Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme

Kocaman, Canan; Kaygusuz Benli, Reyhan; ACAR, Gönül; Mete, Emel; POLAT, MINE GÜLDEN; GÜNAY YAZICI, Canan

doi:10.4274/tnd.2020.57778

Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme

Canan YILDIRIM, (Ataşehir İstanbul Florence Nightingale Hastanesi, Çocuk Nörolojisi Kliniği, İstanbul, Türkiye)

Gönül ACAR, (Marmara Üniversitesi, Sağlık Bilimleri Fakültesi, Fizyoterapi ve Rehabilitasyon Anabilim Dalı, İstanbul, Türkiye)

Mine Gülden POLAT, (Marmara Üniversitesi, Sağlık Bilimleri Fakültesi, Fizyoterapi ve Rehabilitasyon Anabilim Dalı, İstanbul, Türkiye)

Emel METE, (İstanbul Medeniyet Üniversitesi, Sağlık Bilimleri Fakültesi, Fizyoterapi ve Rehabilitasyon Anabilim Dalı, İstanbul, Türkiye)

Reyhan KAYGUSUZ, (Demiroğlu Bilim Üniversitesi, Sağlık Bilimleri Fakültesi, Fizyoterapi ve Rehabilitasyon Anabilim Dalı, İstanbul, Türkiye)

Canan Günay YAZICI (Marmara Üniversitesi, Sağlık Bilimleri Fakültesi, Fizyoterapi ve Rehabilitasyon Anabilim Dalı, İstanbul, Türkiye)

Türk Nöroloji Dergisi

16 8

Yıl: 2021 Cilt: 27 Sayı: 1 Sayfa Aralığı: 5 - 16 Metin Dili: Türkçe DOI: 10.4274/tnd.2020.57778 İndeks Tarihi: 24-01-2022

Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme

Öz:

Gelişimsel koordinasyon bozukluğu (GKB), motor beceri bozukluğu ile karakterize, çocuğun günlük yaşam aktivitelerini gerçekleştirme yeteneğini önemli ölçüde bozan ve psikososyal iyilik halini olumsuz etkileyen, etiyolojisi bilinmeyen bir nöromotor bozukluktur. GKB’nin etiyolojisini ve GKB’de görülen motor bozukluğun altında yatan nöral mekanizmaları aydınlatan yeterli bilgi ve kanıt mevcut değildir. GKB’li çocuklarda yapılan nörogörüntüleme çalışmalarının sayısı son yıllarda nörogörüntüleme tekniklerinin gelişmesiyle birlikte artmaktadır. Bu çalışmalar, GKB’li çocukların fonksiyonel görevler sırasında beynin farklı bölgelerini harekete geçirdiğini, tipik gelişen çocuklara kıyasla ak madde mikroyapısında, serebellum, bazal ganglionlar, paryetal lob ve frontal lobun bazı bölümlerinde (medial orbitofrontal korteks ve dorsolateral prefrontal korteks) farklılıklar gösterdiğini ortaya koymaktadır. Ayrıca, GKB’nin etiyolojik kökeninin ve patofizyolojisinin aydınlatılmasının uygun tedavi ve müdahale planına karar verilmesinde de kritik öneme sahip olacağı açıktır. Çok sayıda çalışmadan elde edilen bu nörogörüntüleme verilerinin, GKB’li çocuklarda bozulmuş motor fonksiyon ile ilgili nöral mekanizmalarının açıklanmasına katkısı olacağını düşünmekteyiz.

Anahtar Kelime:

Neuroimaging in Developmental Coordination Disorder

Öz:

Developmental coordination disorder (DCD) is a neuromotor disorder of unknown etiology characterized by motor skill disorder, which significantly inhibits the child’s ability to perform daily living activities and affects psychosocial well-being. DCD is one of the least understood and studied neuromotor disorders, and little is known about the neural mechanisms underlying motor impairment. This makes it difficult to understand why children with DCD have difficulty in learning motor skills and what is the best intervention to optimize motor functions. With the further development of neuroimaging techniques, the number of neuroimaging studies to understand the underlying mechanisms in children with DCD has increased in recent years. Results from these studies suggest that children with DCD activate different regions of the brain during functional tasks and show differences in white matter microstructure, cerebellum, basal ganglia, parietal lobe, and parts of the frontal lobe (medial orbitofrontal cortex and dorsolateral prefrontal cortex) compared with typically developing children. We believe that these neuroimaging data obtained from numerous studies will contribute to the explanation of neural mechanisms related to impaired motor function in children with DCD.

