Strumenti di valutazione dell’evoluzione funzionale

• Basaglia N, Bertocchi A, Boldrini P (2000) Valutazione clinica in Medicina Riabilitativa. In: Basaglia N (ed) Trattato di Medicina Riabilitativa-Medicina Fisica e Riabilitazione. Idelson-Gnocchi Editore, pp 91–195

  Google Scholar 

• Bayley N (1969) Manual for the Bayley Scales of Infant Development. New York, The Psychological Corporation

  Google Scholar 

• Bellani R (2000) Valutazione delle funzioni manipolatorie e prassiche. In Fedrizzi E (Ed) La valutazione delle funzioni manipolatorie e prassiche. Milano, Franco Angeli. pp 112–131

  Google Scholar 

• Bobath B, Bobath K (1975) Motor development in the different types of cerebral palsy. London: Heinemann Medical

  Google Scholar 

• Boldrini P, Basaglia N (1995) Valutare in Medicina riabilitativa. In: Basaglia N, Pace P (eds) Valutazione e qualità dell’assistenza in Medicina Riabilitativa. Napoli, Gnocchi Editore, pp 67–87

  Google Scholar 

• Bohannon RW, Smith MB (1986) Interrater reliability of a modified Ashworth scale of muscle spasticity. Phys Ther 67:206–207

  Google Scholar 

• Bottos M, Dalla Barba B, Stefani D et al (1989) Locomotor strategies preceding independent walking: prospective study of neurological and language development in 424 cases. Dev Med Child Neur 31:25–34

  CAS  Google Scholar 

• Boyce W, Russell D, Rosenbaum P (1991) Measuring quality of movement: a review of instruments. Physical Therapy 71:813–819

  PubMed  CAS  Google Scholar 

• Boyce W, King C, Olney S (1998) Evaluating instruments of motor assessment in international practice. Giornale di Neuropsichiatria dell’età evolutiva 2:17–34

  Google Scholar 

• Boyd RN, Hays RM (2001) Current evidence for the use of botulinum toxin type A in the management of children with cerebral palsy: a systematic review. Eur J Neurol 8:20

  Google Scholar 

• Campbell SK (1992) Measurement of motor performance in cerebral palsy. In Forssberg H, Hirschfeld H (eds) Movement Disorders in Children. Basel, Switzerland, Karger, pp 264–271

  Google Scholar 

• Campbell SK (1996) Quantifying the effects of interventions for movement disorders resulting from cerebral palsy. J Child Neurol 1:61–70

  Google Scholar 

• Campbell SK (1999) Models for decision making. In Campbell SK (ed) Decision Making in Pediatric Neurologic Physical Therapy. Philadelphia, Churchill Livingstone, pp 1–22

  Google Scholar 

• Cioni G, Duchini F, Paolicelli PB et al (1993) Differences and variations in the patterns of early independent walking. Early Hum Dev 35:193–205

  Article  PubMed  CAS  Google Scholar 

• Coluccini M, Maini ES, Sabatini AM et al (2002) Kinematic analysis of general movements in early infancy. Dev Med Child Neur 94:92

  Google Scholar 

• Crenna P (1999) Spasticity and spastic gait in children with cerebral palsy. Neurosc Biobehav Rew 22(4): 571–578

  Google Scholar 

• Damiano DL, Abel M (1996) Relation of Gait analysis to gross motor function in cerebral palsy. Dev Med Child Neur 38:389–396

  CAS  Google Scholar 

• Damiano DL, Quinlivan JM, Owen BF et al (2002) What does the Ashworth scale really measure and are instrumented measures more valid and precise? Dev Med Child Neurol 44:112–118

  PubMed  Google Scholar 

• Eddy DM (1992) Medicine, money and mathematics. Bulletin of the American College of Surgeons 77:36–49

  PubMed  CAS  Google Scholar 

• Eliasson AC, Gordon AM, Forssberg H (1992) Impaired anticipatory control of isometric forces during grasping by children with cerebral palsy. Dev Med Child Neurol 34:216–225

  PubMed  CAS  Google Scholar 

• Eliasson AC, Gordon AM, Forssberg H (1995) Tactile control of isometric fingertip forces during grasping in children with cerebral palsy. Dev Med Child Neurol 37:72–84

  PubMed  CAS  Google Scholar 

• Feldman AB, Haley SM, Coryell J (1990) Concurrent and construct validity of the Pediatric Evaluation of Disability Inventory. Pediatr Phys Ther 3:177–184

