Cerebral Palsy Outcome Measures: Difference between revisions

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== Introduction  ==
== Introduction  ==


An '''outcome measure''' is the result of a test that is used to objectively determine the baseline function of a patient at the beginning of treatment. Once treatment has commenced, the same instrument can be used to determine progress and treatment efficacy. With the move towards [[Evidence Based Practice (EBP)]] in the health sciences, objective measures of outcome are important to provide credible and reliable justification for treatment. The instrument should also be convenient to apply for the therapist and comfortable for the patient.<br>
Cerebral palsy (CP) is a group of permanent disorders of the development of movement and posture, causing activity limitation, that are attributed to non-progressive disturbances that occurred in the developing foetal or infant brain (Rosenbaum et al., 2007). Rehabilitation in cerebral palsy focuses on promoting mobility, functional independence, and quality of life through various therapeutic strategies. In order to be able to provide quantifiable data on functional changes over time, it is important to use outcome measures, to track progress, modify interventions, and demonstrate the impact of therapy to patients, families, and healthcare systems.
 
== Outcome Measures ==
An '''Outcome Measure''' is the result of a test that is used to objectively determine the baseline function of a patient at the beginning of treatment. Once treatment has commenced, the same instrument can be used to determine progress and treatment efficacy. With the move towards [[Evidence Based Practice (EBP)]] in the health sciences, objective measures of outcome are important to provide credible and reliable justification for treatment. The instrument should also be convenient to apply for the therapist and comfortable for the patient. An integral part of evaluating clinical practice is to objectively assess the intervention and measure it against a set of outcomes to determine its efficacy. Prior to determining any orthotic intervention, the careful choice of treatment goals and aims is essential in children with complex neuromuscular disability in order to identify and determine appropriate outcome measures.<ref name="p1">Debuse D, Brace H. Outcome measures of activity for children with cerebral palsy: a systematic review. Pediatr Phys Ther. 2011 Fall;23(3):221-31</ref>&nbsp;
 
Outcome measures can assess various dimensions, including motor skills, functional independence, quality of life, participation in daily activities, and specific impairments like spasticity or dysarthria.  Outcome measures:
 
* '''Enhance Treatment Planning and Decision-Making''': Outcome measures contribute to individualised treatment planning by providing valuable insights into a patient's functional abilities and limitations. The Gross Motor Function Classification System (GMFCS) is widely used in CP rehabilitation and helps clinicians establish baseline assessments, set realistic goals, and monitor progress over time .<ref>Palisano RJ, Rosenbaum P, Bartlett D, Livingston MH. Content validity of the expanded and revised Gross Motor Function Classification System. Developmental Medicine & Child Neurology. 2008 Oct;50(10):744-50.</ref> Such data-driven approaches empower clinicians to make informed treatment decisions and optimise outcomes.
 
* '''Facilitate Interprofessional Collaboration''': CP rehabilitation often involves a multidisciplinary team. Standardised outcome measures act as a common language, facilitating communication and collaboration among healthcare professionals. For instance, the Manual Ability Classification System (MACS) evaluates upper limb function and assists clinicians from various disciplines in sharing and interpreting assessment results.<ref>Eliasson AC, Krumlinde-Sundholm L, Rösblad B, Beckung E, Arner M, Öhrvall AM, Rosenbaum P. The Manual Ability Classification System (MACS) for children with cerebral palsy: scale development and evidence of validity and reliability. Developmental medicine and child neurology. 2006 Jul;48(7):549-54.</ref> This collaborative approach supports a comprehensive and coordinated care plan.
 
* '''Monitor Progress and Evaluate Treatment Efficacy''': Regular assessment of functional abilities is crucial for monitoring progress and evaluating the effectiveness of interventions. The Paediatric Evaluation of Disability Inventory (PEDI) assesses functional capabilities in self-care, mobility, and social function domains.<ref name=":1" /> By utilising such measures, clinicians can track changes in performance, identify the impact of interventions, and optimise outcomes for individuals with CP.
 
=== Clinician Reported Outcome Measures ===
Clinician-reported outcome measures (ClinROs) are an essential component of assessing and managing cerebral palsy (CP). They provide an objective and standardised method for clinicians to evaluate the impact of interventions and track progress over time.  Examples include the Timed Up and Go test (TUG), the 88 and 66 item Gross Motor Function Measure (GMFM-88 and GMFM-66 respectively), Gross Motor Performance Measure (GMPM), Clinical Gait Assessment Score (CGAS), Pediatric Balance Scale (PBS) and the Standardised Walking Obstacle Course (SWOC). These outcome measures have been proven to be valid and reliable to evaluate motor function and performance in children and the choice should be based on the specific context and objectives of the assessment. <ref name="p0">Yi SH, Hwang JH, Kim SJ, Kwon JY. Validity of pediatric balance scales in children with spastic cerebral palsy. Neuropediatrics. 2012 Dec;43(6):307-13</ref>&nbsp;<ref name="p1" />&nbsp;<ref name="p2">Rosenbaum PL, Walter SD, Hanna SE, Palisano RJ, Russell DJ, Raina P, et al. Prognosis for gross motor function in cerebral palsy: creation of motor development curves. Jama. [Multicenter Study Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, P.H.S.]. 2002 Sep 18;288(11):1357-63</ref>&nbsp;<ref name="p3">Palisano RJ, Hanna SE, Rosenbaum PL, Russell DJ, Walter SD, Wood EP, et al. Validation of a model of gross motor function for children with cerebral palsy. Phys Ther. [Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, P.H.S. Validation Studies]. 2000 Oct;80(10):974-85</ref>&nbsp;<ref name="p4">Stanger M, Oresic S. Rehabilitation approaches for children with cerebral palsy: overview. J Child Neurol. [Review]. 2003 Sep;18 Suppl 1:S79-88</ref>&nbsp;<ref name="p5">Jerosch-Herold C. An evidence-based approach to choosing outcome measures: a checklist for the critical appraisal of validity, reliability and responsiveness studies. British Journal of Occupational Therapy. 2005;68(8):347-53</ref>
 
=== Patient Reported Outcome Measures ===
A Patient Reported Outcome Measure (PROM) such as the Paediatric Outcomes Data Collection Instrument (PODCI), the Pediatric Evaluation of Disability Inventory (PEDI) or Gillette Functional Assessment Questionnaire (FAQ), permits the child and family to provide information from their own everyday environment that relates not only to the function of the child’s gait but also to quality of life issues. It is not always possible for healthcare professionals to observe children in their own environment, which makes the PROM a powerful and valuable evaluation tool.
 
