Power Mobility Training for Young Children with Multiple, Severe Impairments: A Case Series

Families' Perceptions of Powered Mobility for Participation in Children With Spinal Muscular Atrophy Type 1: A Photovoice Study

BACKGROUND AND PURPOSE

Spinal muscular atrophy type 1 (SMA1) is a neuromuscular disorder that severely limits movement and autonomy in young children. Early powered mobility has proved to be a valuable intervention to promote participation, social engagement and emotional well-being. To understand the potential impact of powered mobility, it is critical to explore children and families' experiences with participatory methodologies, such as the photovoice method.

OBJECTIVES

To explore families' perceptions of powered mobility for participation in children with SMA Type 1, with a focus on emotional well-being, social engagement and accessibility.

METHODOLOGY

A qualitative descriptive study using the photovoice methodology was implemented, in which families documented their perceptions and experiences through photographs and reflective narratives over a period of 4 weeks. Children were encouraged to use a power mobility device in different activities in natural environments, after a training intervention of 12 weeks with power mobility. Families were asked to capture their experiences through photos and participate in different interviews to report their perceptions. Data was collected through photos documentation and during interviews.

SETTING AND PARTICIPANTS

This study was conducted in natural environments, home and community, in Spain. The participants were six children with SMA1 (aged 13-28 months) and their families.

KEY FINDINGS

Three major themes emerged: (1) Emotional and Social Engagement: Families reported that powered mobility enhanced children's confidence, emotional expression and ability to interact with family members and peers. (2) Barriers to Accessibility: Families encountered challenges such as limited home space, restricted public accessibility and the need for individualised adaptations. (3) Collaboration as a Key Factor: Parents emphasised the importance of collaboration with professionals in facilitating meaningful use of powered mobility.

INTERPRETATION

The findings align with previous research demonstrating the benefits of powered mobility in promoting independence, social interaction and participation. However, this study also highlights persistent environmental barriers that continue to limit full social inclusion. Addressing these challenges is crucial to maximising mobility-related gains.

CONCLUSIONS AND IMPLICATIONS

This study highlights the importance of addressing accessibility barriers and promoting interdisciplinary collaboration to maximise the benefits of powered mobility for children with SMA1. Incorporating participatory methodologies such as photovoice provides a powerful means for families to voice their experiences and advocate for inclusive mobility solutions.

PATIENT OR PUBLIC CONTRIBUTION

Families were actively involved in multiple stages of the study, including its design, data collection and interpretation and dissemination of the results. Using the photovoice method, parents documented their children's experiences with powered mobility through photographs and comments, highlighting both benefits and challenges. Their input was crucial in identifying real-life barriers and needs, ensuring that the study reflected the authentic experiences of families navigating powered mobility. Additionally, they provided valuable insights during interviews, contributing to a deeper understanding of the emotional, social and practical impacts of the intervention. Their perspectives helped to shape the analysis and reinforce the importance of personalised mobility solutions.

BCI move: exploring pediatric BCI-controlled power mobility

Introduction

Children and young people (CYP) with severe physical disabilities often experience barriers to independent mobility, placing them at risk for developmental impairments and restricting their independence and participation. Pilot work suggests that brain-computer interface (BCIs) could enable powered mobility control for children with motor disabilities. We explored how severely disabled CYP could use BCI to achieve individualized, functional power mobility goals and acquire power mobility skills. We also explored the practicality of pediatric BCI-enabled power mobility.

Methods

Nine CYP aged 7-17 years with severe physical disabilities and their caregivers participated in up to 12 BCI-enabled power mobility training sessions focused on a personalized power mobility goal. Goal achievement was assessed using the Canadian Occupational Performance Measure (COPM) and Goal Attainment Scaling (GAS). The Assessment for Learning Powered Mobility (ALP) was used to measure session-by-session power mobility skill acquisition. BCI set-up and calibration metrics, perceived workload, and participant engagement were also reported.

