiss, A. L., & Menon, V. (2003). Functional connectivity in the resting brain: A network analysis of the default mode hypothesis. Proceedings of the National Academy Sciences of the United Stated of America, 100(1), 253-258. doi:10.1073/pnas.0135058100
Halberda, J., Mazzocco, M. M. M., & Feigenson, L. (2008). Individual differences in non-verbal number acuity correlate with maths achievement. Nature, 455(7213), 665-668. doi:10.1038/nature07246
Hanich, L. B., Jordan, N. C., Kaplan, D., & Dick, J. (2001). Performance across different areas of mathematical cognition in children with learning difficulties.
Journal of Educational Psychology, 93(3), 615-626.
Hitch, G. J., & McAuley, E. (1991). Working memory in children with specific arithmetical learning difficulties. British Journal of Psychology, 82(3), 375-386.
doi:10.1111/j.2044-8295.1991.tb02406.x
Holloway, I. D., Battista, C., Vogel, S. E., & Ansari, D. (2013). Semantic and perceptual processing of number symbols: Evidence from a cross-linguistic fMRI adaptation study. Journal of Cognitive Neuroscience, 25(3), 388-400.
doi:10.1162/jocn_a_00323
Horwitz, B., Hwang, C., & Alstott, J. (2013). Interpreting the effects of altered brain anatomical connectivity on fMRI functional connectivity: A role for computational neural modeling. Frontiers Human Neuroscience, 7, 649.
doi:10.3389/fnhum.2013.00649
Houde, O., Rossi, S., Lubin, A., & Joliot, M. (2010). Mapping numerical processing, reading, and executive functions in the developing brain: An fMRI meta-analysis of 52 studies including 842 children. Developmental Science, 13(6), 876-885.
doi:10.1111/j.1467-7687.2009.00938.x
Iuculano, T. (2016). Neurocognitive accounts of developmental dyscalculia and its remediation. Progress in Brain Research, 227, 305-333.
doi:10.1016/bs.pbr.2016.04.024
Iuculano, T., Rosenberg-Lee, M., Richardson, J., Tenison, C., Fuchs, L., Supekar, K.,
& Menon, V. (2015). Cognitive tutoring induces widespread neuroplasticity and remediates brain function in children with mathematical learning disabilities.
Nature Communications, 6, 8453. doi:10.1038/ncomms9453
Iuculano, T., Tang, J., Hall, C. W., & Butterworth, B. (2008). Core information processing deficits in developmental dyscalculia and low numeracy.
Developmental Science, 11(5), 669-680. doi:10.1111/j.1467-7687.2008.00716.x Jolles, D., Ashkenazi, S., Chen, T., Evans, T., Kochalka, J., Rosenberg-Lee,
M., …Menon, V. (2016). Parietal hyper-connectivity, aberrant organization and circuit-based biomarkers in children with mathematical disabilities.
Developmental Science, 19(4), 613-631. doi:10.1111/desc.12399
Jolles, D., Supekar, K., Richardson, J., Tenison, C., Ashkenazi, S., Rosenberg-Lee, M., …Menon, V. (2016). Reconfiguration of parietal circuits with cognitive tutoring in elementary school children. Cortex, 83, 231-245.
doi:10.1016/j.cortex.2016.08.004
Jordan, N. C., Levine, S. C., & Huttenlocher, J. (1995). Calculation abilities in young children with different patterns of cognitive functioning. Journal of Learning Disabilities, 28(1), 53-64.
Kaufmann, L., Mazzocco, M. M., Dowker, A., von Aster, M., Gobel, S. M., Grabner, R. H., …Nuerk, H. C. (2013). Dyscalculia from a developmental and differential perspective. Frontiers in Psychology, 4, 516.
doi:10.3389/fpsyg.2013.00516
Kaufmann, L., Vogel, S. E., Starke, M., Kremser, C., Schocke, M., & Wood, G. (2009).
