腦性麻痺孩童之書寫及相關視覺動作技巧表現

Yu-Shu Liu; 劉伃書

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/78621

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	陳顥齡(Hao-Ling Chen)
dc.contributor.author	Yu-Shu Liu	en
dc.contributor.author	劉伃書	zh_TW
dc.date.accessioned	2021-07-11T15:07:50Z	-
dc.date.available	2024-08-28
dc.date.copyright	2019-08-28
dc.date.issued	2019
dc.date.submitted	2019-08-13
dc.identifier.citation	Arnould, C., Bleyenheuft, Y., & Thonnard, J.-L. (2014). Hand functioning in children with cerebral palsy. Frontiers in neurology, 5, 48. Arnould, C., Penta, M., & Thonnard, J.-L. (2008). Hand impairments and their relationship with manual ability in children with cerebral palsy. Journal of Rehabilitation Medicine, 39(9), 708-714. Auld, M., Boyd, R., Moseley, G. L., & Johnston, L. (2011). Seeing the gaps: a systematic review of visual perception tools for children with hemiplegia. Disability and rehabilitation, 33(19-20), 1854-1865. Beery, K. E. (2004). Beery VMI: The Beery-Buktenica developmental test of visual-motor integration. Minneapolis, MN: Pearson. Beery, K. E. (2010). Beery VMI administration, scoring, and teaching manual: Bloomington: Pearson. Bo, J., Colbert, A., Lee, C.-M., Schaffert, J., Oswald, K., & Neill, R. (2014). Examining the relationship between motor assessments and handwriting consistency in children with and without probable developmental coordination disorder. Research in Developmental Disabilities, 35(9), 2035-2043. Brown, T., & Lalor, A. (2009). The movement assessment battery for children—second edition (MABC-2): a review and critique. Physical & Occupational Therapy in Pediatrics, 29(1), 86-103. Bruininks, R. H. (2005). Bruininks-Oseretsky test of motor proficiency: AGS Publishing Circle Pines, MN. Bumin, G., & Kavak, S. T. (2010). An investigation of the factors affecting handwriting skill in children with hemiplegic cerebral palsy*. Disability and rehabilitation, 32(8), 692-703. Cairney, J., Hay, J. A., Faught, B. E., Flouris, A., & Klentrou, P. (2007). Developmental coordination disorder and cardiorespiratory fitness in children. Pediatric exercise science, 19(1), 20-28. Chang, S.-H., & Yu, N.-Y. (2005). Evaluation and classification of types of Chinese handwriting deficits in elementary schoolchildren. Perceptual and motor skills, 101(2), 631-647. Chang, S.-H., & Yu, N.-Y. (2010). Characterization of motor control in handwriting difficulties in children with or without developmental coordination disorder. Developmental Medicine & Child Neurology, 52(3), 244-250. Chang, S.-H., & Yu, N.-Y. (2013). Handwriting movement analyses comparing first and second graders with normal or dysgraphic characteristics. Research in Developmental Disabilities, 34(9), 2433-2441. Chang, S.-H., Yu, N.-Y., & Shie, J.-J. (2009). The preliminary development of computer-assisted assessment of Chinese handwriting performance. Perceptual and motor skills, 108(3), 887-904. Chau, T., Ji, J., Tam, C., & Schwellnus, H. (2006). A novel instrument for quantifying grip activity during handwriting. Archives of physical medicine and rehabilitation, 87(11), 1542-1547. Chrysagis, N. K., Skordilis, E. K., Koutsouki, D., & Evans, E. (2007). Kinesthetic ability in children with spastic hemiplegia. Adapted Physical Activity Quarterly, 24(4), 332-351. Cooper, J., Majnemer, A., Rosenblatt, B., & Birnbaum, R. (1995). The determination of sensory deficits in children with hemiplegic cerebral palsy. Journal of Child Neurology, 10(4), 300-309. Cornhill, H., & Case-Smith, J. (1996). Factors that relate to good and poor handwriting. American Journal of Occupational Therapy, 50(9), 732-739. Daly, C. J., Kelley, G. T., & Krauss, A. (2003). Relationship between visual-motor