The PODCI is a parent-reported outcome measure that assesses the mobility, physical function, comfort, happiness and expectations of the healthcare interventions in children with musculoskeletal health issues. <ref name="p8">Narayanan UG. Management of children with ambulatory cerebral palsy: an evidence-based review. J Pediatr Orthop. [Review]. 2012 Sep;32 Suppl 2:S172-81</ref>&nbsp;In accordance with the ICF values, it not only focuses on assessing function and performance following healthcare interventions, but also evaluates quality of life issues. The PODCI has good reliability and validity when evaluating quality of life issues and walking function in children with Cerebral PalsyP, but does have floor and ceiling effects in the transfer and mobility scales. <ref name="p3" />&nbsp;<ref name="p3" />&nbsp;It demonstrates only a modest sensitivity to detect changes of walking function in children with CP following orthopaedic surgery as the scoring system is considered too expansive to detect subtle changes. <ref name="p8" />&nbsp;<ref name="p3" />&nbsp;Lee et al. <ref name="p3" />&nbsp;found statistically significant improvements in PODCI scores following orthopaedic surgery, but only minimal clinically relevant results. This may mean the PODCI may not be sensitive enough to evaluate the effects of orthotic intervention on mobility and provide results that are clinically relevant.
 
=== The International Classficiation of Function, Disability and Health ===
The International Classification of Function, Disability and Health (ICF) is the World Health Organization's framework for measuring health and disability at both individual and population levels. The ICF has shifted the focus of the impairments in children with Cerebral Palsy from restriction in joint ROM or abnormal muscle tone to the evaluation of functions by assessing the quantitative and qualitative aspects of a child’s Activities of Daily Living (ADL). <ref name="p6">World Health Organisation. International Classifiaction of Functioning, Disability and Health (ICF). Geneva, Switzerland: World Health Organization 2001</ref> It states that the focus of rehabilitation should be shifted from identifying a person’s disability to focusing on enhancing a person’s function, ability and performance quality for each individual in a contextual manner. The ICF identified domains that should be evaluated in children with Cerebral Palsy to include body function and structure, activity and participation. A consensus-based survey of clinicians, parents and youth with Cerebral Palsy supported these domains as relevant to the evaluation of all health care interventions in children with Cerebral Palsy. <ref name="p7">Vargus-Adams JN, Martin LK. Measuring what matters in cerebral palsy: a breadth of important domains and outcome measures. Arch Phys Med Rehabil. [Research Support, N.I.H., Extramural]. 2009 Dec;90(12):2089-95</ref>
 
The primary goal of orthotic treatment of ambulant children with CP (GMFCS I-III) is to optimise their gait. This is with the expectation that it will preserve or improve their physical function and provide them with the ability to increase their participation in physical activities, recreation and sport. <ref name="p8" />&nbsp;Evaluating orthotic intervention requires the use of outcome measures that will not only assess the function and quality of walking, but also the health related quality of life. Quality of life is frequently used as a ‘catch all’ expression for any self-reported measure, even when the instrument is capturing information objectively verifiable as functional ability, activities or participation. <ref name="p9">Morris C, Kurinczuk JJ, Fitzpatrick R. Child or family assessed measures of activity performance and participation for children with cerebral palsy: a structured review. Child Care Health Dev. [Evaluation Studies]. 2005 Jul;31(4):397-407</ref>
 
Given the heterogeneous nature of the Cerebral Palsy population, the goals of rehabilitation are often widely distributed across the ICF domains. This may result in problems interpreting the outcome when using standardised outcome measures alone. <ref name="p7" />&nbsp;<ref name="p8" />&nbsp;Items in a standardised outcome measure may not match the individual treatment goals and even if they do, the outcome may not necessarily represent goal attainment.
 
== Outcome Measures for Children with Cerebral Palsy ==
When choosing outcome measures it is important to focus on the expectations for children with CP of the same age and gross motor function, rather than those for children without developmental delays.<ref name="p3" /><ref name="p4" />Although some of these measures can be used independently many should be used in conjunction with other tools to ensure that all needs are met.
 
=== Bayley Scales of Infant and Toddler Development ===
The Bayley Scales of Infant and Toddler Development (Bayley-III) is a widely used assessment tool designed to evaluate the developmental functioning of infants and young children. It plays a significant role in assessing children with cerebral palsy and provides valuable insights into their cognitive, language, motor, and socio-emotional development.
 
The Bayley-III is  relevant for children with CP to assess developmental delays and identify specific areas of impairment. It can assist in treatment planning and intervention strategies by identifying areas of strength and weakness. The assessment results can guide clinicians in setting realistic goals and monitoring progress over time.
 
One notable feature of the Bayley-III is its ability to assess different domains of development. The cognitive scale assesses problem-solving, memory, and early academic skills. The language scale evaluates expressive and receptive language abilities. The motor scale examines fine and gross motor skills, including reaching, grasping, sitting, and walking. Finally, the socio-emotional scale explores social interactions, emotional regulation, and behaviour.
 
=== Gross Motor Function Measure ===
The Gross Motor Function Measure (GMFM) is a widely employed assessment tool that provides both objective and quantitative data on motor function. It is used to evaluate the gross motor abilities and functional limitations of children with cerebral palsy (CP). It assists in establishing a baseline assessment, setting functional goals, and monitoring progress over time. The measure is sensitive to changes in motor skills and can be used to track improvements resulting from therapy interventions or surgical interventions.<ref name="p3" />
 
There are two versions of the GMFM commonly used: GMFM-66 and GMFM-88. Both versions consist of a series of standardized motor skills tasks that assess a child's ability to perform various gross motor activities. These activities range from lying and rolling to walking, running, and jumping, depending on the child's age and functional level.<ref>Russell DJ, Rosenbaum PL, Cadman DT, Gowland C, Hardy S, Jarvis S. The gross motor function measure: a means to evaluate the effects of physical therapy. Developmental Medicine & Child Neurology. 1989 Jun;31(3):341-52.</ref>
 
* The GMFM-66 is the original version of the measure and assesses 66 motor skills across five dimensions: lying and rolling, sitting, crawling and kneeling, standing, and walking, running, and jumping. Each skill is scored on a four-point scale, ranging from 0 (does not initiate) to 3 (performs fully).<ref>Russell DJ, Avery LM, Walter SD, Hanna SE, Bartlett DJ, Rosenbaum PL, Palisano RJ, Gorter JW. Development and validation of item sets to improve efficiency of administration of the 66‐item Gross Motor Function Measure in children with cerebral palsy. Developmental Medicine & Child Neurology. 2010 Feb;52(2):e48-54.</ref>
* The GMFM-88 is an expanded version of the GMFM-66 and includes an additional 22 motor skills tasks, resulting in a total of 88 items. This version provides a more comprehensive assessment of gross motor function and allows for a finer-grained analysis of a child's abilities across a broader range of motor skills.<ref>Russell DJ, Rosenbaum PL, Cadman DT, Gowland C, Hardy S, Jarvis S. The gross motor function measure: a means to evaluate the effects of physical therapy. Developmental Medicine & Child Neurology. 1989 Jun;31(3):341-52.</ref><br>
 
=== Paediatric Evaluation of Disability Inventory (PEDI) ===
The PEDI is a comprehensive tool for evaluating function in children with disabilities. It assesses three domains: self-care, mobility, and social function.<ref name=":1">Haley SM, Ludlow LH, Coster WJ. Pediatric Evaluation of Disability Inventory: clinical interpretation of summary scores using Rasch rating scale methodology. Physical Medicine and Rehabilitation Clinics of North America. 1993 Aug 1;4(3):529-40.</ref>These domains encompass a wide range of activities and skills that are essential for a child's independence and participation in daily activities. The self-care domain includes tasks such as dressing, eating, and personal hygiene. The mobility domain focuses on activities related to mobility, such as walking, climbing stairs, and using transportation. The social function domain evaluates a child's interactions with others, play skills, and participation in social activities.
 
