The Effectiveness of Participation-focused Interventions on Body Functions of Youth With Physical Disabilities

Not Applicable

Completed

• Conditions: Muscular Dystrophies; Spina Bifida; Musculoskeletal Disorder; Cerebral Palsy
• Interventions: Behavioral: Engagement in 6-week community-based activity program

• Registration Number: NCT03851107
• Lead Sponsor: McGill University

Brief Summary

Youth with physical disabilities face greater restrictions to participation in community-based activities than their typically developing peers, which can lead to poor health outcomes. Emerging treatment approaches aimed at improving activity and participation have shifted from focusing only on impaired body functions towards the performance of functionally meaningful activities within the youth's natural environment. It is unclear, however, whether targeting intervention at the activity/participation level can, at the same time, result in improvement of personal functional skills (e.g., reaching) and body functions (e.g., range of motion) -components also important to address and maintain within the rehabilitation process. Together with key community-based stakeholders including youth/parents, clinicians, and policy-makers, the investigators plan, therefore, to examine whether engaging in a 6-week community based activity (e.g., joining a sledge hockey team, boccia) can lead to a significant improvement in three key body functions: motor, cognitive and affective functions. Eight participants with physical disabilities will take part in the study and engage in an activity program of their own choice. Changes in their body functions (e.g., movement-related functions, attention, behavior, mood) will be measured multiple times before, during and after the engagement in an individualized activity/program. Findings of this pilot study analyzed with input from key stakeholders can advance the investigators understanding about methods for testing complex and unique individual-based interventions. This can guide clinicians, families and policy-makers to select effective approaches that not only promote participation but can also facilitate additional (motor and mental) benefits from one single intervention. Such findings may also reduce the burdens on the healthcare system as well as on the youth and families.

Detailed Description

Youth with physical disabilities experience restrictions to participation in community-based activities, which can lead to poor health outcomes. Currently, activity-based treatment approaches that are client-centered and implemented in the youth's natural environment are considered recommended practice. It is unclear, however, whether targeting intervention at the activity and participation level (e.g. playing boccia) can result in improvement of body functions (e.g., joint mobility, balance) as well as in participation - two key outcomes of pediatric rehabilitation programs. Research suggests that the opportunity to practice therapist-prescribed exercise programs is positively associated with physical gains. However, the impact of participation in a chosen real-life activity that is meaningful to the youth on a range of body functions has not yet been established and effective methods for testing complex individual-based interventions and outcomes are lacking. With funding received from the Canadian Institutes of Health Research, the investigators have proven the effectiveness of the PREP intervention, i.e., Pathways and Resources for Engagement and Participation, in promoting youth participation in meaningful activities across two provinces. Using the PREP approach, the purpose of this pilot study is to 1) employ an interrupted time series (ITS) design in order to generate preliminary evidence on the effectiveness of participants engagement in a 6-week community-based activity program (e.g., team sledge hockey) on 3 body functions (i.e., motor, cognitive and affective) as well as on the performance of the selected activity. An 18-week interrupted time series design with multiple baselines across 8 participants with physical disabilities (e.g., cerebral palsy, spina bifida) will be employed. Each activity, individually selected by the participants, will be analyzed using the task analysis approach in order to identify the underlying body functions necessary for the chosen activity. These functions, i.e., motor (measured using the Spinal Alignment and Range of Motion Measure, the Functional Reach Test, the Trunk Impairment Scale and the Jamar dynamometer), cognitive and affective (using the Behavior Assessment System for Children), will then be measured multiple times throughout the entire study, resulting in overall 32 trajectories of change in body functions (8 participants X 3 body functions) and additional 8 trajectories representing change in activity performance (using the Canadian Occupational Performance Measure). Two experts will independently analyze each trajectory using visual inspection and an innovative analytical solution, i.e., a combination of segmented regression and mixed-effect modelling, will be performed to estimate the overall effectiveness of the intervention across participants. This interdisciplinary research team, including three researchers in the field of childhood disability (occupational therapy, physical therapy and pediatric medicine), has partnered with seven key stakeholders and will work collaboratively throughout the research process. This early study in the area will build knowledge about alternative clinical trials that can generate evidence applicable to practice. Findings can eventually inform decision-making by guiding clinicians, families and policy-makers in appraising the benefits of participation-based therapies on improving functional capacities and actual performance of meaningful life activities. Describing the multiple benefits potentially generated by one single intervention can facilitate the development of efficient youth-engaging therapies, and thereby contributing to the improvement of the provision of pediatric rehabilitation services.

Study Timeline

• Study Start: 2017-09-01
• Primary Completion: 2018-05-07
• Study Completion: 2018-05-07
• Study First Submitted: 2019-02-14
• Study First Submitted QC: 2019-02-20
• Study First Posted: 2019-02-22
• Results First Submitted: 2021-09-10
• Status Verified: 2021-12
• Results First Submitted QC: 2021-12-13
• Last Update Submitted: 2021-12-13
• Results First Posted: 2021-12-14
• Last Update Posted: 2021-12-14

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 8

Inclusion Criteria

• have a physical disability (e.g., cerebral palsy, spina bifida, musculoskeletal disorders, muscular dystrophy)
• restricted mobility, such as an inability to navigate all surfaces and stairs independently and safely without the use of aids, physical assistance or external support

Exclusion Criteria

• Youth who are recovering within the first year following a severe brain injury or an orthopedic surgery will be excluded, as their functional capacities are less likely to be stable.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
Community-based activity program	Engagement in 6-week community-based activity program	Engagement in 6-week community-based activity program