Anahtar Kelime:

Belge Türü: Makale Makale Türü: Derleme Erişim Türü: Erişime Açık

1. American Psychiatric Association. Diagnostic and Statistical Manual of Mental Disorders (DSM-5). 5th ed. Washington, DC: American Psychiatric Publishing, 2013.
2. Zwicker JG, Harris SR, Klassen AF. Quality of life domains affected in children with developmental coordination disorder: A systematic review. Child Care Health Dev 2013;39:562-580.
3. Kirby A, Williams N, Thomas M, Hill EL. Self-reported mood, general health, wellbeing and employment status in adults with suspected DCD. Res Dev Disabil 2013;34:1357-1364.
4. Steinbrink J, Villringer A, Kempf F, et al. Illuminating the BOLD signal: Combined fMRG-fNIRS studies. Journal of Magn Reson Imaging 2006;24:495-505.
5. Querne L, Berquin P, Vernier-Hauvette MP, et al. Dysfunction of the attentional brain network in children with developmental coordination disorder: a fMRG study. Brain Res 2008;1244:89-102.
6. Kashiwagi M, Iwaki S, Narumi Y, Tamai H, Suzuki S. Paryetal dysfunction in developmental coordination disorder: a functional MRI study. Neuroreport 2009;20:1319-1324.
7. Zwicker JG, Missiuna C, Harris SR, Boyd LA. Brain activation of children with developmental coordination disorder is different than peers. Pediatrics 2010;126:e678-e686.
8. Zwicker JG, Missiuna C, Harris SR, Boyd LA. Brain activation associated with motor skill practice in children with developmental coordination disorder: an fMRG study. Int J Dev Neurosci 2011;29:145-152.
9. Debrabant J, Gheysen F, Caeyenberghs K, Van Waelvelde H, Vingerhoets G. Neural underpinnings of impaired predictive motor timing in children with Developmental Coordination Disorder. Res Dev Disabil 2013;34:1478- 1487.
10. Licari MK, Billington J, Reid SL, et al. Cortical functioning in children with developmental coordination disorder: a motor overflow study. Exp Brain Res 2015;233:1703-1710.
11. Biotteau M, Péran P, Vayssière N, et al. Neural changes associated to procedural learning and automatization process in developmental coordination disorder and/or developmental dyslexia. Eur J Paediatr Neurol 2017;21:286-299.
12. Barkovich AJ, Raybaud C, (eds). Pediatrics Neuroimaging. 5th ed. Lippincott Williams & Wilkins, 2011.
13. McLeod KR, Langevin LM, Goodyear BG, Dewey D. Functional connectivity of neural motor networks is disrupted in children with developmental coordination disorder and attention-deficit/hyperactivity disorder. Neuroimage Clin 2014;4:566-575.
14. Langevin LM, MacMaster FP, Crawford S, Lebel C, Dewey D. Common white matter microstructure alterations in pediatric motor and attention disorders. J Pediatr 2014; 164:1157-1164.
15. Debrabant J, Vingerhoets G, Van Waelvelde H, et al. Brain connectomics of visual-motor deficits in children with developmental coordination disorder. J Pediatr 2016;169:21-27.
16. Lloyd W, Mon-Williams M, Waiter GD, Williams JH. Developmental coordination disorder: A voxel-based MRI study of neural correlates. Magn Reson Med 2010;18:1.
17. Caeyenberghs K, Taymans T, Wilson PH, et al. Neural signature of developmental coordination disorder in the structural connectome independent of comorbid autism. Dev Sci 2016;19:599-612.
18. Langevin LM, MacMaster FP, Dewey D. Distinct patterns of cortical thinning in concurrent motor and attention disorders. Dev Med Child Neurol 2015;57:257-264.
19. Abernethy LJ, Cooke RW, Foulder-Hughes L. Caudate and hippocampal volumes, intelligence, and motor impairment in 7-year-old children who were born preterm. Pediatr Res 2004;55:884-893.
20. Skranes J, Evensen KI, Løhaugen GC, et al. Abnormal cerebral MRI findings and neuroimpairments in very low birth weight (VLBW) adolescents. Eur J Paediatr Neurol 2008;12:273-283.
21. Van Kooij BJ, de Vries LS, Ball G, et al. Neonatal tract-based spatial statistics findings and outcome in preterm infants. AJNR Am J Neuroradiol 2012;33:188-194.
22. Beaulieu C. The basis of anisotropic water diffusion in the nervous system-a technical review. NMR Biomed 2002;15:435-455.
23. Snook L, Paulson LA, Roy D, Phillips L, Beaulieu C. Diffusion tensor imaging of neurodevelopment in children and young adults. Neuroimage 2005;26:1164-1173.
24. Zwicker JG, Missiuna C, Harris SR, Boyd LA. Developmental coordination disorder: a pilot diffusion tensor imaging study. Pediatr Neurol 2012;46:162-167.
25. Williams J, Kashuk SR, Wilson PH, Thorpe G, Egan GF. White matter alterations in adults with probable developmental coordination disorder: An MRI diffusion tensor imaging study. Neuroreport 2017;28:87-92.
26. Hyde C, Fuelscher I, Enticott PG, et al. White matter organization in developmental coordination disorder: A pilot study exploring the added value of constrained spherical deconvolution. Neuroimage Clin 2018;21:10- 25.
27. Dewey D, Cantell M, Crawford SG. Motor and gestural performance in children with autism spectrum disorders, developmental coordination disorder, and/or attention deficit hyperactivity disorder. J Int Neuropsychol Soc 2007;13:246-256.
28. Zatorre RJ, Fields RD, Johansen-Berg H. Plasticity in gray and white: neuroimaging changes in brain structure during learning. Nat Neurosci 2012;15:528-536.
29. Brown-Lum M, Zwicker JG. Brain imaging increases our understanding of developmental coordination disorder: a review of literature and future directions. Curr Dev Disord Rep 2015;2:131-140.
30. Niedermeyer E, da Silva F. Electroencephalography: basic principles, clinical applications, and related fields. Philadelphia: Lippincott Williams & Wilkins; 2005.