The PEDI uses both interview and observational methods to gather information from multiple sources, including parents, caregivers, and healthcare professionals. This comprehensive approach ensures a holistic understanding of a child's functional abilities and limitations across different settings and situations.​
 
One of the key strengths of the PEDI is its ability to provide standardised scores, allowing for comparisons with typically developing children of the same age. The scores obtained from the PEDI provide valuable information for treatment planning, monitoring progress, and measuring functional outcomes in children with CP.
 
=== Gillette Functional Ability Questionnaire (FAQ) ===
The Gillette Functional Assessment Questionnaire (FAQ) is a widely used assessment tool designed to evaluate the functional abilities and limitations of children with CP, providing valuable insights of functional performance and participation in daily activities. <ref name="p8" /> The questionnaire covers a wide range of activities that are relevant to a child's daily life, such as dressing, bathing, eating, walking, and interacting with others. It allows parents, caregivers, and healthcare professionals to provide information about the child's functional performance and challenges they may face in different contexts.
 
One of the strengths of the FAQ is that no training or equipment is necessary to administer the 10-level, parent-reported questionnaire.  The results from the FAQ can guide treatment planning and intervention strategies. By identifying areas of functional difficulty, healthcare professionals can tailor interventions to address specific challenges and optimise a child's functional performance. It also helps in setting realistic goals and monitoring progress throughout the intervention process. <ref name="p5" /><ref name="p6" />
 
=== Goal Attainment Scaling (GAS) ===
Goal Attainment Scaling (GAS): GAS is a method of scoring the extent to which patients' individual goals are achieved in the course of intervention. In cerebral palsy, it can be used to assess the effectiveness of interventions like botulinum toxin A injections, selective dorsal rhizotomy, and intrathecal baclofen therapy.<ref>Steenbeek D, Ketelaar M, Galama K, Gorter JW. Goal attainment scaling in paediatric rehabilitation: a critical review of the literature. Developmental Medicine & Child Neurology. 2007 Jul;49(7):550-6.</ref>During the intervention period, progress toward each goal is monitored and rated using the predefined scaling system. This rating is based on objective and subjective criteria related to the specific goal. The ratings can be performed by the healthcare professional, the child, and/or their family, ensuring a collaborative and holistic approach to goal assessment.<ref name="p9" /><ref name="p0" /><ref name="p1" />
 
GAS involves a structured process that starts with the identification of meaningful and functional goals based on the child's unique needs and abilities. These goals can encompass various domains, such as mobility, self-care, communication, and participation in daily activities. The goals should be specific, measurable, achievable, relevant, and time-bound (SMART).
 
One of the key strengths of GAS is its ability to capture individualised changes in functional abilities, even when traditional assessment tools may not be sensitive to subtle improvements. By focusing on personalised goals, GAS allows for the evaluation of meaningful progress that is specific to the child's unique circumstances and needs.&nbsp;
 
== Cerebral Palsy Quality of Life Questionnaire (CP QOL)  ==
The Cerebral Palsy Quality of Life Questionnaire (CPQOL) is a widely used assessment tool designed to evaluate the quality of life of children with cerebral palsy. It provides valuable insights into the child's physical, psychological, and social well-being, helping healthcare professionals understand the impact of CP on their overall quality of life. It includes child self-report and primary caregiver proxy report forms.<ref>Waters E, Davis E, Mackinnon A, Boyd R, Graham HK, Kai Lo S, Wolfe R, Stevenson R, Bjornson K, Blair E, Hoare P. Psychometric properties of the quality of life questionnaire for children with CP. Developmental Medicine & Child Neurology. 2007 Jan;49(1):49-55.</ref>
 
The CPQOL is specifically tailored to the unique challenges and experiences faced by children with cerebral palsy. It encompasses a range of domains that are important for assessing quality of life, such as physical well-being, emotional well-being, social well-being, and participation in everyday activities.
 
The questionnaire consists of a series of questions or items that are rated by the child, parents, or caregivers. It captures various aspects of the child's life, including their physical abilities, pain and discomfort, emotional state, social relationships, and participation in activities at home, school, and within the community.
 
The CPQOL offers a standardised and reliable approach to assessing quality of life in children with cerebral palsy. It allows for the comparison of individual scores with normative data, enabling healthcare professionals to identify areas of strength and areas where additional support may be needed.
 
The assessment results from the CPQOL can guide treatment planning, intervention strategies, and support services. By identifying specific areas of concern or reduced quality of life, healthcare professionals can develop targeted interventions to address those challenges and improve the child's overall well-being.


An integral part of evaluating clinical practice is to objectively assess the intervention and measure it against a set of outcomes to determine its efficacy. Prior to determining any orthotic intervention, the careful choice of treatment goals and aims is essential in children with complex neuromuscular disability in order to identify and determine appropriate outcome measures.[1] This means the therapist can ensure they are providing the most appropriate intervention that meets the treatment goals and expectations of the child, parent/caregiver and the clinical team. <br>Change is inevitable in growing and developing children with Cerebral Palsy and the change that occurs is nonlinear and variable by subset of Cerebral Palsy.[2] The outcomes of interventions should be based on the expectations for children with Cerebral Palsy of the same age and gross motor function, rather than the established norms for children without developmental delays.[3] Selecting the appropriate outcome measures can be used to establish more efficient and effective methods of intervention for children with varying presentations of Cerebral Palsy.[4] The elements that constitute effective outcome measures include:
It is important to note that the CPQOL should be used in conjunction with other assessments, clinical observations, and professional judgment to gain a comprehensive understanding of a child's quality of life.  


1. Reliability: measures are constant over time and when used by different raters. [1, 5]<br>2. Validity: appropriate to assess what the clinician or researcher wants to assess in a manner that makes intrinsic sense. [1, 5]<br>3. Specificity: the ability to distinguish between the presence or absence of a certain condition in people. [1, 5]<br>4. Responsiveness: the ability to detect minimal, but clinically relevant changes. [1, 5]
=== Peabody Developmental Motor Scales-2 (PDMS-2) ===
The Peabody Developmental Motor Scales (PDMS) is a widely used assessment tool designed to evaluate the motor development and motor skills of children, including those with cerebral palsy (CP). It provides valuable insights into a child's gross and fine motor abilities, helping healthcare professionals understand their motor functioning and identify areas of strength and challenge.


