A PRELIMINARY STUDY FOR DYSCALCULIA IN SABAH, MALAYSIA.

Yıl 2014, Cilt: 1 , 217 - 225, 01.09.2014

Chin Kin Eng Vincent Pang Wong Ken Keong Tan Choon Keong Lee Kean Wah Lay Yoon Fah

Öz

In Malaysia,
it is reported that the number of registered students with learning
disabilities increased from 7,919 in year 2000 to 20,814 in year 2006 (Teoh & Lim,
2007). It is
estimated that the prevalence of Dyscalculia in the general population is 5-8%
(Adler, 2008). This research intends to develop an instrument for measuring dyscalculia
and identify the prevalence of Dyscalculia among primary school students in
Sabah, Malaysia. The Dyscalculia instrument developed in this study is a
computer-based assessment for children that aims to identify the
characteristics of Dyscalculia by measuring response accuracy and response time to
test items. The purpose of this paper is to report the results of a preliminary
study for Dyscalculia which involved 91 students in three primary schools in
Sabah, Malaysia. The results
show that 5.5% of the primary school students in Sabah suffer from Dyscalculia. 

Anahtar Kelimeler

Prevalence, Dyscalculia

Kaynakça

• Adler, B. (2008). What is dyscalculia? Cognitive Centre in Sweden. Retrieved from http://www.dyscalculiainfo.org/. Banddeley, A. D. (2002). Is Working Memory Still Working? European Psychologisy. 7(2): 85-97. Bryant, D. P. (2005). Math disability in children: an overview. Charles and Helen Schwab Foundation. Butterworth, B. (2002). Screening for dyscalculia: A new approach. mathematical difficulties: Psychology, neuroscience and interventions. Oxford: SEN Presentation Summary. Butterworth, B. Varma, S. & Laurillard, D. (2011). Dyscalculia: from brain to education. Science, 332, 1049-1053. Butterworth, B. & Laurillard, D. (2011). Low Numeracy and Dyscalculia: Identification and Intervention, 42(6), 527- 539 Butterworth, B. (1999). The mathematical brain. London: Macmillan. Butterworth, B. (2003). Dyscalculia screener: highlighting children with specific learning difficulties in maths: London: nferNelson Publishing Company Limited. Chin, Kin-Eng. & Tall, D. (2012). Making Sense of Mathematics through perception, operation and reason: the case of trigonometric functions. The 36th Conference of the International Group for the Psychology of Mathematics Education, Taipei. Cohen, R. J. & Swerdlik, M.E. (2005). Psychological testing and assessment (6th edition). New York: McGraw Hill. Creswell, J. W. 2005. Educational research: planning, conducting, and evaluating quantitative and qualitative research. New Jersey: Pearson Education. Desoete, A., Roeyers, H. & De Clercq, A. (2004). Children with mathematics learning disabilities in Belgium. Journal of Learning Disabilities, 37, 50-61. Feikes, D. & Schwingendorf, K. (2008). The Importance of Compression in Children’s Learning of Mathematics and Teacher’s Learning to Teach Mathematics. Mediterranean Journal for Research in Mathematics Education, 7(2). Flanagan, D. P. & Alfonso, V. C. (2011). Essentials of specific learning disability identification. New Jersey: John Wiley & Sons, Inc. Fuchs, L. S. (2006). Strategies to enhance young children’s mathematical development. Encyclopedia on Early Childhood Development. Centre of Excellence for Early Childhood Development. Geary, D. C. (2004). Mathematics and learning disabilities. Journal of Learning Disabilities, 37, 4-15. Geary, D. C. (2006). Dyscalculia at an early age: Characteristics and potential influence on socio-emotional development. Encyclopedia on Early Childhood Development. Centre of Excellence for Early Childhood Development . Gray, E. M. & Tall, D. O. (2001). Relationships between embodied objects and procepts: an explanatory theory of success and failure in mathematics. Proceedings of PME25, Utrecht, 65–72. Gersten, R., Chard, D., Jayanthi, M., Baker, S., Morphy, P., & Flojo, J. (2008). Mathematics instruction for students with learning disabilities or difficulty learning mathematics: A synthesis of the intervention research. United State of America: Center On Instruction. Hallahan, D. P., Lloyd, J. W., Kauftman, J. M., Weiss, M. P. & Martinez, E. A. (2005). Learning disabilities: foundations, characteristics, and effective teaching. United States of America: Pearson Education. Koumoula A, Tsironi V, Stamouli V, Bardani I, Siapati S, Graham A. et al. (2004). An epidemiological study of number processing and mental calculation in greek school children. Journal of Learning Disabilities, 377-388. Lervag, M. M. & Hulme, C. 2013. Is Working Memory Training Effective? A Meta-Analytic Review. Development Psychology. 49(2), 270-291. Mohd. Sharani Ahmad. (2004). Special children. Selangor Darul Ehsan: Universiti Putra Malaysia Press. Murphy, C. (2006). Embodiment and reasoning in children’s invented calculation strategies. Proceedings 30th Conference of theInternational Group for the Psychology of Mathematics Education, 4, 217-224 Newman, R. M. (1998). The dyscalculia syndrome. Special Education Thesis, Dearborn, United State of America: Michigan. Reigosa-Crespo, V., Valdas-Sosa, M., Butterworth, B., Estavez, N., RodrÅguez, M., Santos, E., Torres, P., Suerez, R. & Lage, A. (2011). Basic numerical capacities and prevalence of developmental dyscalculia: The havana survey. Developmental Psychology, 47, 1-13. Santos-Sousa, M. (2007). Natural Mathematics. In: EPSA07: 1st Conference of the European Philosophy of Science Association, Madrid. Shalev, R. S., & von Aster, M. G. (2007). Number development and developmental dyscalculia. Developmental Medicine & Child Neurology, 49, 868–873. Tall, D. (1995). Cognitive Growth in Elementary and Advanced Mathematical Thinking. Conference of the International Group for the Psychology of Learning Mathematics, Recife, Brazil, I, 161–175. Tall, D. (2004). Introducing Three Worlds of Mathematics. For the Learning of Mathematics, 23(3). 29–33. Tall, D. (2006). Developing a Theory of Mathematical Growth. To appear in International Reviews on Mathematical Education (ZDM). Tall, D. (2007). Embodiment, Symbolism and Formalism in Undergraduate Mathematics Education. 10th Conference of the Special Interest Group of the Mathematical Association of America on Research in Undergraduate Mathematics Education, San Diego, California, USA. Tall, D. (2008). The Historical & Individual Development of Mathematical Thinking: Ideas that are set-before and met-before. United Kingdom: University of Warwick. Teoh Hooi-Ting & Lim Ming-Koon (2007). Situation of Persons with learning disabilities and their families in malaysia. Paper presented at the Regional Workshop on the Empowerment of Persons with Intellectual Disabilities and their Families in Asia and the Pacific, Shanghai, China. Retrived from http://www.worldenable.net/shanghai2007/papermalaysia.htm.s Voutsina. C. & Qaimah Ismail. (2007). Issues in identifying children with specific arithmetic difficulties through standardised testing: A critical discussion of different cases. Proceedings of the British Society for Research into Learning Mathematics 2007.