Developmental dyscalculia: Compensatory mechanisms in left intraparietal regions in response to nonsymbolic magnitudes. Behavioral and Brain Functions, 5, 35. doi:10.1186/1744-9081-5-35
Kaufmann, L., Wood, G., Rubinsten, O., & Henik, A. (2011). Meta-analyses of developmental fMRI studies investigating typical and atypical trajectories of number processing and calculation. Developmental Neuropsychology, 36(6), 763-787. doi:10.1080/87565641.2010.549884
Klingberg, T., Forssberg, H., & Westerberg, H. (2002). Increased brain activity in frontal and parietal cortex underlies the development of visuospatial working memory capacity during childhood. Journal of Cognitive Neuroscience, 14(1), 1-10. doi:10.1162/089892902317205276
Krueger, F., Spampinato, M. V., Pardini, M., Pajevic, S., Wood, J. N., Weiss, G.
H., …Grafman, J. (2008). Integral calculus problem solving: An fMRI investigation. Neuroreport, 19(11), 1095-1099.
Kucian, K., Grond, U., Rotzer, S., Henzi, B., Schonmann, C., Plangger, F., …von Aster, M. (2011). Mental number line training in children with developmental dyscalculia. Neuroimage, 57(3), 782-795. doi:10.1016/j.neuroimage.2011.01.070 Kucian, K., Loenneker, T., Dietrich, T., Dosch, M., Martin, E., & von Aster, M. (2006).
Impaired neural networks for approximate calculation in dyscalculic children: A functional MRI study. Behavioral and Brain Functions, 2, 31.
doi:10.1186/1744-9081-2-31
Kwon, H., Reiss, A. L., & Menon, V. (2002). Neural basis of protracted developmental changes in visuo-spatial working memory. Proceedings of the National Academy Sciences of the United Stated of America, 99(20), 13336-13341.
doi:10.1073/pnas.162486399
Landerl, K., Bevan, A., & Butterworth, B. (2004). Developmental dyscalculia and basic numerical capacities: A study of 8-9-year-old students. Cognition, 93(2), 99-125. doi:10.1016/j.cognition.2003.11.004
Landerl, K., & Kölle, C. (2009). Typical and atypical development of basic numerical skills in elementary school. Journal of Experimental Child Psychology, 103(4), 546-565. doi:10.1016/j.jecp.2008.12.006
Lyons, I. M., & Beilock, S. L. (2012). When math hurts: Math anxiety predicts pain network activation in anticipation of doing math. PLoS One, 7(10), e48076.
doi:10.1371/journal.pone.0048076
Maloney, E. A., & Beilock, S. L. (2012). Math anxiety: Who has it, why it develops, and how to guard against it. Trends in Cognitive Sciences, 16(8), 404-406.
doi:10.1016/j.tics.2012.06.008
Mammarella, I. C., Hill, F., Devine, A., Caviola, S., & Szucs, D. (2015). Math anxiety and developmental dyscalculia: A study on working memory processes. Journal of Clinical and Experimental Neuropsychology, 37(8), 878-887.
doi:10.1080/13803395.2015.1066759
McLean, J. F., & Hitch, G. J. (1999). Working memory impairments in children with specific arithmetic learning difficulties. Journal of Experimental Child Psychology, 74(3), 240-260. doi: 10.1006/jecp.1999.2516
Menon, V. (2010). Developmental cognitive neuroscience of arithmetic: Implications for learning and education. ZDM, 42(6), 515-525.
doi:10.1007/s11858-010-0242-0
Menon V. (2015a). Large-scale functional brain organization. In A. W. Toga (Ed.), Brain mapping: An encyclopedic reference (vol. 2, pp. 449-459). Waltham, MA:
Academic Press.
Menon, V. (2015b). Arithmetic in the child and adult brain. In R. Cohen Kadosh & A.