integration and handwriting skills of children in kindergarten: A modified replication study. American Journal of Occupational Therapy, 57(4), 459-462. Desai, A. S., & Rege, P. V. (2005). Correlation between developmental test of visual motor integration [VMI] and handwriting in cerebral palsy children. The Indian journal of occupational therapy, 37(2), 27-31. Di Brina, C., Niels, R., Overvelde, A., Levi, G., & Hulstijn, W. (2008). Dynamic time warping: A new method in the study of poor handwriting. Human movement science, 27(2), 242-255. DuBois, L., Klemm, A., Murchland, S., & Ozols, A. (2004). Handwriting of children who have hemiplegia: A profile of abilities in children aged 8–13 years from a parent and teacher survey. Australian Occupational Therapy Journal, 51(2), 89-98. Ego, A., Lidzba, K., Brovedani, P., Belmonti, V., Gonzalez‐Monge, S., Boudia, B., . . . Cans, C. (2015). Visual–perceptual impairment in children with cerebral palsy: a systematic review. Developmental Medicine & Child Neurology, 57, 46-51. Falk, T. H., Tam, C., Schellnus, H., & Chau, T. (2011). On the development of a computer-based handwriting assessment tool to objectively quantify handwriting proficiency in children. Computer methods and programs in biomedicine, 104(3), e102-e111. Feder, K. P., & Majnemer, A. (2007). Handwriting development, competency, and intervention. Developmental Medicine & Child Neurology, 49(4), 312-317. Gordon, A. M., & Duff, S. V. (1999). Relation between clinical measures and fine manipulative control in children with hemiplegic cerebral palsy. Developmental medicine and child neurology, 41(9), 586-591. Graham, S., Berninger, V., Weintraub, N., & Schafer, W. (1998). Development of handwriting speed and legibility in grades 1–9. The Journal of Educational Research, 92(1), 42-52. Graham, S., Struck, M., Santoro, J., & Berninger, V. W. (2006). Dimensions of good and poor handwriting legibility in first and second graders: Motor programs, visual–spatial arrangement, and letter formation parameter setting. Developmental neuropsychology, 29(1), 43-60. Hammerschmidt, S. L., & Sudsawad, P. (2004). Teachers' survey on problems with handwriting: Referral, evaluation, and outcomes. American Journal of Occupational Therapy, 58(2), 185-192. Hammill, D. D., Pearson, N. A., & Voress, J. K. (2014). Developmental Test of Visual Perception (3rd.). Austin, TX: PRO-ED. Hamstra-Bletz, L., DeBie, J., & Den Brinker, B. (1987). Concise Evaluation Scale for children’s handwriting. Lisse: Swets, 1. Herrick, V. E., & Otto, W. (1961). Pressure on point and barrel of a writing instrument. The Journal of Experimental Education, 30(2), 215-230. Howe, T. H., Chen, H. L., Lee, C. C., Chen, Y. D., & Wang, T. N. (2017). The Computerized Perceptual Motor Skills Assessment: A new visual perceptual motor skills evaluation tool for children in early elementary grades. Research in Developmental Disabilities, 69, 30-38. Hsu, H.-M., Lin, Y.-C., Lin, W.-J., Lin, C.-J., Chao, Y.-L., & Kuo, L.-C. (2013). Quantification of handwriting performance: Development of a force acquisition pen for measuring hand-grip and pen tip forces. Measurement, 46(1), 506-513. Hung, L., Chang, Y., Chen, S., Chen, C., & Lee, Y. (2003). The basic reading and writing comprehensive test: Examiner’s manual. Taipei, Taiwan: Psychological Publishing Company. Kaiser, M.-L., Albaret, J.-M., & Doudin, P.