The International Classification of Function, Disability and Health (ICF) is the World Health Organization's framework for measuring health and disability at both individual and population levels. The ICF has shifted the focus of the impairments in children with CP from restriction in joint ROM or abnormal muscle tone to the evaluation of functions by assessing the quantitative and qualitative aspects of a child’s Activities of Daily Living (ADL). [6] It states that the focus of rehabilitation should be shifted from identifying a person’s disability to focusing on enhancing a person’s function, ability and performance quality for each individual in a contextual manner. The ICF identified domains that should be evaluated in children with CP to include body function and structure, activity and participation. A consensus-based survey of clinicians, parents and youth with CP supported these domains as relevant to the evaluation of all health care interventions in children with CP. [7]<br>
The PDMS assesses two primary domains: gross motor skills and fine motor skills. The gross motor skills domain focuses on activities that involve large muscle groups and overall coordination, such as crawling, walking, jumping, and balance. The fine motor skills domain evaluates more precise and intricate movements, including hand-eye coordination, grasping, and manipulation of objects.


The primary goal of orthotic treatment of ambulant children with CP (GMFCS I-III) is to optimise their gait. This is with the expectation that it will preserve or improve their physical function and provide them with the ability to increase their participation in physical activities, recreation and sport. [8] Evaluating orthotic intervention requires the use of outcome measures that will not only assess the function and quality of walking, but also the health related quality of life. Quality of life is frequently used as a ‘catch all’ expression for any self-reported measure, even when the instrument is capturing information objectively verifiable as functional ability, activities or participation. [9] <br>
The PDMS uses a combination of standardised tasks and observations to assess a child's motor skills. The assessment tasks vary depending on the age of the child being evaluated, ensuring that the assessment is developmentally appropriate and comprehensive. In addition to its diagnostic and assessment purposes, the PDMS can also assist in treatment planning. By identifying specific motor challenges, healthcare professionals can develop targeted interventions and therapy approaches to address those challenges and promote motor development.


Clinician Reported Outcome Measures (CROMs) used in the literature to evaluate the efficacy of orthoses and specifically AFOs for children with CP include the Timed Up and Go test (TUG), the 88 and 66 item Gross Motor Function Measure (GMFM-88 and GMFM-66 respectively), Gross Motor Performance Measure (GMPM), Clinical Gait Assessment Score (CGAS), Pediatric Balance Scale (PBS) and the Standardised Walking Obstacle Course (SWOC). All of these outcome measures have been proven to be valid and reliable to evaluate motor function and performance in children with CP. [10-15]<br>
=== Pediatric Outcomes Data Collection Instrument (PODCI) ===
s a parent-report outcome measure specifically designed to assess the functional health status and quality of life of children with various musculoskeletal conditions, including cerebral palsy (CP). The PODCI provides valuable insights into a child's physical function, pain, and overall well-being as reported by their parents or caregivers. <ref name="p8" />&nbsp;


The TUG is a basic test of functional mobility that evaluates an individual's ability to manoeuvre his or her body capably and independently to accomplish everyday tasks.[16] The standard TUG test requires a child to rise from a seat with assistance of their arms and where the knees are flexed at 90°, stand momentarily, walk 3m, turn, return to the same seat, and sit down.[17] Statistically significant differences in TUG scores have been observed in children across the GMFCS levels I-III, meaning it can act as a predictor of gross motor function.[16, 18] The TUG has displayed excellent reliability, validity and repeatability in children aged 3-18 years who can understand instructions and do not have cognitive deficits.[16, 18] It is an outcome measure that can quickly and easily evaluate the common orthotic treatment goal of improving the efficiency of gait and also has the potential to monitor change over time. It is also possible to employ the TUG in the child’s own environment, closely aligning with values of the ICF domains. <br>
The PODCI consists of several sub-scales that assess different aspects of a child's health-related quality of life, including upper extremity function, mobility, pain/comfort, and happiness. Each sub-scale includes a series of questions that capture the parent's perceptions of their child's functional abilities, limitations, and overall well-being. <ref name="p3" />The sensitivity of the PODCI in evaluating post-surgery and and the effects of orthotic intervention can vary depending on the specific context and individual circumstances. <ref name="p8" />&nbsp;<ref name="p3" />&nbsp;


The Gross Motor Functional Measure (GMFM) is a criterion-referenced measure expressly constructed for the purpose of assessing capacity to perform specific functions and evaluate change in the gross motor function of children with CP.[3] The GMFM-88 and 66 item tools were especially developed to assess the gross motor function in children with CP and are among the few outcome measures that have displayed sensitivity to change when evaluating orthotic intervention. There have also been strong correlations established between a child’s GMFCS level and the scores attained in the GMFM sections D and E.[19] A large study with 257 participants conducted by Russell et al.[20], described the ‘D’ dimension of standing and ‘E’ dimension of walking, running and jumping of the GMFM to be sensitive to functional change in children with CP when using AFOs. <br>
=== Timed Up and Go (TUG) ===
The Timed Up and Go (TUG) test is a commonly used outcome measure to assess functional mobility and balance in various populations, including children with cerebral palsy (CP). The TUG test evaluates the time it takes for a child to stand up from a seated position, walk a short distance, turn around, and return to a seated position.<ref name="p6" /> The TUG test provides valuable information on a child's functional mobility, dynamic balance, and agility. It assesses their ability to perform daily activities that involve transitions, walking, and turning, which are essential for independence and participation in various environments.  


The 88 and 66 item GMFM cover the five dimensions of lying and rolling, sitting, crawling and kneeling, standing, and walking running and jumping. Administering the full five dimensions of the GMFM 88 or 66 item scales is a time consuming process, often taking in excess of 45 minutes, which means clinical utility is often low. The particular dimensions ‘D’ and ‘E’ of the GMFM may be assessed separately when evaluating a specific area of function in order to save time, while still retaining reliability, validity and sensitivity of the full measure. However, after 5 years of age, changes in a child’s motor abilities are more related to developing and refining motor functions in specific environments, rather than the development of basic gross motor skills.[1] Ceiling effects have been identified in older or more able children assessed with the GMFM.[21] This may explain why some studies described larger improvements in gross motor function in children younger than 5 years of age when compared with older children. <br>
In the TUG test, a child begins in a seated position on a chair or other designated surface. They are instructed to stand up, walk a specific distance (usually three meters or ten feet), turn around, and return to the seated position. The time taken to complete the task is recorded.<ref name="p7" />


While CROMs are very good at assessing the ICF domain of body function and structure, they do not necessarily correlate with the components of function in the ICF domains of activity and participation. An important feature of outcome measures is the extent to which they reflect a person’s activity in everyday life. Environmental factors influence health conditions such as CP and these factors can have an impact on the performance of activities.[22] A Patient Reported Outcome Measure (PROM) such as the Pediatric Outcomes Data Collection Instrument (PODCI), the Pediatric Evaluation of Disability Inventory (PEDI) or Gillette Functional Assessment Questionnaire (FAQ), permits the child and family to provide information from their own everyday environment that relates not only to the function of the child’s gait but also to quality of life issues. It is not always possible for healthcare professionals to observe children in their own environment, which makes the PROM a powerful and valuable evaluation tool.<br>
For children with cerebral palsy, the TUG test can be used to evaluate changes in functional mobility and balance following interventions, therapies, or treatments. By comparing pre- and post-intervention 


