%0 Journal Article %J Physical & Occupational Therapy in Pediatrics %D 2011 %T Content range and precision of a computer adaptive test of upper extremity function for children with cerebral palsy %A Montpetit, K. %A Haley, S. %A Bilodeau, N. %A Ni, P. %A Tian, F. %A Gorton, G., 3rd %A Mulcahey, M. J. %X This article reports on the content range and measurement precision of an upper extremity (UE) computer adaptive testing (CAT) platform of physical function in children with cerebral palsy. Upper extremity items representing skills of all abilities were administered to 305 parents. These responses were compared with two traditional standardized measures: Pediatric Outcomes Data Collection Instrument and Functional Independence Measure for Children. The UE CAT correlated strongly with the upper extremity component of these measures and had greater precision when describing individual functional ability. The UE item bank has wider range with items populating the lower end of the ability spectrum. This new UE item bank and CAT have the capability to quickly assess children of all ages and abilities with good precision and, most importantly, with items that are meaningful and appropriate for their age and level of physical function. %B Physical & Occupational Therapy in Pediatrics %7 2010/10/15 %V 31 %P 90-102 %@ 1541-3144 (Electronic)0194-2638 (Linking) %G eng %M 20942642 %! Phys Occup Ther Pediatr %0 Journal Article %J Quality of Life Research %D 2009 %T Measuring global physical health in children with cerebral palsy: Illustration of a multidimensional bi-factor model and computerized adaptive testing %A Haley, S. M. %A Ni, P. %A Dumas, H. M. %A Fragala-Pinkham, M. A. %A Hambleton, R. K. %A Montpetit, K. %A Bilodeau, N. %A Gorton, G. E. %A Watson, K. %A Tucker, C. A. %K *Computer Simulation %K *Health Status %K *Models, Statistical %K Adaptation, Psychological %K Adolescent %K Cerebral Palsy/*physiopathology %K Child %K Child, Preschool %K Factor Analysis, Statistical %K Female %K Humans %K Male %K Massachusetts %K Pennsylvania %K Questionnaires %K Young Adult %X PURPOSE: The purposes of this study were to apply a bi-factor model for the determination of test dimensionality and a multidimensional CAT using computer simulations of real data for the assessment of a new global physical health measure for children with cerebral palsy (CP). METHODS: Parent respondents of 306 children with cerebral palsy were recruited from four pediatric rehabilitation hospitals and outpatient clinics. We compared confirmatory factor analysis results across four models: (1) one-factor unidimensional; (2) two-factor multidimensional (MIRT); (3) bi-factor MIRT with fixed slopes; and (4) bi-factor MIRT with varied slopes. We tested whether the general and content (fatigue and pain) person score estimates could discriminate across severity and types of CP, and whether score estimates from a simulated CAT were similar to estimates based on the total item bank, and whether they correlated as expected with external measures. RESULTS: Confirmatory factor analysis suggested separate pain and fatigue sub-factors; all 37 items were retained in the analyses. From the bi-factor MIRT model with fixed slopes, the full item bank scores discriminated across levels of severity and types of CP, and compared favorably to external instruments. CAT scores based on 10- and 15-item versions accurately captured the global physical health scores. CONCLUSIONS: The bi-factor MIRT CAT application, especially the 10- and 15-item versions, yielded accurate global physical health scores that discriminated across known severity groups and types of CP, and correlated as expected with concurrent measures. The CATs have potential for collecting complex data on the physical health of children with CP in an efficient manner. %B Quality of Life Research %7 2009/02/18 %V 18 %P 359-370 %8 Apr %@ 0962-9343 (Print)0962-9343 (Linking) %G eng %M 19221892 %2 2692519