31. DeCastelnau P, Albaret JM, Chaix Y, Zanone PG. A study of EEG coherence in DCD children during motor synchronization task. Hum Mov Sci 2008;27:230-241.
32. Albaret J-M, Chaix Y. Neurobiological bases and neurophysiological correlates of developmental coordination disorders. Clin Neurophysiol 2011;42:11-17.
33. Alloway TP, Temple KJ. A comparison of working memory profiles and learning in children with developmental coordination disorder and moderate learning difficulties. Appl Cognitive Psych 2007;21:473-487.
34. Baddeley AD. The episodic buffer: A new component of working memory? Trends Cogn Sci 2000;4:417-423.
35. Tsai C, Chang Y, Hung T, Tseng Y, Chen T. The neurophysiological performance of visuospatial working memory in children with developmental coordination disorder. Dev Med Child Neurol 2012;54:1114-1120.
36. Pangelinan MM, Hatfield BD, Clark JE. Differences in movement-related cortical activation patterns underlying motor performance in children with and without developmental coordination disorder. J Neurophysiol 2013;109:3041-3050.
37. Barkley RA. The nature of ADHD. Attention Deficit Hyperactivity Disorder. A Handbook for Diagnosis and Treatment. New York: Guilford Press; 1990:3-9.
38. Piek JP, Dyck MJ, Nieman A, et al. The relationship between motor coordination, executive functioning and attention in school aged children. Arch Clin Neuropsychol 2004;19:1063-1076.
39. Wilmut K, Brown JH, Wann JP. Attention disengagement in children with developmental coordination disorder. Disabil Rehabil 2007;29:47-55.
40. Lohse KR, Sherwood DE, Healy AF. Neuromuscular effects of shifting the focus of attention in a simple force production task. J Mot Behav 2011;43:173-184.
41. Fong SS, Chung JW, Cheng YT, et al. Attention during functional tasks is associated with motor performance in children with developmental coordination disorder: A cross-sectional study. Medicine (Baltimore) 2016;95:37.
42. Gheysen F, Van Waelvelde H, Fias W. Impaired visuo-motor sequence learning in developmental coordination disorder. Res Dev Disabil 2011;32:749-756.
43. Serrien DJ. Coordination constraints during bimanual versus unimanual performance conditions. Neuropsychologia 2008;46:419-425.
44. Blais M, Amarantini D, Albaret JM, Chaix Y, Tallet J. Atypical interhemispheric communication correlates with altered motor inhibition during learning of a new bimanual coordination pattern in developmental coordination disorder. Dev Sci 2018;21:121-163.
45. Licari M, Larkin D. Increased associated movements: Influence of attention deficits and movement difficulties. Hum Mov Sci 2008;27:310-324.
46. Licari M, Larkin, D, Miyahara M. The influence of developmental coordination disorder and attention deficits on associated movements in children. Hum Mov Sci 2006;25:90-99.
47. Tallet J, Albaret JM, Barral J. Developmental changes in lateralized inhibition of symmetric movements in children with and without developmental coordination disorder. Res Dev Disabil 2013;34:2523-2532.
48. Quaresima V, Bisconti S, Ferrari M. A brief review on the use of functional near-infrared spectroscopy (fNIRS) for language imaging studies in human newborns and adults. Brain Lang 2012;121:79-89.
49. Koch JKL, Miguel H, Smiley-Oyen AL. Prefrontal activation during Stroop and Wisconsin card sort tasks in children with developmental coordination disorder: a NIRS study. Exp Brain Res 2018;236:3053-3064.
50. Caçola P, Getchell N, Srinivasan D, Alexandrakis G, Liu H. Cortical activity in fine-motor tasks in children with Developmental Coordination Disorder: A preliminary fNIRS study. Int J Dev Neurosci 2018;65:83-90.
51. Sigmundsson H. Perceptual deficits in clumsy children: İnter-and intramodal matching approach-a window into clumsy behavior. Neural Plas 2003;10:27-38.
52. De Castelnau P, Albaret JM, Chaix Y, Zanone PG. A study of EEG coherence in DCD children during motor synchronization task. Hum Mov Sci 2008;27:230-241.
53. Lust JM, Geuze RH, Wijers AA, Wilson PH. An EEG study of mental rotation-related negativity in children with Developmental Coordination Disorder. Child Care Health Dev 2006;32:649-663.
54. Reynolds JE, Licari MK, Billington J, et al. Mirror neuron activation in children with developmental coordination disorder: a functional MRI study. Int J Dev Neurosci 2015;47:309-319.
55. McLeod KR, Langevin LM, Dewey D, Goodyear BG. Atypical within-and between-hemisphere motor network functional connections in children with developmental coordination disorder and attention-deficit/hyperactivity disorder. Neuroimage Clin 2016;12:157-164.
56. Thornton S, Bra, S, Langevin LM, Dewey D. Functional brain correlates of motor response inhibition in children with developmental coordination disorder and attention eficit/hyperactivity disorder. Hum Mov Sci 2018;59:134-142.
57. Fogassi L, Luppino G. Motor functions of the parietal lobe. Curr Opin Neurobiol 2005;15:626-631.
58. Farah MJ, Wong AB, Monheit MA, Morrow LA. Parietal lobe mechanisms of spatial attention: Modality-specific or supramodal? Neuropsychologia 1989;27:461-470.
59. Middleton FA, Strick PL. Basal ganglia and cerebellar loops: motor and cognitive circuits. Brain Res Brain Res Rev 2000;31:236-250.
60. Blank R, Smıts-Engelsman B, Polatajko H, Wilson P. European Academy for Childhood Disability (EACD): Recommendations on the definition, diagnosis and intervention of developmental coordination disorder (long version). Dev Med Child Neurol 2012;54:54-93.
61. Reynolds JE, Licari MK, Reid SL, et al. Reduced relative volume in motor and attention regions in developmental coordination disorder: A voxelbased morphometry study. Int J Dev Neurosci 2017;58:59-64.