The PODCI is a parent-reported outcome measure that assesses the mobility, physical function, comfort, happiness and expectations of the healthcare interventions in children with musculoskeletal health issues.[8] In accordance with the ICF values, it not only focuses on assessing function and performance following healthcare interventions, but also evaluates quality of life issues. The PODCI has good reliability and validity when evaluating quality of life issues and walking function in children with CP, but does have floor and ceiling effects in the transfer and mobility scales.[13, 23] It demonstrates only a modest sensitivity to detect changes of walking function in children with CP following orthopaedic surgery as the scoring system is considered too expansive to detect subtle changes.[8, 23] Lee et al. [23] found statistically significant improvements in PODCI scores following orthopaedic surgery, but only minimal clinically relevant results. This may mean the PODCI may not be sensitive enough to evaluate the effects of orthotic intervention on mobility and provide results that are clinically relevant. <br>
== Importance of Evaluating Outcome Measures ==
Evaluating the reliability, validity, specificity, and responsiveness of outcome measures related to cerebral palsy (CP) is of paramount importance in ensuring accurate and meaningful assessment outcomes.<ref name=":0">Terwee CB, Bot SD, de Boer MR, van der Windt DA, Knol DL, Dekker J, Bouter LM, de Vet HC. Quality criteria were proposed for measurement properties of health status questionnaires. Journal of clinical epidemiology. 2007 Jan 1;60(1):34-42.</ref> These considerations are essential for determining the usefulness and applicability of outcome measures in CP rehabilitation.<ref>Hanna SE, Rosenbaum PL, Bartlett DJ, Palisano RJ, Walter SD, Avery L, Russell DJ. Stability and decline in gross motor function among children and youth with cerebral palsy aged 2 to 21 years. Developmental Medicine & Child Neurology. 2009 Apr;51(4):295-302.</ref>  


The PEDI is a parent reported outcome measure administered by a clinician that has shown to be reliable, repeatable and valid in children and adolescents with CP from ages 2-18 to evaluate motor function, self-care and participation.[1, 13] Its clinical relevance is further supported by evidence that motor skills are not necessarily representative of overall functional improvements following healthcare interventions as it assesses not only capability but also quality of performance.[1] The mobility scales in the PEDI have less detail than the GMFM scales. As a result, the PEDI demonstrates only moderate responsiveness to change in motor skills and should not be used in isolation to evaluate the ICF domain of body function and structure.[24] However, unlike the GMFM, it does have the advantage of being able to assess a child’s gross motor function in their everyday environment and is therefore more reflective of community function. Despite the PEDI being a patient-reported outcome measure, it still requires a trained healthcare professional to administer the evaluation. The PEDI covers the broad range of motor function, self-care and participation and is very thorough. It can take more than 30 minutes to complete, which may take up already valuable clinical time. <br>
* '''Reliability''': Reliability ensures consistent results when an outcome measure is administered multiple times under similar conditions. High reliability minimises measurement error and accurately reflects an individual's true abilities.<ref>De Vet HC, Terwee CB, Mokkink LB, Knol DL. Measurement in medicine: a practical guide. Cambridge university press; 2011 Aug 11.</ref>
* '''Validity''': Validity ensures that an outcome measure accurately captures the targeted constructs or domains of interest. Establishing validity requires evidence-based validation studies that evaluate the measure's ability to assess what it intends to measure .<ref>Streiner DL, Norman GR, Cairney J. Health measurement scales: a practical guide to their development and use. Oxford University Press, USA; 2015.</ref>
* '''Specificity''': Specificity refers to an outcome measure's ability to detect changes in specific aspects of CP. Measures with high specificity focus on relevant domains or functions, allowing for the identification of even subtle improvements or deteriorations.<ref>Haley SM, Ludlow LH, Coster WJ. Pediatric Evaluation of Disability Inventory: clinical interpretation of summary scores using Rasch rating scale methodology. Physical Medicine and Rehabilitation Clinics of North America. 1993 Aug 1;4(3):529-40.</ref>
* '''Responsiveness''': Responsiveness indicates an outcome measure's ability to detect meaningful changes over time. A responsive measure should be sensitive enough to detect even small changes in functional abilities, accurately reflecting progress or decline.<ref name=":0" />


By thoroughly evaluating reliability, validity, specificity, and responsiveness in outcome measures, healthcare professionals can confidently select appropriate measures that capture the complexities of CP and reliably track progress.<ref name="p3" />


</div>
== References ==
<references />
[[Category:Cerebral_Palsy]]
[[Category:Outcome Measures]]
[[Category:Cerebral Palsy Outcome Measures]]
[[Category:ICRC Cerebral Palsy Content Development Project]]

Latest revision as of 10:20, 2 November 2023

This article is currently under review and may not be up to date. Please come back soon to see the finished work!!

Original Editor - Kim Jackson as part ICRC Cerebral Palsy Content Development Project.

Top Contributors - Naomi O'Reilly, Kim Jackson, WikiSysop, Rucha Gadgil, 127.0.0.1, Jess Bell and Olajumoke Ogunleye  

Introduction[edit | edit source]

Cerebral palsy (CP) is a group of permanent disorders of the development of movement and posture, causing activity limitation, that are attributed to non-progressive disturbances that occurred in the developing foetal or infant brain (Rosenbaum et al., 2007). Rehabilitation in cerebral palsy focuses on promoting mobility, functional independence, and quality of life through various therapeutic strategies. In order to be able to provide quantifiable data on functional changes over time, it is important to use outcome measures, to track progress, modify interventions, and demonstrate the impact of therapy to patients, families, and healthcare systems.

Outcome Measures[edit | edit source]

An Outcome Measure is the result of a test that is used to objectively determine the baseline function of a patient at the beginning of treatment. Once treatment has commenced, the same instrument can be used to determine progress and treatment efficacy. With the move towards Evidence Based Practice (EBP) in the health sciences, objective measures of outcome are important to provide credible and reliable justification for treatment. The instrument should also be convenient to apply for the therapist and comfortable for the patient. An integral part of evaluating clinical practice is to objectively assess the intervention and measure it against a set of outcomes to determine its efficacy. Prior to determining any orthotic intervention, the careful choice of treatment goals and aims is essential in children with complex neuromuscular disability in order to identify and determine appropriate outcome measures.[1] 

Outcome measures can assess various dimensions, including motor skills, functional independence, quality of life, participation in daily activities, and specific impairments like spasticity or dysarthria. Outcome measures:

  • Enhance Treatment Planning and Decision-Making: Outcome measures contribute to individualised treatment planning by providing valuable insights into a patient's functional abilities and limitations. The Gross Motor Function Classification System (GMFCS) is widely used in CP rehabilitation and helps clinicians establish baseline assessments, set realistic goals, and monitor progress over time .[2] Such data-driven approaches empower clinicians to make informed treatment decisions and optimise outcomes.
  • Facilitate Interprofessional Collaboration: CP rehabilitation often involves a multidisciplinary team. Standardised outcome measures act as a common language, facilitating communication and collaboration among healthcare professionals. For instance, the Manual Ability Classification System (MACS) evaluates upper limb function and assists clinicians from various disciplines in sharing and interpreting assessment results.[3] This collaborative approach supports a comprehensive and coordinated care plan.
  • Monitor Progress and Evaluate Treatment Efficacy: Regular assessment of functional abilities is crucial for monitoring progress and evaluating the effectiveness of interventions. The Paediatric Evaluation of Disability Inventory (PEDI) assesses functional capabilities in self-care, mobility, and social function domains.[4] By utilising such measures, clinicians can track changes in performance, identify the impact of interventions, and optimise outcomes for individuals with CP.