Primary Outcome Measures

Name	Time	Method
Change in Range of Motion Measure	This outcome will be assessed biweekly during the study (22 weeks): baseline (up to 6 time-points; up to 11wks) intervention (4 time-points; 8wks) and follow-up (1-point, 4wks). A regression line fitted all motor-related trajectories outcomes.	Measures motor body functions in terms of active/passive range of motion of lower and upper extremities. A score between 0 and 4 is calculated, with 4 being the most severe limitation in range of motion.; The raw motor scores obtained from this assessment was not analyzed separately. Instead, we converted all the motor-related scores to standardized scores to create an index for motor measures. To describe the change observed more accurately we combined the trajectories of all motor scores into a regression line to represent the average change for all motor measures. The results of this analysis are presented in primary outcome 7.
Change in Functional Reach Test	This outcome will be assessed biweekly during the study (22 weeks): baseline (up to 6 time-points; up to 11wks) intervention (4 time-points; 8wks) and follow-up (1-point, 4wks). A regression line fitted all motor-related trajectories outcomes.	Assesses motor body functions in terms of reaching. The maximum distance in inches the participant can reach forward while standing/sitting in a fixed position is measured: units: inches.; The raw motor scores obtained from this assessment was not analyzed separately. Instead, we converted all the motor-related scores to standardized scores to create an index for motor measures. To describe the change observed more accurately we combined the trajectories of all motor scores into a regression line to represent the average change for all motor measures. The results of this analysis are presented in primary outcome 7.
Change in Jamar Dynamometer Strength Test	This outcome will be assessed biweekly during the study (22 weeks): baseline (up to 6 time-points; up to 11wks) intervention (4 time-points; 8wks) and follow-up (1-point, 4wks). A regression line fitted all motor-related trajectories outcomes.	Measures motor body functions in terns of maximal grip strength; units: pounds of force. Scores range from 0 to 200 pounds.; The raw motor scores obtained from this assessment was not analyzed separately. Instead, we converted all the motor-related scores to standardized scores to create an index for motor measures. To describe the change observed more accurately we combined the trajectories of all motor scores into a regression line to represent the average change for all motor measures. The results of this analysis are presented in primary outcome 7.
Change in Trunk Impairment Scale	This outcome will be assessed biweekly during the study (22 weeks): baseline (up to 6 time-points; up to 11wks) intervention (4 time-points; 8wks) and follow-up (1-point, 4wks). A regression line fitted all motor-related trajectories outcomes.	Assesses trunk control and includes 3 sub-scales; static sitting balance, dynamic sitting balance and coordination. It contains 17 items rated on a 2-, 3- or 4-point scale. Total score Measure motor body functions in terms of trunk control. Total score ranges from 0 (low performance) to 23 (high performance).; The raw motor scores obtained from this assessment was not analyzed separately. Instead, we converted all the motor-related scores to standardized scores to create an index for motor measures. To describe the change observed more accurately we combined the trajectories of all motor scores into a regression line to represent the average change for all motor measures. The results of this analysis are presented in primary outcome 7.
Change in Canadian Occupational Performance Measure	This outcome will be assessed repeatedly throughout the phases of the study over a period of 18-weeks: baseline (8 time-points; 8 wks) intervention (6 time-points; 6 wks) and follow-up (2-points, 4 wks) resulting in a total of 16 data-points.	Canadian Occupational Performance Measure is a 10-point scale that measures activity performance. Score ranges from 1(unable to perform) to 10 (perform extremely well). A higher score represents higher perceived activity performance levels. A regression line was fitted to represent the average change for the 7 participants for performance (up to 22 observations).
Change in Behavioral Assessment System for Children	This outcome will be assessed repeatedly throughout the phases of the study of a period of 22 weeks: baseline (up to 11time-points; up to 11wks) intervention (8 time-points; 8wks) and follow-up (2-points, 4wks). A regression line fitted 22 observations.	The Behavioral Assessment System for Children, Third Edition is a valid and reliable 2-point and 4-point scale for evaluating 18 subscales of global mental and emotional functions. Subscales (e.g. anxiety, attention) include 7 to 13 items. T scores calculated using Pearson's Q-global testing system ranged from 0 to 120, with lower scores indicating higher cognitive and affective functions. Six subscales measuring attention problems, hyperactivity, anxiety, sense of inadequacy, self-esteem, somatization were measured. For each subscale, we plotted the repeated T scores and fitted it into a regression line to represent the average change across the 7 participants. We report the results of the two-level hierarchical models estimating the overall intervention effect size for each of the 6 cognitive and affective outcomes.
Change in Motor Outcomes	This outcome will be assessed repeatedly throughout the phases of the study: baseline (up to 6 time-points; up to 11 wks) intervention (4 time-points; 8 wks) and follow-up (1-points, 4 wks; ).	Change in motor outcomes was determined by changes in scores (converted to standardized scores according to participant's baseline values) of range of motion (ROM), trunk impairment scale (TIS), functional reach test and Jamar dynamometer strength test (description of each outcome and its scores are presented in outcomes 2-5).; We combined all motor-related trajectories outcomes into a regression line to represent the average change for all motor measures. A three-level hierarchical model was fitted, with observations nested within outcomes nested within participants. The results of the combined trajectories are presented (rather than the raw motor scores) as they are more suited to describe the change observed.

Trial Locations

Locations (1)

MAB-MACKAY Rehabilitation Center; 🇨🇦 Montreal, Quebec, Canada