APA	Kocaman C, ACAR G, POLAT M, Mete E, Kaygusuz Benli R, GÜNAY YAZICI C (2021). Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme. , 5 - 16. 10.4274/tnd.2020.57778
Chicago	Kocaman Canan,ACAR Gönül,POLAT MINE GÜLDEN,Mete Emel,Kaygusuz Benli Reyhan,GÜNAY YAZICI Canan Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme. (2021): 5 - 16. 10.4274/tnd.2020.57778
MLA	Kocaman Canan,ACAR Gönül,POLAT MINE GÜLDEN,Mete Emel,Kaygusuz Benli Reyhan,GÜNAY YAZICI Canan Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme. , 2021, ss.5 - 16. 10.4274/tnd.2020.57778
AMA	Kocaman C,ACAR G,POLAT M,Mete E,Kaygusuz Benli R,GÜNAY YAZICI C Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme. . 2021; 5 - 16. 10.4274/tnd.2020.57778
Vancouver	Kocaman C,ACAR G,POLAT M,Mete E,Kaygusuz Benli R,GÜNAY YAZICI C Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme. . 2021; 5 - 16. 10.4274/tnd.2020.57778
IEEE	Kocaman C,ACAR G,POLAT M,Mete E,Kaygusuz Benli R,GÜNAY YAZICI C "Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme." , ss.5 - 16, 2021. 10.4274/tnd.2020.57778
ISNAD	Kocaman, Canan vd. "Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme". (2021), 5-16. https://doi.org/10.4274/tnd.2020.57778