Clinician Reported Outcome Measures[edit | edit source]

Clinician-reported outcome measures (ClinROs) are an essential component of assessing and managing cerebral palsy (CP). They provide an objective and standardised method for clinicians to evaluate the impact of interventions and track progress over time. Examples include the Timed Up and Go test (TUG), the 88 and 66 item Gross Motor Function Measure (GMFM-88 and GMFM-66 respectively), Gross Motor Performance Measure (GMPM), Clinical Gait Assessment Score (CGAS), Pediatric Balance Scale (PBS) and the Standardised Walking Obstacle Course (SWOC). These outcome measures have been proven to be valid and reliable to evaluate motor function and performance in children and the choice should be based on the specific context and objectives of the assessment. [5] [1] [6] [7] [8] [9]

Patient Reported Outcome Measures[edit | edit source]

A Patient Reported Outcome Measure (PROM) such as the Paediatric Outcomes Data Collection Instrument (PODCI), the Pediatric Evaluation of Disability Inventory (PEDI) or Gillette Functional Assessment Questionnaire (FAQ), permits the child and family to provide information from their own everyday environment that relates not only to the function of the child’s gait but also to quality of life issues. It is not always possible for healthcare professionals to observe children in their own environment, which makes the PROM a powerful and valuable evaluation tool.

The PODCI is a parent-reported outcome measure that assesses the mobility, physical function, comfort, happiness and expectations of the healthcare interventions in children with musculoskeletal health issues. [10] In accordance with the ICF values, it not only focuses on assessing function and performance following healthcare interventions, but also evaluates quality of life issues. The PODCI has good reliability and validity when evaluating quality of life issues and walking function in children with Cerebral PalsyP, but does have floor and ceiling effects in the transfer and mobility scales. [7] [7] It demonstrates only a modest sensitivity to detect changes of walking function in children with CP following orthopaedic surgery as the scoring system is considered too expansive to detect subtle changes. [10] [7] Lee et al. [7] found statistically significant improvements in PODCI scores following orthopaedic surgery, but only minimal clinically relevant results. This may mean the PODCI may not be sensitive enough to evaluate the effects of orthotic intervention on mobility and provide results that are clinically relevant.

The International Classficiation of Function, Disability and Health[edit | edit source]

The International Classification of Function, Disability and Health (ICF) is the World Health Organization's framework for measuring health and disability at both individual and population levels. The ICF has shifted the focus of the impairments in children with Cerebral Palsy from restriction in joint ROM or abnormal muscle tone to the evaluation of functions by assessing the quantitative and qualitative aspects of a child’s Activities of Daily Living (ADL). [11] It states that the focus of rehabilitation should be shifted from identifying a person’s disability to focusing on enhancing a person’s function, ability and performance quality for each individual in a contextual manner. The ICF identified domains that should be evaluated in children with Cerebral Palsy to include body function and structure, activity and participation. A consensus-based survey of clinicians, parents and youth with Cerebral Palsy supported these domains as relevant to the evaluation of all health care interventions in children with Cerebral Palsy. [12]

The primary goal of orthotic treatment of ambulant children with CP (GMFCS I-III) is to optimise their gait. This is with the expectation that it will preserve or improve their physical function and provide them with the ability to increase their participation in physical activities, recreation and sport. [10] Evaluating orthotic intervention requires the use of outcome measures that will not only assess the function and quality of walking, but also the health related quality of life. Quality of life is frequently used as a ‘catch all’ expression for any self-reported measure, even when the instrument is capturing information objectively verifiable as functional ability, activities or participation. [13]

Given the heterogeneous nature of the Cerebral Palsy population, the goals of rehabilitation are often widely distributed across the ICF domains. This may result in problems interpreting the outcome when using standardised outcome measures alone. [12] [10] Items in a standardised outcome measure may not match the individual treatment goals and even if they do, the outcome may not necessarily represent goal attainment.

Outcome Measures for Children with Cerebral Palsy[edit | edit source]

When choosing outcome measures it is important to focus on the expectations for children with CP of the same age and gross motor function, rather than those for children without developmental delays.[7][8]Although some of these measures can be used independently many should be used in conjunction with other tools to ensure that all needs are met.

Bayley Scales of Infant and Toddler Development[edit | edit source]

The Bayley Scales of Infant and Toddler Development (Bayley-III) is a widely used assessment tool designed to evaluate the developmental functioning of infants and young children. It plays a significant role in assessing children with cerebral palsy and provides valuable insights into their cognitive, language, motor, and socio-emotional development.

The Bayley-III is relevant for children with CP to assess developmental delays and identify specific areas of impairment. It can assist in treatment planning and intervention strategies by identifying areas of strength and weakness. The assessment results can guide clinicians in setting realistic goals and monitoring progress over time.

One notable feature of the Bayley-III is its ability to assess different domains of development. The cognitive scale assesses problem-solving, memory, and early academic skills. The language scale evaluates expressive and receptive language abilities. The motor scale examines fine and gross motor skills, including reaching, grasping, sitting, and walking. Finally, the socio-emotional scale explores social interactions, emotional regulation, and behaviour.

Gross Motor Function Measure[edit | edit source]

The Gross Motor Function Measure (GMFM) is a widely employed assessment tool that provides both objective and quantitative data on motor function. It is used to evaluate the gross motor abilities and functional limitations of children with cerebral palsy (CP). It assists in establishing a baseline assessment, setting functional goals, and monitoring progress over time. The measure is sensitive to changes in motor skills and can be used to track improvements resulting from therapy interventions or surgical interventions.[7]

There are two versions of the GMFM commonly used: GMFM-66 and GMFM-88. Both versions consist of a series of standardized motor skills tasks that assess a child's ability to perform various gross motor activities. These activities range from lying and rolling to walking, running, and jumping, depending on the child's age and functional level.[14]

  • The GMFM-66 is the original version of the measure and assesses 66 motor skills across five dimensions: lying and rolling, sitting, crawling and kneeling, standing, and walking, running, and jumping. Each skill is scored on a four-point scale, ranging from 0 (does not initiate) to 3 (performs fully).[15]
  • The GMFM-88 is an expanded version of the GMFM-66 and includes an additional 22 motor skills tasks, resulting in a total of 88 items. This version provides a more comprehensive assessment of gross motor function and allows for a finer-grained analysis of a child's abilities across a broader range of motor skills.[16]

Paediatric Evaluation of Disability Inventory (PEDI)[edit | edit source]

The PEDI is a comprehensive tool for evaluating function in children with disabilities. It assesses three domains: self-care, mobility, and social function.[4]These domains encompass a wide range of activities and skills that are essential for a child's independence and participation in daily activities. The self-care domain includes tasks such as dressing, eating, and personal hygiene. The mobility domain focuses on activities related to mobility, such as walking, climbing stairs, and using transportation. The social function domain evaluates a child's interactions with others, play skills, and participation in social activities.