  Google Scholar 

• Ferrari A (1990) Interpretative dimensions of infantile cerebral paralysis. In: Papini M, Pasquinelli A, Gidoni EA (eds) Development, Handicap, Rehabilitation, Practice and Theory. Amsterdam, Excepta Medica

  Google Scholar 

• Gage JR (1991) Gait analysis in cerebral palsy. CDM 121, Oxford, Blackwell Scientific Inc

  Google Scholar 

• Gage JR (2004) The treatment of gait problems in cerebral palsy. CDM 164-5, Oxford, Blackwell Scientific Inc

  Google Scholar 

• Gajdosik CG, Gajdosik RL (2000) Muskoloskeletal development and adaptation. In: Campbell SK, Vander Linden DW, Palisano RJ (eds) Physical Therapy for Children 2^nd edition. Chicago, Saunders

  Google Scholar 

• Gesell A, Amatruda CS (1947) Developmental diagnosis. New York, Harper & Row (Reprinted 1969)

  Google Scholar 

• Goldberg MJ (1991) Measuring outcomes in cerebral palsy. J Ped Orth 11:682–685

  CAS  Google Scholar 

• Griffiths R (1954) The Ability of Babies. London, University Press

  Google Scholar 

• Granger CV, Hamilton BB, Sherwin FS (1986) Guide for the use of the uniform data set for medical rehabilitation. Buffalo General Hospital New York, Uniform data system for medical rehabilitation

  Google Scholar 

• Harris SR, Smith LH, Krukowsky L (1985) Goniometric reliability for a child with spastic quadriplegia. Journ of Ped Orthop 5:348–351

  CAS  Google Scholar 

• Hurvitz EA, Conti GE, Flansburg EL, Brown SH (2000) Motor control testing of upper limb function after botulinum toxin injection: a case study. Arch Phys Med Rehabil 81:1408–1415

  PubMed  CAS  Google Scholar 

• Hinderer SR, Hinderer KA (1993) Quantitative methods of evaluation. In: De Lisa JA (ed) Rehabilitation Medicine: Principles and Practice, 2^nd Ed Philadelphia, Lippincott Co, pp 96–121

  Google Scholar 

• Johnson LM, Randall MJ, Reddihough DS et al (1994) Development of a clinical assessment of quality of movement for unilateral upper-limb function. Dev Med Child Neurol 36:965–973

  PubMed  CAS  Google Scholar 

• Koman LA, Mooney JF III, Smith BP et al (1994) Management of spasticity cerebral palsy with botulinum-A toxin: report of a preliminary, randomized, double-blind trial. J Pediatr Orthop 14:299–303

  PubMed  CAS  Google Scholar 

• Krebs DE, Edelstein JE, Fishman S (1985) Reliability of observational gait analysis. Phys Ther 65:1027–1033

  PubMed  CAS  Google Scholar 

• Lansky D, Butler JBV, Waller FT (1992) Using health status measures in the hospital setting: from acute care to outcome management. Medical Care 30:57–73

  Google Scholar 

• Largo RH, Molinari L, Weber M et al (1985) Early development of locomotion: significance of prematurity, cerebral palsy and sex. Dev Med Child Neur 27:183–191

  CAS  Google Scholar 

• Law M, King G, MacKinnon E et al (1999) An Educational Program to Help You Understand, Evaluate, and Choose Pediatric Outcome Measures. (Educational CD) SLACK, New York

  Google Scholar 

• Lepage C, Noreau L, Bernard PM, Fougeyrollas P (1998) Profile of handicap situations in children with cerebral palsy. Scand J Rehabil Med 30:263–272

  PubMed  CAS  Google Scholar 

• Lorenz KZ (1971) Gestalt perception as a source of scientific knowledge. In: Lorenz KZ (ed) Studies in animals and humans behaviour, 11

  Google Scholar 

• Mackey AH, Walt SE, Lobb G, Stott NS (2004) Intraobserver reliability of the modified Tardieu scale in the upper limb of children with hemiplegia. Dev Med Child Neurol 46:267–72

  Article  PubMed  Google Scholar 

• Maini ES, Coluccini M, Posteraro F, Sabatini AM (2002) Should unaffected upper limb of hemiplegic children with cerebral palsy be considered as normal. Dev Med and Child Neur 44:92

  Google Scholar 

• Mihaylov SI, Jarvis SN, Colver AF, Beresford B (2004) Identification and description of environmental factors that influence participation of children with cerebral palsy. Dev Med Child Neurol 46:299–304