Results

Significant improvements in COPM performance (Z = -2.869, adjusted p = 0.012) and satisfaction scores (Z = -2.809, adjusted p = 0.015) and GAS T scores (Z = -2.805, p = 0.005) were observed following the intervention. ALP scores displayed a small but significant increase over time (R 2 = 0.07-0.19; adjusted p = <0.001-0.039), with 7/9 participants achieving increased overall ALP scores following the intervention. Setup and calibration times were practical although calibration consistency was highly variable. Participants reported moderate workload with no significant change over time (R 2 = 0.00-0.13; adjusted p = 0.006-1.000), although there was a trend towards increased frustration over time(R 2 = 0.13; adjusted p = 0.006).

Discussion

Participants were highly engaged throughout the intervention. BCI-enabled power mobility appears to help CYP with severe physical disabilities achieve personalized power mobility goals and acquire power mobility skills. BCI-enabled power mobility training also appears to be practical, but BCI performance optimization and skill acquisition may be needed to translate this technology into clinical use.

Functional Connectivity Relationships to Longitudinal Motor Outcomes Differ in Very Preterm Children With and Without Brain Injury

Background and Objectives

Children born very preterm (VPT) have high rates of motor disability, but mechanisms for early identification remain limited, especially for children who fall behind in early childhood. This study examines the relationship between functional connectivity (FC) measured at term-equivalent age and motor outcomes at 2 and 5 years.

Methods

In this longitudinal observational cohort study, VPT children (gestational age 30 weeks and younger) with and without high-grade brain injury underwent FC MRI at term-equivalent age. Motor development was assessed using the Bayley Scales of Infant Development, Third Edition, at corrected age 2 years and Movement Assessment Battery for Children, Second Edition, at age 5 years. Logistic and negative binomial/Poisson regression models examined relationships between FC measures and 5-year task scores, with and without 2-year scores as covariates. Infants were categorized as "injured" or "uninjured" based on structural MRI findings at term-equivalent age.

Results

In the injured group (n = 34), each 1 SD decrease in neonatal left-right motor cortex FC was related to approximately 4× increased odds of being unable to complete a fine motor task at age 5 (log odds = -1.34, p < 0.05). In the uninjured group (n = 41), stronger basal ganglia-motor cortex FC was related to poorer fine motor scores (Est = -0.40, p < 0.05) and stronger cerebellum-motor cortex FC was related to poorer balance and fine motor scores (Est = -0.05 to -0.23, p < 0.05), with balance persisting with adjustment for 2-year scores.

Discussion

In VPT children with brain injury, interhemispheric motor cortex FC was related to motor deficits at 5-year assessment, similar to previous findings at 2 years. In uninjured children, FC-measured disruption of the motor system during the neonatal period was associated with motor planning/coordination difficulties that were not apparent on 2-year assessment but emerged at 5 years, suggesting that the neural basis of these deficits was established very early in life. Subsequently, 2-year follow-up may not be sufficient to detect milder motor deficits in VPT children, and they should be monitored for motor difficulties throughout the preschool years. For all VPT children, FC at term-equivalent age has the potential to improve our ability to predict disability before it presents behaviorally.

Novel rehabilitation technologies in pediatric rehabilitation: knowledge towards translation

Purpose: Knowledge translation (KT) refers to the process of applying the most promising research outcomes into practice to ensure that new discoveries and innovations improve healthcare accessibility, effectiveness, and accountability. The objective of this perspective paper is to discuss and illustrate via examples how the KT process can be implemented in an era of rapid advancement in rehabilitation technologies that have the potential to significantly impact pediatric healthcare.

Methods: Using Graham et al.'s (2006) Knowledge-to-Action cycle, which includes the knowledge creation funnel and the action cycle, we illustrate its application in implementing novel technologies into clinical practice and informing healthcare policy changes. We explore three successful applications of technology research: powered mobility, head support systems, and telerehabilitation. Additionally, we examine less clinically mature technologies such as brain-computer interfaces and robotic assistive devices, which are hindered by cost, robustness, and ease-of-use issues.

Conclusions: The paper concludes by discussing how technology acceptance and usage in clinical settings are influenced by various barriers and facilitators at different stakeholder levels, including clients, families, clinicians, management, researchers, developers, and society. Recommendations include focusing on early and ongoing design partnerships, transitioning from research to real-life implementation, and identifying optimal timing for clinical adoption of new technologies.