The PEDI uses both interview and observational methods to gather information from multiple sources, including parents, caregivers, and healthcare professionals. This comprehensive approach ensures a holistic understanding of a child's functional abilities and limitations across different settings and situations.​

One of the key strengths of the PEDI is its ability to provide standardised scores, allowing for comparisons with typically developing children of the same age. The scores obtained from the PEDI provide valuable information for treatment planning, monitoring progress, and measuring functional outcomes in children with CP.

Gillette Functional Ability Questionnaire (FAQ)[edit | edit source]

The Gillette Functional Assessment Questionnaire (FAQ) is a widely used assessment tool designed to evaluate the functional abilities and limitations of children with CP, providing valuable insights of functional performance and participation in daily activities. [10] The questionnaire covers a wide range of activities that are relevant to a child's daily life, such as dressing, bathing, eating, walking, and interacting with others. It allows parents, caregivers, and healthcare professionals to provide information about the child's functional performance and challenges they may face in different contexts.

One of the strengths of the FAQ is that no training or equipment is necessary to administer the 10-level, parent-reported questionnaire. The results from the FAQ can guide treatment planning and intervention strategies. By identifying areas of functional difficulty, healthcare professionals can tailor interventions to address specific challenges and optimise a child's functional performance. It also helps in setting realistic goals and monitoring progress throughout the intervention process. [9][11]

Goal Attainment Scaling (GAS)[edit | edit source]

Goal Attainment Scaling (GAS): GAS is a method of scoring the extent to which patients' individual goals are achieved in the course of intervention. In cerebral palsy, it can be used to assess the effectiveness of interventions like botulinum toxin A injections, selective dorsal rhizotomy, and intrathecal baclofen therapy.[17]During the intervention period, progress toward each goal is monitored and rated using the predefined scaling system. This rating is based on objective and subjective criteria related to the specific goal. The ratings can be performed by the healthcare professional, the child, and/or their family, ensuring a collaborative and holistic approach to goal assessment.[13][5][1]

GAS involves a structured process that starts with the identification of meaningful and functional goals based on the child's unique needs and abilities. These goals can encompass various domains, such as mobility, self-care, communication, and participation in daily activities. The goals should be specific, measurable, achievable, relevant, and time-bound (SMART).

One of the key strengths of GAS is its ability to capture individualised changes in functional abilities, even when traditional assessment tools may not be sensitive to subtle improvements. By focusing on personalised goals, GAS allows for the evaluation of meaningful progress that is specific to the child's unique circumstances and needs. 

Cerebral Palsy Quality of Life Questionnaire (CP QOL)[edit | edit source]

The Cerebral Palsy Quality of Life Questionnaire (CPQOL) is a widely used assessment tool designed to evaluate the quality of life of children with cerebral palsy. It provides valuable insights into the child's physical, psychological, and social well-being, helping healthcare professionals understand the impact of CP on their overall quality of life. It includes child self-report and primary caregiver proxy report forms.[18]

The CPQOL is specifically tailored to the unique challenges and experiences faced by children with cerebral palsy. It encompasses a range of domains that are important for assessing quality of life, such as physical well-being, emotional well-being, social well-being, and participation in everyday activities.

The questionnaire consists of a series of questions or items that are rated by the child, parents, or caregivers. It captures various aspects of the child's life, including their physical abilities, pain and discomfort, emotional state, social relationships, and participation in activities at home, school, and within the community.

The CPQOL offers a standardised and reliable approach to assessing quality of life in children with cerebral palsy. It allows for the comparison of individual scores with normative data, enabling healthcare professionals to identify areas of strength and areas where additional support may be needed.

The assessment results from the CPQOL can guide treatment planning, intervention strategies, and support services. By identifying specific areas of concern or reduced quality of life, healthcare professionals can develop targeted interventions to address those challenges and improve the child's overall well-being.

It is important to note that the CPQOL should be used in conjunction with other assessments, clinical observations, and professional judgment to gain a comprehensive understanding of a child's quality of life.

Peabody Developmental Motor Scales-2 (PDMS-2)[edit | edit source]

The Peabody Developmental Motor Scales (PDMS) is a widely used assessment tool designed to evaluate the motor development and motor skills of children, including those with cerebral palsy (CP). It provides valuable insights into a child's gross and fine motor abilities, helping healthcare professionals understand their motor functioning and identify areas of strength and challenge.

The PDMS assesses two primary domains: gross motor skills and fine motor skills. The gross motor skills domain focuses on activities that involve large muscle groups and overall coordination, such as crawling, walking, jumping, and balance. The fine motor skills domain evaluates more precise and intricate movements, including hand-eye coordination, grasping, and manipulation of objects.

The PDMS uses a combination of standardised tasks and observations to assess a child's motor skills. The assessment tasks vary depending on the age of the child being evaluated, ensuring that the assessment is developmentally appropriate and comprehensive. In addition to its diagnostic and assessment purposes, the PDMS can also assist in treatment planning. By identifying specific motor challenges, healthcare professionals can develop targeted interventions and therapy approaches to address those challenges and promote motor development.

Pediatric Outcomes Data Collection Instrument (PODCI)[edit | edit source]

s a parent-report outcome measure specifically designed to assess the functional health status and quality of life of children with various musculoskeletal conditions, including cerebral palsy (CP). The PODCI provides valuable insights into a child's physical function, pain, and overall well-being as reported by their parents or caregivers. [10] 

The PODCI consists of several sub-scales that assess different aspects of a child's health-related quality of life, including upper extremity function, mobility, pain/comfort, and happiness. Each sub-scale includes a series of questions that capture the parent's perceptions of their child's functional abilities, limitations, and overall well-being. [7]The sensitivity of the PODCI in evaluating post-surgery and and the effects of orthotic intervention can vary depending on the specific context and individual circumstances. [10] [7] 

Timed Up and Go (TUG)[edit | edit source]

The Timed Up and Go (TUG) test is a commonly used outcome measure to assess functional mobility and balance in various populations, including children with cerebral palsy (CP). The TUG test evaluates the time it takes for a child to stand up from a seated position, walk a short distance, turn around, and return to a seated position.[11] The TUG test provides valuable information on a child's functional mobility, dynamic balance, and agility. It assesses their ability to perform daily activities that involve transitions, walking, and turning, which are essential for independence and participation in various environments.

