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Blanchard CCV, McGlashan HL, French B, Sperring RJ, Petrocochino B, Holmes NP. Online control of prehension predicts performance on a standardised motor assessment test in 8-12 year old children. Front Psychol 8: 374, 2017.    
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American Psychiatric Association . Diagnostic and statistical manual of mental disorders. fifth edition.
Blanchard CCV, McGlashan HL, French B, Holmes NP. The development of online control. Hum Mov Sci 0: 0, in preparation.
Blank R, Smits-Engelsman BCM, Polatajko HJ, Wilson PH. European academy for childhood disability (eacd): recommendations on the definition, diagnosis and intervention of developmental coordination disorder (long version). Dev Med Child Neurol 54(1): 54–93, 2012.
Castiello U, Paulignan Y, Jeannerod M. Temporal dissociation of motor responses and subjective awareness: A study in normal subjects. Brain 114(6): 2639–2655, 1991.
Comrey AL, Lee HB. A first course in factor analysis. Lawrence Earlbaum, Hove
Desmurget M, Grafton ST. Forward modeling allows feedback control for fast reaching movements. Trends Cogn Sci 4(11): 423–431, 2000.
Dunn L, Dunn L, Whetton C, Burley J. British picture vocabulary scale. 2nd edition. NFER-Nelson, Windsor, Berks
Elliot CD. British Ability Scales II. NFER-Nelson, Windsor, England
Farnè A, Roy AC, Paulignan Y, Rode G, Rossetti YRC, Boisson D, Jeannerod M. Visuo-motor control of the ipsilateral hand: Evidence from right brain-damaged patients. Neuropsychologia 41(6): 739–757, 2003.
Flash T, Henis E. Arm trajectory modifications during reaching towards visual targets. J Cogn Neurosci 3(3): 220–230, 1991.
Flatters IJ, Mushtaq F, Hill LJB, Holt RJ, Wilkie RM, Mon-Williams MA. The relationship between a child’s postural stability and manual dexterity. Exp Brain Res 232(9): 2907–2917, 2014.
Flora DB, LaBrish C, Chalmers RP. Old and new ideas for data screening and assumption testing for exploratory and confirmatory factor analysis. Front Psychol 3: 55, 2012.
French B, Sycamore NJ, McGlashan HL, Blanchard CCV, Holmes NP. Ceiling effects in the Movement Assessment Battery for Children-2 (MABC-2) suggest that non-parametric scoring methods are required. PLoS ONE 0: 0, under review.
Goodale MA, Pélisson D, Prablanc C. Large adjustments in visually guided reaching do not depend on vision of the hand or perception of target displacement. Nature 320(6064): 748–750, 1986.
Hill LJB, Mushtaq F, O'Neill L, Flatters IJ, Williams JHG, Mon-Williams MA. The relationship between manual coordination and mental health. Eur Child Adolescent Psychiat 25(3): 283–295, 2016.
Holmes NP, Dakwar A. Online control of reaching and pointing to visual, auditory, and multimodal targets: Effects of target modality and method of determining correction latency. Vision Res 117: 105–116, 2015.
Holt RJ, Lefevre AS, Flatters IJ, Culmer PR, Wilkie RM, Henson BW, Bingham GP, Mon-Williams MA. Grasping the changes seen in older adults when reaching for objects of varied texture. PLoS ONE 8(7): e69040, 2013.
Hyde CEA, Wilson PH. Dissecting online control in developmental coordination disorder: a kinematic analysis of double-step reaching. Brain Cogn 75(3): 232–241, 2011a.
Hyde CEA, Wilson PH. Online motor control in children with developmental coordination disorder: chronometric analysis of double-step reaching performance. Child Care Health Dev 37(1): 111–122, 2011b.
Hyde CEA, Wilson PH. Impaired online control in children with developmental coordination disorder reflects developmental immaturity. Dev Neuropsychol 38(2): 81–97, 2013.