Dowker (Eds.), The Oxford handbook of numerical cognition (pp. 502-530).
Oxford, England: Oxford University Press.
Metcalfe, A. W. S., Ashkenazi, S., Rosenberg-Lee, M., & Menon, V. (2013).
Fractionating the neural correlates of individual working memory components underlying arithmetic problem solving skills in children. Developmental Cognitive Neuroscience, 6, 162-175. doi:10.1016/j.dcn.2013.10.001
Molko, N., Cachia, A., Riviere, D., Mangin, J. F., Bruandet, M., Le Bihan, D., … Dehaene, S. (2003). Functional and structural alterations of the intraparietal sulcus in a developmental dyscalculia of genetic origin. Neuron, 40(4), 847-858.
Mullis, I. V. S., Martin, M. O., Foy, P., & Hooper, M. (2016). TIMSS 2015 international results in mathematics. Retrieved from
http://timssandpirls.bc.edu/timss2015/international-results/
Mussolin, C., De Volder, A., Grandin, C., Schlogel, X., Nassogne, M. C., & Noel, M.
P. (2010). Neural correlates of symbolic number comparison in developmental dyscalculia. Journal of Cognitive Neuroscience, 22(5), 860-874.
doi:10.1162/jocn.2009.21237
OECD. (2010). The high cost of low educational performance: The long-run economic impact of improving PISA outcomes. Retrieved from
https://www.oecd.org/pisa/44417824.pdf.
OECD. (2013). How much time do primary and lower secondary students spend in the classroom? Retrieved from
http://www.oecd.org/education/skills-beyond-school/EDIF%202014--N22%20(e ng).pdf
Park, D., Ramirez, G., & Beilock, S. L. (2014). The role of expressive writing in math anxiety. Journal of Experimental Psychology: Applied, 20(2), 103-111.
doi:10.1037/xap0000013
Passolunghi, M. C. (2011). Cognitive and emotional factors in children with mathematical learning disabilities. International Journal of Disability, Development and Education, 58(1), 61-73. doi:10.1080/1034912X.2011.547351 Passolunghi, M. C., & Siegel, L. S. (2004). Working memory and access to numerical
information in children with disability in mathematics. Journal of Experimental Child Psychology, 88(4), 348-367. doi:http://doi.org/10.1016/j.jecp.2004.04.002 Perensky, M. (2007). Digital game-based learning. New York, NY: McGraw-Hill.
Phillipson, S., & Phillipson, S. N. (2007). Academic expectations, belief of ability, and involvement by parents as predictors of child achievement: A cross-cultural comparison. Educational Psychology, 27(3), 329-348.
doi:10.1080/01443410601104130
Piazza, M., Facoetti, A., Trussardi, A. N., Berteletti, I., Conte, S., Lucangeli, D., … Zorzi, M. (2010). Developmental trajectory of number acuity reveals a severe impairment in developmental dyscalculia. Cognition, 116(1), 33-41.
doi:10.1016/j.cognition.2010.03.012
Piazza, M., Pinel, P., Le Bihan, D., & Dehaene, S. (2007). A magnitude code common to numerosities and number symbols in human intraparietal cortex. Neuron, 53(2), 293-305. doi: 10.1016/j.neuron.2006.11.022
Pickering, S., & Gathercole, S. (2001). Working memory test battery for children (WMTB-C) manual. London, England: Psychological.