In the TUG test, a child begins in a seated position on a chair or other designated surface. They are instructed to stand up, walk a specific distance (usually three meters or ten feet), turn around, and return to the seated position. The time taken to complete the task is recorded.[12]

For children with cerebral palsy, the TUG test can be used to evaluate changes in functional mobility and balance following interventions, therapies, or treatments. By comparing pre- and post-intervention

Importance of Evaluating Outcome Measures[edit | edit source]

Evaluating the reliability, validity, specificity, and responsiveness of outcome measures related to cerebral palsy (CP) is of paramount importance in ensuring accurate and meaningful assessment outcomes.[19] These considerations are essential for determining the usefulness and applicability of outcome measures in CP rehabilitation.[20]

  • Reliability: Reliability ensures consistent results when an outcome measure is administered multiple times under similar conditions. High reliability minimises measurement error and accurately reflects an individual's true abilities.[21]
  • Validity: Validity ensures that an outcome measure accurately captures the targeted constructs or domains of interest. Establishing validity requires evidence-based validation studies that evaluate the measure's ability to assess what it intends to measure .[22]
  • Specificity: Specificity refers to an outcome measure's ability to detect changes in specific aspects of CP. Measures with high specificity focus on relevant domains or functions, allowing for the identification of even subtle improvements or deteriorations.[23]
  • Responsiveness: Responsiveness indicates an outcome measure's ability to detect meaningful changes over time. A responsive measure should be sensitive enough to detect even small changes in functional abilities, accurately reflecting progress or decline.[19]

By thoroughly evaluating reliability, validity, specificity, and responsiveness in outcome measures, healthcare professionals can confidently select appropriate measures that capture the complexities of CP and reliably track progress.[7]

References[edit | edit source]

  1. 1.0 1.1 1.2 Debuse D, Brace H. Outcome measures of activity for children with cerebral palsy: a systematic review. Pediatr Phys Ther. 2011 Fall;23(3):221-31
  2. Palisano RJ, Rosenbaum P, Bartlett D, Livingston MH. Content validity of the expanded and revised Gross Motor Function Classification System. Developmental Medicine & Child Neurology. 2008 Oct;50(10):744-50.
  3. Eliasson AC, Krumlinde-Sundholm L, Rösblad B, Beckung E, Arner M, Öhrvall AM, Rosenbaum P. The Manual Ability Classification System (MACS) for children with cerebral palsy: scale development and evidence of validity and reliability. Developmental medicine and child neurology. 2006 Jul;48(7):549-54.
  4. 4.0 4.1 Haley SM, Ludlow LH, Coster WJ. Pediatric Evaluation of Disability Inventory: clinical interpretation of summary scores using Rasch rating scale methodology. Physical Medicine and Rehabilitation Clinics of North America. 1993 Aug 1;4(3):529-40.
  5. 5.0 5.1 Yi SH, Hwang JH, Kim SJ, Kwon JY. Validity of pediatric balance scales in children with spastic cerebral palsy. Neuropediatrics. 2012 Dec;43(6):307-13
  6. Rosenbaum PL, Walter SD, Hanna SE, Palisano RJ, Russell DJ, Raina P, et al. Prognosis for gross motor function in cerebral palsy: creation of motor development curves. Jama. [Multicenter Study Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, P.H.S.]. 2002 Sep 18;288(11):1357-63
  7. 7.0 7.1 7.2 7.3 7.4 7.5 7.6 7.7 7.8 7.9 Palisano RJ, Hanna SE, Rosenbaum PL, Russell DJ, Walter SD, Wood EP, et al. Validation of a model of gross motor function for children with cerebral palsy. Phys Ther. [Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, P.H.S. Validation Studies]. 2000 Oct;80(10):974-85
  8. 8.0 8.1 Stanger M, Oresic S. Rehabilitation approaches for children with cerebral palsy: overview. J Child Neurol. [Review]. 2003 Sep;18 Suppl 1:S79-88
  9. 9.0 9.1 Jerosch-Herold C. An evidence-based approach to choosing outcome measures: a checklist for the critical appraisal of validity, reliability and responsiveness studies. British Journal of Occupational Therapy. 2005;68(8):347-53
  10. 10.0 10.1 10.2 10.3 10.4 10.5 10.6 Narayanan UG. Management of children with ambulatory cerebral palsy: an evidence-based review. J Pediatr Orthop. [Review]. 2012 Sep;32 Suppl 2:S172-81
  11. 11.0 11.1 11.2 World Health Organisation. International Classifiaction of Functioning, Disability and Health (ICF). Geneva, Switzerland: World Health Organization 2001
  12. 12.0 12.1 12.2 Vargus-Adams JN, Martin LK. Measuring what matters in cerebral palsy: a breadth of important domains and outcome measures. Arch Phys Med Rehabil. [Research Support, N.I.H., Extramural]. 2009 Dec;90(12):2089-95
  13. 13.0 13.1 Morris C, Kurinczuk JJ, Fitzpatrick R. Child or family assessed measures of activity performance and participation for children with cerebral palsy: a structured review. Child Care Health Dev. [Evaluation Studies]. 2005 Jul;31(4):397-407
  14. Russell DJ, Rosenbaum PL, Cadman DT, Gowland C, Hardy S, Jarvis S. The gross motor function measure: a means to evaluate the effects of physical therapy. Developmental Medicine & Child Neurology. 1989 Jun;31(3):341-52.
  15. Russell DJ, Avery LM, Walter SD, Hanna SE, Bartlett DJ, Rosenbaum PL, Palisano RJ, Gorter JW. Development and validation of item sets to improve efficiency of administration of the 66‐item Gross Motor Function Measure in children with cerebral palsy. Developmental Medicine & Child Neurology. 2010 Feb;52(2):e48-54.
  16. Russell DJ, Rosenbaum PL, Cadman DT, Gowland C, Hardy S, Jarvis S. The gross motor function measure: a means to evaluate the effects of physical therapy. Developmental Medicine & Child Neurology. 1989 Jun;31(3):341-52.
  17. Steenbeek D, Ketelaar M, Galama K, Gorter JW. Goal attainment scaling in paediatric rehabilitation: a critical review of the literature. Developmental Medicine & Child Neurology. 2007 Jul;49(7):550-6.
  18. Waters E, Davis E, Mackinnon A, Boyd R, Graham HK, Kai Lo S, Wolfe R, Stevenson R, Bjornson K, Blair E, Hoare P. Psychometric properties of the quality of life questionnaire for children with CP. Developmental Medicine & Child Neurology. 2007 Jan;49(1):49-55.
  19. 19.0 19.1 Terwee CB, Bot SD, de Boer MR, van der Windt DA, Knol DL, Dekker J, Bouter LM, de Vet HC. Quality criteria were proposed for measurement properties of health status questionnaires. Journal of clinical epidemiology. 2007 Jan 1;60(1):34-42.
  20. Hanna SE, Rosenbaum PL, Bartlett DJ, Palisano RJ, Walter SD, Avery L, Russell DJ. Stability and decline in gross motor function among children and youth with cerebral palsy aged 2 to 21 years. Developmental Medicine & Child Neurology. 2009 Apr;51(4):295-302.
  21. De Vet HC, Terwee CB, Mokkink LB, Knol DL. Measurement in medicine: a practical guide. Cambridge university press; 2011 Aug 11.
  22. Streiner DL, Norman GR, Cairney J. Health measurement scales: a practical guide to their development and use. Oxford University Press, USA; 2015.
  23. Haley SM, Ludlow LH, Coster WJ. Pediatric Evaluation of Disability Inventory: clinical interpretation of summary scores using Rasch rating scale methodology. Physical Medicine and Rehabilitation Clinics of North America. 1993 Aug 1;4(3):529-40.
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