Hong Kong Physiotherapy Journal
Volume 23, Issue 1 , Pages 40-45 , 2005

Performance on the NSMDA During the First and Second Year of Life to Predict Functional Ability at the Age Of 4 in Children with Cerebral Palsy

  • Julie MacDonald, BPhty (Hons), MA

      Affiliations

    • Division of Physiotherapy, School of Health and Rehabilitation Sciences, The University of Queensland, St Lucia
    • Corresponding Author InformationReprint requests and correspondence to: Ms Julie MacDonald, Division of Physiotherapy, School of Health and Rehabilitation Sciences, The University of Queensland, St Lucia, Brisbane, Australia
    • ,
  • Yvonne Burns, PhD, MPhty

      Affiliations

    • Division of Physiotherapy, School of Health and Rehabilitation Sciences, The University of Queensland, St Lucia
    • Growth and Development Research Unit, Mater Mothers' Hospital, Brisbane, Australia

Received 11 April 2005 ,Accepted 12 October 2005.

References 

  1. Badawi N , Watson L , Petterson B , et al.   What constitutes cerebral palsy? . Dev Med Child Neurol . 1998;40:520–527
  2. Surveillance of Cerebral Palsy in Europe  . A collaboration of cerebral palsy surveys and registers . Dev Med Child Neurol . 2000;42:816–824
  3. Stanley FJ , Blair E , Alberman E . Cerebral palsies: epidemiology and causal pathways . Clinics in Developmental Medicine, No. 151 . London: MacKeith Press; 2000;
  4. Cummins SK , Nelson KB , Grether JK , et al.   Cerebral palsy in four Northern Californian counties, birth 1983 through 1985 . J Pediatr . 1993;23:230–237
  5. Burns YR , O'Callaghan M , Tudehope DI . Early identification of cerebral palsy in high risk infants . Aust Paediatr J . 1989;25:215–219
  6. Wood E , Rosenbaum P . The gross motor function classification system for cerebral palsy: a study of reliability and stability over time . Dev Med Child Neurol . 2000;42:292–296
  7. Palisano RJ , Rosenbaum P , Walter S , et al.   Development and reliability of a system to classify gross motor function in children with cerebral palsy . Dev Med Child Neurol . 1997;39:214–223
  8. Morris C , Bartlett D . Gross motor function classification system: impact and utility . Dev Med Child Neurol . 2004;46:60–65
  9. Palisano RJ , Hanna SE , Rosenbaum PL , et al.   Validation of a model of gross motor function for children with cerebral palsy . Phys Ther . 2000;80:974–985
  10. Burns YR , Ensbey RM , Norrie MA . The neuro-sensory motor developmental assessment part I: development and administration of the test . Aust J Physiother . 1989;35:141–149
  11. Burns YR , Ensbey RM , Norrie MA . The neuro-sensory motor developmental assessment part II: predictive and concurrent validity . Aust J Physiother . 1989;35:151–157
  12. Burns YR , O'Callaghan M , McDonnell B , Rogers Y . Movement and motor development in ELBW infants at 1 year is related to cognitive and motor abilities at 4 years . Early Human Dev . 2004;80:19–29
  13. MacDonald JA , Burns YR , Mohay HA . Characteristics of neuro-sensory-motor performance of very low birthweight and high risk infants at 6 years of age . NZ J Physiother . 1991;19:17–20 (corrected reprint).
  14. Australian Institute of Health and Welfare (AIHW). ICF Australian User Guide Version 1.0. Disability Series. AIHW Cat. No. DIS-33. Canberra: AIHW, 2003.
  15. Burns YR . N.S.M.D.A. Physiotherapy Assessment for Infants & Young Children . Brisbane: Copyright Brisbane; 1992;
  16. Lin JP . Can we alter the natural history for walking in bilateral cerebral palsy? [Abstract] . Dev Med Child Neurol . 2001;(Suppl. 89):43

PII: S1013-7025(09)70058-2

doi: 10.1016/S1013-7025(09)70058-2

Hong Kong Physiotherapy Journal
Volume 23, Issue 1 , Pages 40-45 , 2005

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