-A. (2009). Relationship Between Visual-Motor Integration, Eye-Hand Coordination, and Quality of Handwriting. Journal of Occupational Therapy, Schools, & Early Intervention, 2(2), 87-95. doi:10.1080/19411240903146228 Kushki, A., Chau, T., & Anagnostou, E. (2011). Handwriting difficulties in children with autism spectrum disorders: A scoping review. Journal of autism and developmental disorders, 41(12), 1706-1716. Kushki, A., Schwellnus, H., Ilyas, F., & Chau, T. (2011). Changes in kinetics and kinematics of handwriting during a prolonged writing task in children with and without dysgraphia. Research in Developmental Disabilities, 32(3), 1058-1064. Lai, M. Y., & Leung, F. K. S. (2012). Motor-reduced visual perceptual abilities and visual-motor integration abilities of Chinese learning children. Human movement science, 31(5), 1328-1339. Lee, T.-I., Howe, T.-H., Chen, H.-L., & Wang, T.-N. (2016). Predicting Handwriting Legibility in Taiwanese Elementary School Children. American Journal of Occupational Therapy, 70(6), 7006220020p7006220021-7006220020p7006220029. Li-Tsang, C. W. P., Au, R. K. C., Chan, M. H. Y., Chan, L. W. L., Lau, G. M. T., Lo, T. K., & Leung, H. W. H. (2011). Handwriting characteristics among secondary students with and without physical disabilities: A study with a computerized tool. Research in Developmental Disabilities, 32(1), 207-216. doi:http://dx.doi.org/10.1016/j.ridd.2010.09.015 Lo, H.-S., Chen, C.-L., Chen, H.-C., Shen, I.-h., & Li-Tzang, C. W. (2014). The application of computerized chinese handwriting assessment tool to children with cerebral palsy. Paper presented at the International Conference on Computers for Handicapped Persons. McHale, K., & Cermak, S. A. (1992). Fine motor activities in elementary school: Preliminary findings and provisional implications for children with fine motor problems. American Journal of Occupational Therapy, 46(10), 898-903. Naidoo, P., Engelbrecht, A., Lewis, S., & Kekana, B. (2009). Visual-motor integration (VMI)-a predictor for handwriting in Grade 0 children. South African Journal of Occupational Therapy, 39(2), 18-21. Parush, S., Lifshitz, N., Yochman, A., & Weintraub, N. (2010). Relationships between handwriting components and underlying perceptual-motor functions among students during copying and dictation tasks. OTJR: Occupation, Participation and Health, 30(1), 39-48. Pernalete, N., Tang, F., Chang, S., Cheng, F., Vetter, P., Stegemann, M., & Grantner, J. (2011). Development of an evaluation function for eye-hand coordination robotic therapy. Paper presented at the Rehabilitation Robotics (ICORR), 2011 IEEE International Conference on. Poon, W., & Hong, P. (2003). A study of the Chinese characters recommended for the subject of Chinese language in primary schools. Hong Kong Baptist University Language Centre, Hong Kong. Ratner, B. (2009). The correlation coefficient: Its values range between+ 1/− 1, or do they? Journal of targeting, measurement and analysis for marketing, 17(2), 139-142. Reisman, J. (1999). Minnesota handwriting assessment: Psychological Corporation. Rosenbaum, P., Paneth, N., Leviton, A., Goldstein, M., Bax, M., Damiano, D., . . . Jacobsson, B. (2007). A report: the definition and classification of cerebral palsy April 2006. Dev Med Child Neurol Suppl, 109(suppl 109), 8-14. Rosenblum, S., & Livneh-Zirinski, M. (2008). Handwriting process and product characteristics of children diagnosed with developmental coordination disorder. Human movement science, 27(2), 200-214. Rosenblum, S., Margieh, J. A., & Engel-Yeger, B. (2013). Handwriting features of children with developmental coordination disorder–Results of triangular evaluation. Research in Developmental Disabilities, 34(11), 4134-4141. Rosenblum, S., Parush, S., & Weiss, P. L. (2003a). Computerized temporal handwriting characteristics of proficient and non-proficient handwriters. American Journal of Occupational Therapy, 57(2), 129-138. Rosenblum, S., Parush, S., & Weiss, P. L. (2003b). The in air phenomenon: Temporal and spatial correlates of the handwriting process. Perceptual and motor skills, 96(3), 933-954. Rosenblum, S., Weiss, P. L., & Parush, S. (2003). Product and process evaluation of handwriting difficulties. Educational Psychology Review, 15(1), 41-81. Rosenblum, S., Weiss, P. L., & Parush, S. (2004). Handwriting evaluation for developmental dysgraphia: Process versus product. Reading and writing, 17(5), 433-458. Sankar, C., & Mundkur, N. (2005). Cerebral palsy-definition, classification, etiology and early diagnosis. The Indian Journal of Pediatrics, 72(10), 865-868. Su, Y.