APA	Kocaman C, ACAR G, POLAT M, Mete E, Kaygusuz Benli R, GÜNAY YAZICI C (2021). Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme. Türk Nöroloji Dergisi, 27(1), 5 - 16. 10.4274/tnd.2020.57778
Chicago	Kocaman Canan,ACAR Gönül,POLAT MINE GÜLDEN,Mete Emel,Kaygusuz Benli Reyhan,GÜNAY YAZICI Canan Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme. Türk Nöroloji Dergisi 27, no.1 (2021): 5 - 16. 10.4274/tnd.2020.57778
MLA	Kocaman Canan,ACAR Gönül,POLAT MINE GÜLDEN,Mete Emel,Kaygusuz Benli Reyhan,GÜNAY YAZICI Canan Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme. Türk Nöroloji Dergisi, vol.27, no.1, 2021, ss.5 - 16. 10.4274/tnd.2020.57778
AMA	Kocaman C,ACAR G,POLAT M,Mete E,Kaygusuz Benli R,GÜNAY YAZICI C Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme. Türk Nöroloji Dergisi. 2021; 27(1): 5 - 16. 10.4274/tnd.2020.57778
Vancouver	Kocaman C,ACAR G,POLAT M,Mete E,Kaygusuz Benli R,GÜNAY YAZICI C Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme. Türk Nöroloji Dergisi. 2021; 27(1): 5 - 16. 10.4274/tnd.2020.57778
IEEE	Kocaman C,ACAR G,POLAT M,Mete E,Kaygusuz Benli R,GÜNAY YAZICI C "Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme." Türk Nöroloji Dergisi, 27, ss.5 - 16, 2021. 10.4274/tnd.2020.57778
ISNAD	Kocaman, Canan vd. "Gelişimsel Koordinasyon Bozukluğunda Nörogörüntüleme". Türk Nöroloji Dergisi 27/1 (2021), 5-16. https://doi.org/10.4274/tnd.2020.57778