Mon-Williams MA, Tresilian JR, Bell VE, Coppard VL, Nixdorf M, Carson RG. The preparation of reach-to-grasp movements in adults, children, and children with movement problems. Q J Exp Psychol 58(7): 1249–1263, 2005.
Naish KR, Reader AT, Houston-Price C, Bremner AJ, Holmes NP. To eat or not to eat? Kinematics and muscle activity of reach-to-grasp movements are influenced by the action goal, but observers do not detect these differences. Exp Brain Res 225(2): 261–275, 2013a.
Paulignan Y, MacKenzie C, Marteniuk RG, Jeannerod M. Selective perturbation of visual input during prehension movements. 1. The effects of changing object position. Exp Brain Res 83(3): 502–512, 1991a.
Plumb MS, Wilson AD, Mulroue A, Brockman A, Williams J, Mon-Williams MA. Online corrections in children with and without dcd. Hum Mov Sci 27(5): 695–704, 2008.
Raethjen J, Pawlas F, Lindemann M, Wenzelburger R, Deuschl G. Determinants of physiologic tremor in a large normal populatio. Clin Neurophysiol 111: 1825–1837, 2000.
Ruddock SR, Piek JP, Sugden DA, Morris S, Hyde CEA, Caeyenberghs K, Wilson PH. Coupling online control and inhibitory systems in children with developmental coordination disorder: goal-directed reaching. Res Dev Disabil 36: 244–255, 2014.
Swanson JM, Schuck S, Porter MM, Carlson C, Hartman CA, Sergeant JA. Categorical and dimensional definitions and evaluations of symptoms of adhd: history of the snap and the swan rating scales. Int J Educ Psychol Assess 10: 51–71, 2012.
Tresilian JR. Sensorimotor control and learning: an introduction to the behavioral neuroscience of action. Palgrave Macmillan
Van Braeckel K, Butcher PR, Geuze RH, Stremmelaar EF, Bouma A. Movement adaptations in 7- to 10-year-old typically developing children: evidence for a transition in feedback-based motor control. Hum Mov Sci 26(6): 927–942, 2007.
Veerman MM, Brenner E, Smeets JBJ. The latency for correcting a movement depends on the visual attribute that defines the target. Exp Brain Res 187(2): 219–228, 2008.
Venetsanou F, Kambas A, Ellinoudis T, Fatouros IG, Giannakidou D, Kourtessis T. Can the movement assessment battery for children-test be the 'gold standard' for the motor assessment of children with developmental coordination disorder? Res Dev Disabil 32(1): 1–10, 2011.
Wilson BN, Crawford SG, Green D, Roberts G, Aylott A, Kaplan BJ. Psychometric properties of the revised developmental coordination disorder questionnaire. Phys Occupat Therapy Pediatr 29(2): 182–202, 2009.
Wilson BN, Kaplan BJ, Crawford SG, Campbell A, Dewey D. Reliability and validity of a parent questionnaire on childhood motor skills. Am J Occup Ther 54(5): 484–493, 2000.
Wilson PH. Neurocognitive processing deficits in children with developmental coordination disorder. In: Cairney J (eds) Developmental coordination disorder and its consequences. University of Toronto Press, London, pp 138–165
Wilson PH, Ruddock SR, Smits-Engelsman BCM, Polatajko HJ, Blank R. Understanding performance deficits in developmental coordination disorder: a meta-analysis of recent research. Dev Med Child Neurol 55(3): 217–228, 2013.
Wilson PH, Hyde CEA. The development of rapid online control in children aged 6–12 years: reaching performance. Hum Mov Sci 32(5): 1138–1150, 2013.
Wolpert DM, Kawato MI. Multiple paired forward and inverse models for motor control. Neural Networks 11: 1317–1329, 1998.
Wolpert DM, Miall RC, Kawato MI. Internal models in the cerebellum. Trends Cogn Sci 2(9): 338–347, 1998b.
Zwicker JG, Missiuna CA, Harris SR, Boyd LA. Developmental coordination disorder: a review and update. Eur J Paediatr Neurol 16(6): 573–581, 2012.