-F., & Samuels, S. J. (2010). Developmental changes in character-complexity and word-length effects when reading Chinese script. Reading and writing, 23(9), 1085-1108. Tseng, M.-h. (1993). Factorial validity of the Tseng handwriting problem checklist. Journal of the Occupational Therapy Association of the Republic of China, 11, 13-26. Tseng, M.-h., & Murray, E. A. (1994). Differences in perceptual-motor measures in children with good and poor handwriting. The Occupational Therapy Journal of Research, 14(1), 19-36. Volman, M., van Schendel, B. M., & Jongmans, M. J. (2006). Handwriting difficulties in primary school children: A search for underlying mechanisms. American Journal of Occupational Therapy, 60(4), 451-460. Weil, M. J., & Amundson, S. J. C. (1994). Relationship between visuomotor and handwriting skills of children in kindergarten. American Journal of Occupational Therapy, 48(11), 982-988. Yeh, S.-L., Li, J.-L., Takeuchi, T., Sun, V., & Liu, W.-R. (2003). The role of learning experience on the perceptual organization of Chinese characters. Visual Cognition, 10(6), 729-764. Ziviani, J., & Elkins, J. (1986). Effect of pencil grip on handwriting speed and legibility. Educational Review, 38(3), 247-257. Ziviani, J., & Watson‐Will, A. (1998). Writing speed and legibility of 7–14‐year‐old school students using modern cursive script. Australian Occupational Therapy Journal, 45(2), 59-64. 葉素玲, 李金鈴, & 陳一平. (1997). 中文的字形分類系統. 中華心理學刊, 39(1), 47-74.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/78621	-
dc.description.abstract	前言: 進入一般學校的腦性麻痺孩童多被期望能完成學校的任務，包含書寫。雖然多數的腦性麻痺孩童有能力進行書寫，但他們仍有書寫困難，如:書寫速度慢和可讀性低。全面的評估書寫表現，包含書寫結果(handwriting product)、書寫過程(handwriting process)及相關的視覺動作技巧(visual motor skills)，能幫助我們更完整的了解腦性麻痺孩童的書寫表現及相關視覺動作技巧能力。然而，目前的研究多著重在書寫結果探討，關於腦性麻痺孩童的書寫表現與相關視覺動作技巧的研究仍較缺乏。目的: 本研究目的為探討腦性麻痺孩童與一般發展孩童的書寫表現及相關視覺動作技巧之差異。此外，也探討兩組孩童各自書寫表現與相關視覺動作技巧之相關性。方法: 本研究招募30位腦性麻痺孩童與30位年齡配對之一般發展孩童。每位受試者皆須完成平版化中文書寫測驗與平板化視覺動作技巧測驗。結果使用重複量數二因子變異數分析(two-way ANOVA, repeated measures)與獨立樣本T檢定分析兩組孩童的書寫表現與相關視覺動作技巧之差異。使用皮爾森相關分析兩組孩童各自書寫表現與視覺動作技巧之相關性。結果: 腦性麻痺孩童的書寫正確率與字的可讀性(local legibility)包含位置，大小，角度及相似性皆低於一般發展孩童。兩組孩童在句子可讀性(global legibility)中的排列控制與大小控制參數中皆有顯著差異。然而，兩組孩童的書寫速度並無顯著差異。腦性麻痺孩童在書寫過程中，每一筆劃的速度比一般發展孩童快。腦性麻痺孩童的視覺動作技巧，不論是在仿畫或描畫表現皆低於一般發展孩童。對於腦性麻痺孩童，其視覺動作技巧的描畫測驗和字的可讀性中的角度及句子可讀性中的排列控制參數有顯著相關。但對於兩組孩童，其視覺動作技巧的仿畫測驗和書寫表現皆無顯著相關。結論: 本研究全面探討腦性麻痺與一般發展孩童之書寫表現差異，腦性麻痺的書寫結果和視覺動作技巧表現低於一般發展孩童。描畫能力可能為影響腦性麻痺孩童書寫表現之重要因子。	zh_TW
dc.description.abstract	Backgrounds: Children with cerebral palsy (CP) who attend to mainstream school are expected to finish the writing tasks in school. Although most of children with CP have the capacity to write, many of them still experience difficulties in handwriting such as slow writing speed and poor legibility. The comprehensive evaluation of handwriting performance including handwriting product and process and the related visual motor skills could provide more insight to understand the handwriting performance and the related factors of children with CP. However, current research mainly focused on handwriting product, while the understanding of handwriting performance and related visual motor skills of children with CP is still limited. Purposes: The aim of this study was to investigate the handwriting performance, visual motor skills between children with CP and typically developing children (TDC). In addition, relationship between handwriting performance and handwriting related visual motor skills in children with CP and those in TDC were also investigated. Methods: 30 children with CP and 30 age-matched TDC, aged 6 to 13 years, were recruited in the study. Each participant was asked to finish Tablet-based Chinese Handwriting Assessment and Tablet-based Visual Motor Skills Assessment. Two-way repeated-measures analysis of variance (ANOVA) and Independent-sample t test were used to analyze the handwriting performance and visual motor skills between two groups. Pearson product-moment correlation was used to analyze the relationship between the handwriting performance and visual motor skills in children with CP and those in TDC. Results: Children with CP performed lower accuracy and poorer local legibility (position, size, orientation and deformation) than those in TDC. Significant group differences were found in alignment control and size control of global legibility. However, there was no significant difference between groups in writing speed. There was a faster mean stroke velocity of handwriting process in children with CP than that in TDC. In addition, children with CP have poorer visual motor skills (tracking and copying) than those in TDC. Both orientation of local legibility and alignment control of global legibility are correlated to performance of tracking subtest in children with CP. No significant relationships between handwriting and copying performance were found in children with CP and in TDC. Conclusion: This study comprehensively assessed the handwriting performance including handwriting product and handwriting process in children with CP and in TDC. Children with CP performed poorer in handwriting product and visual motor skills compared to TDC. The tracking ability of visual motor skills may be an important factor of handwriting performance for CP children.	en
dc.description.provenance	Made available in DSpace on 2021-07-11T15:07:50Z (GMT). No. of bitstreams: 1 ntu-108-R06429007-1.pdf: 1913257 bytes, checksum: ff416c94e6fe366b993efe9ec7f37f33 (MD5) Previous issue date: 2019	en
dc.description.tableofcontents	Table of Contents 論文口試委員審定書 II 誌謝 III 中文摘要 IV Abstract VI Table of Contents VIII List of Figures XII List of Tables XIII Chapter 1. Introduction 1 1.1 Handwriting 1 1.1.1 The importance of handwriting in children 1 1.1.2 Definition and assessments of handwriting product 2 1.1.2.1 Handwriting product definition 2 1.1.2.2 Handwriting product assessments 3 1.1.3 Definition and assessments of handwriting process 5 1.1.3.1 Handwriting process definition 5 1.1.3.2 Handwriting process assessments 6 1.1.4 The difficulties of handwriting in children with CP 8 1.2 Handwriting related factors 9 1.2.1 General related factors 10 1.2.2 Handwriting related visual motor skills assessments 10 1.2.2.1 Tracking tests 11 1.2.2.2 Strengths and weakness of current tracking tests 12 1.2.2.3 Copying tests 13 1.2.2.4 Disadvantages of current copying tests 14 1.2.2.5 Summary of limitations of current visual motor skills assessments 14 1.2.3 Handwriting related visual motor skills in children with CP 14 1.3 The relationships between handwriting performance and visual motor skills in children 15 1.4 Purposes of the study 16 Chapter 2. Methods 18 2.1 Participants 18 2.2 Study design and procedures 18 2.3 Measures 19 2.3.1 Tablet-based Chinese Handwriting Assessment (TCHA) 19 2.3.1.1 Handwriting product of TCHA 19 2.3.1.2 Handwriting process of TCHA 21 2.3.2 Tablet-based Visual Motor Skills Assessment (TVMSA) 22 2.4 