Pinel, P., Dehaene, S., Riviere, D., & LeBihan, D. (2001). Modulation of parietal activation by semantic distance in a number comparison task. Neuroimage, 14(5), 1013-1026. doi:10.1006/nimg.2001.0913
Powell, S. R., Fuchs, L. S., Fuchs, D., Cirino, P. T., & Fletcher, J. M. (2009). Effects of fact retrieval tutoring on third-grade students with math difficulties with and without reading difficulties. Learning Disabilities Research & Practice, 24(1), 1-11. doi:10.1111/j.1540-5826.2008.01272.x
Price, G. R., Holloway, I., Rasanen, P., Vesterinen, M., & Ansari, D. (2007). Impaired parietal magnitude processing in developmental dyscalculia. Current Biology, 17(24), R1042-1043. doi:10.1016/j.cub.2007.10.013
Qin, Y., Carter, C. S., Silk, E. M., Stenger, V. A., Fissell, K., Goode, A., & Anderson, J. R. (2004). The change of the brain activation patterns as children learn algebra equation solving. Proceedings of the National Academy Sciences of the United Stated of America, 101(15), 5686-5691. doi:10.1073/pnas.0401227101
Qin, Y., Sohn, M. H., Anderson, J. R., Stenger, V. A., Fissell, K., Goode, A., & Carter, C. S. (2003). Predicting the practice effects on the blood oxygenation level-dependent (BOLD) function of fMRI in a symbolic manipulation task.
Proceedings of the National Academy Sciences of the United Stated of America, 100(8), 4951-4956. doi:10.1073/pnas.0431053100
Richland, L. E., Zur, O., & Holyoak, K. J. (2007). Cognitive supports for analogies in the mathematics classroom. Science, 316(5828), 1128-1129.
doi:10.1126/science.1142103
Rosenberg-Lee, M., Ashkenazi, S., Chen, T., Young, C. B., Geary, D. C., & Menon, V.
(2015). Brain hyper-connectivity and operation-specific deficits during arithmetic problem solving in children with developmental dyscalculia. Developmental Sciences, 18(3), 351-372. doi:10.1111/desc.12216
Rosenberg-Lee, M., Chang, T. T., Young, C. B., Wu, S., & Menon, V. (2011).
Functional dissociations between four basic arithmetic operations in the human posterior parietal cortex: A cytoarchitectonic mapping study. Neuropsychologia, 49(9), 2592-2608. doi:10.1016/j.neuropsychologia.2011.04.035
Räsänen, P., Salminen, J., Wilson, A. J., Aunio, P., & Dehaene, S. (2009).
Computer-assisted intervention for children with low numeracy skills. Cognitive Development, 24(4), 450-472. doi:10.1016/j.cogdev.2009.09.003
Rottschy, C., Langner, R., Dogan, I., Reetz, K., Laird, A. R., Schulz, J. B., … Eickhoff, S. B. (2012). Modelling neural correlates of working memory: A coordinate-based meta-analysis. Neuroimage, 60(1), 830-846. doi:10.1016/j.neuroimage.2011.11.050 Rotzer, S., Kucian, K., Martin, E., von Aster, M., Klaver, P., & Loenneker, T. (2008).
Optimized voxel-based morphometry in children with developmental dyscalculia.
Neuroimage, 39(1), 417-422. doi:10.1016/j.neuroimage.2007.08.045
Rousselle, L., & Noël, M.-P. (2007). Basic numerical skills in children with mathematics learning disabilities: A comparison of symbolic vs non-symbolic number magnitude processing. Cognition, 102(3), 361-395.
doi: 10.1016/j.cognition.2006.01.005
Rykhlevskaia, E., Uddin, L. Q., Kondos, L., & Menon, V. (2009). Neuroanatomical correlates of developmental dyscalculia: Combined evidence from morphometry and tractography.
Frontiers Human Neuroscience, 3, 51. doi:10.3389/neuro.09.051.2009
Shalev, R. S., Manor, O., & Gross-Tsur, V. (2005). Developmental dyscalculia: A prospective six-year follow-up. Developmental Medicine and Child Neurology, 47(2), 121-125.