  Article  PubMed  Google Scholar 

• Milani Comparetti A (1978) Classification des infirmités motrices cérébrales. Médicine et Hygiène 36:2024–2029

  Google Scholar 

• Milani Comparetti A, Gidoni EA (1967) Routine developmental examination in normal and retarded children. Dev Med Child Neur 9:631–638

  CAS  Google Scholar 

• Msall ME, Roseberg S, DiGaudio KM et al (1990) Pilot test for the weFIM for children with motor impairment. Dev Med Child Neur 32:41

  Google Scholar 

• Palisano J, Campbell SK, Harris SR (1999) Decision making in pediatric physical therapy. In Campbell S, Vander Linden D, Palisano J (eds) Physical Therapy for Children. Philadelphia, Saunders, pp198–226

  Google Scholar 

• Perry J (1990) Gait Analysis: Normal and Pathological. New York, Mc Graw-Hill

  Google Scholar 

• Pierson SH (1997) Outcome Measures in spasticity management. Muscle & Nerve 6:36–60

  Google Scholar 

• Prechtl HFR (2001) General movement assessment as a method of developmental neurology: new paradigms and their consequences. The 1999 Ronnie MacKeith lecture. Dev Med Child Neurol 43:836–842

  PubMed  CAS  Google Scholar 

• Randall M, Carlin JB, Chondros P, Reddihough D (2001) Reliability of the Melbourne assessment of unilateral upper limb function. Dev Med Child Neurol 43:761–767

  Article  PubMed  CAS  Google Scholar 

• Rau G, Disselhorst-Klug C, Schmidt R (2000) Movement biomechanics goes upwards: from the leg to the arm. Journ of Biomech 33:1207–1216

  CAS  Google Scholar 

• Read HS, Hazelewood ME, Hilmann SJ et al (2003) Edinburgh visual gait score for use in cerebrlal palsy. Journ Ped Orthop 23:296–301

  Google Scholar 

• Robson P (1984) Prewalking locomotor movements and their use in predicting standing and walking child care. Healt Development 10:317–330

  CAS  Google Scholar 

• Rodda J, Graham HK (2001) Classification of gait patterns in spastic hemiplegia and diplegia: a basis for a management algorithm. Europ Journ of Neurol 8:98–108

  Google Scholar 

• Russell D, Rosenbaum P, Cadman D et al (1989) The Gross Motor Function Measure a means to evaluate the effects of physical therapy. Dev Med and Child Neur 31:341–352

  CAS  Google Scholar 

• Russell D, Rosenbaum P, Avery LM, Lane M (2002) Gross Motor Function Measure (GMFM-66 and GMFM-88) User’s Manual. Clinics in Developmental Medicine 159 Cambridge, Mac Keith Press

  Google Scholar 

• Sackett DL, Rosenberg WMC, Gray JAM et al (1996) Evidence based medicine: what it is and what it isn’t. British Medical Journal 312:71–72

  PubMed  CAS  Google Scholar 

• Saunders JB, Inman, VT, Eberhart HD (1953) The major determinants in normal and pathological gait. Journal of Bone and Joint Surgery 35:543–558

  PubMed  Google Scholar 

• Smith JK (1990) Questions of measurements in early childhood. In: Gibbs EO, Teti DM (eds) Interdiscipinary assessment of infants. A guide for early intervention professionals. Paul H Brookes

  Google Scholar 

• Sutherland D (1988) The Development of Mature Walking. CDM 104/105. Oxford, Blackwell Scientific Inc

  Google Scholar 

• Tardieu G, Shentoub S, Delarue R (1954) A la recherche d’une technique de measure de la spasticité. Rev Neurol 91:143–144

  PubMed  CAS  Google Scholar 

• Thomson-O’Brien MA, Moreland J (1998) Evidence-based information circle. Physiotherapy Canada 184–189

  Google Scholar 

• Touwen BCL (1976) Neurological development in infancy. CDM 58 London, Heinemann

  Google Scholar 

• Trew M, Everett T (2001) Measuring and evaluating human movement. In: Trew M, Everett T (eds) Human Movement. An introductory text. Churchill Livingstone

  Google Scholar 

• WHO (2001) International Classification of Functioning, Disability and Health (ICF)

  Google Scholar 

• Wiley ME, Damiano DL (1998) Lower-extremity strength profiles in spastic cerebral palsy. Dev Med Child Neur 40:100–107

  CAS  Google Scholar 

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