Data and Statistical Analysis 23 Chapter 3. Results 25 3.1 Demographic characteristics of participants 25 3.2 Handwriting performance between children with CP and TDC 25 3.2.1 Handwriting product 25 3.2.1.1 Accuracy and writing speed 25 3.2.1.2 Legibility 25 3.2.2 Handwriting process 27 3.3 Visual motor skills performance between children with CP and TDC 27 3.3.1 Tracking subtest 27 3.3.1.1 Root mean square error (RMSE) 27 3.3.1.2 Number of crossline (NC) 28 3.3.1.3 Duration 28 3.3.2 Copying subtest 28 3.4 Relationship between handwriting product and visual motor skills in children with CP and in TDC 29 Chapter 4. Discussion 30 4.1 The difference of handwriting performance between children with CP and TDC 30 4.1.1 Handwriting product performances between children with CP and TDC 30 4.1.2 Handwriting process performances between children with CP and TDC 33 4.1.3 Handwriting performance on difference types of character structures 34 4.2 The difference of visual motor skills between children with CP and TDC 34 4.2.1 Performance of tracking subtest in children with CP and in TDC 34 4.2.2 Performance of copying subtest in children with CP and in TDC 36 4.3 Relationships between handwriting performance and visual motor skills in children with CP and in TDC 36 Chapter 5. Study limitations and future research 39 Chapter 6. Conclusion 40 References 41 List of Figures Figure 1. Sample of characters 49 Figure 2. Sample of sentence 50 Figure 3. Sample of position 51 Figure 4. Sample of size 52 Figure 5. Sample of orientation 53 Figure 6. Sample of deformation 54 Figure 7. Tracking subtest selection menu of TVMSA 55 Figure 8. Sample of tracking item 56 Figure 9. Sample of copying item 57 List of Tables Table 1. Demographic characteristics of children with CP and TDC 58 Table 2. Differences between groups in accuracy and writing speed 59 Table 3. Differences between handwriting legibility of children with CP and TDC 60 Table 4. Type main effect of size 61 Table 5. Type main effect of deformation 62 Table 6. Differences between global legibility of children with CP and TDC 63 Table 7. Differences between handwriting process of children with CP and TDC 64 Table 8. Differences between tracking performance of children with CP and TDC 65 Table 9. Differences between tracking performance of children with CP and TDC in duration 66 Table 10. Performance of RMSE in four graphs in children with CP and TDC 67 Table 11. Performance of NC in four graphs in children with CP and TDC 68 Table 12. Performance of duration in four graphs in children with CP and TDC 69 Table 13. Differences between copying performance of children with CP and TDC 70 Table 14. Relationships between local legibility and visual motor skills in children with CP 71 Table 15. Relationships between global legibility and visual motor skills in children with CP 72 Table 16. Relationships between local legibility and visual motor skills in TDC 73 Table 17. Relationships between global legibility and visual motor skills in TDC 74
dc.language.iso	en
dc.title	腦性麻痺孩童之書寫及相關視覺動作技巧表現	zh_TW
dc.title	Handwriting Performance and Related Visual Motor Skills in Children with Cerebral Palsy	en
dc.type	Thesis
dc.date.schoolyear	107-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	王湉妮,林玲伊,黃湘涵,尤菀薈
dc.subject.keyword	腦性麻痺,孩童,書寫,視覺動作技巧,平板化測驗,	zh_TW
dc.subject.keyword	cerebral palsy,children,handwriting,visual motor skills,tablet-based assessment,	en
dc.relation.page	74
dc.identifier.doi	10.6342/NTU201903180
dc.rights.note	有償授權
dc.date.accepted	2019-08-13
dc.contributor.author-college	醫學院	zh_TW
dc.contributor.author-dept	職能治療研究所	zh_TW
dc.date.embargo-lift	2024-08-28	-
顯示於系所單位：	職能治療學系

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