Shek, D. T. L., & Chan, L. K. (1999). Hong Kong Chinese parents' perceptions of theideal child. The Journal of Psychology, 133(3), 291-302.
doi:10.1080/00223989909599742
Siegler, R. S. (1988). Strategy choice procedures and the development of multiplication skill. Journal of Experimental Psychology-General, 117(3), 258-275. doi:10.1037/0096-3445.117.3.258
Siegler, R. S., & Shrager, J. (1984). Strategy choices in addition and subtraction: How do children know what to do? In C. Sophian (Ed.), Origins of cognitive skills:
The Eighteenth Annual Carnegie Symposium on Cognition (pp. 229-260).
Hillsdale, NJ: Lawrence Erlbaum Associates.
Squire, L. R., & Zola-Morgan, S. (1991). The medial temporal lobe memory system.
Science, 253(5026), 1380-1386.
Suarez-Pellicioni, M., Nunez-Pena, M. I., & Colome, A. (2016). Math anxiety: A review of its cognitive consequences, psychophysiological correlates, and brain bases. Cognitive Affective and Behavioral Neuroscience, 16(1), 3-22.
doi:10.3758/s13415-015-0370-7
Supekar, K., Iuculano, T., Chen, L., & Menon, V. (2015). Remediation of childhood math anxiety and associated neural circuits through cognitive tutoring. Journal of Neuroscience, 35(36), 12574-12583. doi:10.1523/JNEUROSCI.0786-15.2015 Supekar, K., Swigart, A. G., Tenison, C., Jolles, D. D., Rosenberg-Lee, M., Fuchs, L.,
& Menon, V. (2013). Neural predictors of individual differences in response to math tutoring in primary-grade school children. Proceedings of the National Academy Sciences of the United Stated of America, 110(20), 8230-8235.
doi:10.1073/pnas.1222154110
Szűcs, D., & Myers, T. (2017). A critical analysis of design, facts, bias and inference in the approximate number system training literature: A systematic review.
Trends in Neuroscience and Education, 6(Supplement C), 187-203. doi:
10.1016/j.tine.2016.11.002
Tang, Y., Zhang, W., Chen, K., Feng, S., Ji, Y., Shen, J., …Liu, Y. (2006). Arithmetic processing in the brain shaped by cultures. Proceedings of the National Academy Sciences of the United Stated of America, 103(28), 10775-10780. doi:
10.1073/pnas.0604416103
Tzeng, S. J. (2007). Learning disabilities in Taiwan: A case of cultural constraints on the education of students with disabilities. Learning Disabilities Research and Practice, 22(3), 170-175. doi:10.1111/j.1540-5826.2007.00243.x
Widaman, K. F., & Little, T. D. (1992). The development of skill in mental arithmetic:
An individual differences perspective. In J. I. D. Cambell (Ed.), Advances in psychology (vol. 91, pp. 189-253). New York, NY: Elsevier.
Wilson, A. J., Dehaene, S., Pinel, P., Revkin, S. K., Cohen, L., & Cohen, D. (2006).
Principles underlying the design of "The Number Race", an adaptive computer game for remediation of dyscalculia. Behavioral and Brain Functions, 2, 19.
doi:10.1186/1744-9081-2-19
Wilson, A. J., Revkin, S. K., Cohen, D., Cohen, L., & Dehaene, S. (2006). An open trial assessment of "The Number Race", an adaptive computer game for remediation of dyscalculia. Behavioral and Brain Functions, 2, 20.
doi:10.1186/1744-9081-2-20
Wu, S. S., Chang, T. T., Majid, A., Caspers, S., Eickhoff, S. B., & Menon, V. (2009).
Functional heterogeneity of inferior parietal cortex during mathematical cognition assessed with cytoarchitectonic probability maps. Cerebral Cortex, 19(12), 2930-2945. doi:10.1093/cercor/bhp063
Yang, D.-C. (2003). Teaching and learning number sense – An intervention study of fifth grade students in Taiwan. International Journal of Science and Mathematics
Yang, D.-C. (2003). Teaching and learning number sense – An intervention study of fifth grade students in Taiwan. International Journal of Science and Mathematics