Go Zika Go: feasibility study with modified motorized ride-on cars for the mobility of children with Congenital Zika Syndrome (CZS)

PURPOSE

To explore the feasibility of an intervention using modified ride-on cars in terms of acceptability and potential changes in goal attainment, mobility, social function, and participation of children with Congenital Zika Syndrome (CZS).

MATERIALS AND METHODS

A pre- and post-intervention feasibility study was conducted with children with CZS, levels IV and V of the Gross Motor Function Classification System (GMFCS). The intervention consisted of 12 weeks of training (3 times a week for 40 min per session) and 4 weeks of follow-up. The primary outcomes included adherence, satisfaction, and learning in mobility. Secondary outcomes encompassed goal attainment, mobility, social/cognitive function, and participation. Descriptive statistics were performed. To explore potential individual changes with the intervention, Wilcoxon test was used to analyze Pediatric Evaluation of Disability Inventory - Computer Adaptive Test (PEDI-CAT) data and Young Children's Participation and Environment Measure (YC-PEM)/Participation and Environment Measure for Children and Youth (PEM-CY), along with standard error measurements of the PEDI-CAT domains.

RESULTS

Four children participated (median age 4.75 years; two females: three at level V on the GMFCS). Adherence was 75% of the total intervention time, and family members reported being satisfied or very satisfied. Children showed gains in learning the use of the modified ride-on cars and an increase in goal attainment after the intervention. Individual changes were observed in the PEDI-CAT domains (mobility and social/cognitive), but there were no significant changes in participation outcomes.

CONCLUSIONS

Children with CZS at GMFCS levels IV and V can learn to use motorized ride-on cars, attainment goals, and experience satisfaction.

The IndieTrainer system: a clinical trial protocol exploring use of a powered wheelchair training intervention for children with cerebral palsy

OBJECTIVE

The IndieTrainer system, comprised of both a mobility device and gamified training modules, was developed to aid powered wheelchair (PWC) skills acquisition in children with cerebral palsy (CP). The aims of this small-scale study are to: explore use of the IndieTrainer system to improve PWC skills in children who have CP and document parental/caregiver perceptions of, and satisfaction with, the IndieTrainer system.

METHOD

This small-scale study is an open-label single-arm clinical trial involving a three-week PWC training intervention consisting of two 60-minute training sessions per week. A single session retention trial will be held four weeks after the completion of the intervention period. All research activities will take place in-person in a laboratory-based setting located within a university. Twenty-five child-parent/caregiver dyads will participate in the study. Each child participant will be 3 to 21 years of age and have a diagnosis of CP or other similar condition. The Assessment of Learning Powered mobility use will be the primary outcome measure. Secondary outcome measures will include the Wheelchair Skills Checklist, the Canadian Occupational Performance Measure, the Customer Satisfaction Questionnaire-8, and a qualitative interview. Data analyses will involve one-way repeated measures ANOVAs followed by paired samples t-tests with Bonferroni adjustments.

IMPACT

The IndieTrainer system allows children to explore and use power mobility in their own manual wheelchair and was designed to meet the needs of power mobility learners across the continuum of learning. It is the first PWC training system to optimize learning for early learners who do not yet understand cause and effect concepts.

A study on the effectiveness of training in the operation of an electric mobility aid in severely mentally and physically handicapped children

Hideshima Y, Asami T, Ichiba M, Matsuo K, Murata T. A study on the effectiveness of training in the operation of an electric mobility aid in severely mentally and physically handicapped children. Jpn J Compr Rehabil Sci 2024; 15: 8-16.

Purpose

We examined whether operation training for children with severe mental and physical disabilities using recently developed electric mobility aids improves their skills in operating such aids and their daily activities. By doing so, we aimed to clarify the effectiveness of electric mobility aid operation training for children with severe mental and physical disabilities.

Method

Operation training and normal training using an electric mobility aid were conducted for 42 school-aged children with severe mental and physical disabilities, aged 8-18 years old. The trainee children were randomly assigned to two groups: 21 to the intervention group to receive operation training and 21 to the control group to receive general training. The intervention lasted 20 minutes/training session, with three sessions/week over a period of eight weeks. The Powered Mobility Program (PMP) and Pediatric Evaluation of Disability Inventory (PEDI) were used for pre- and post-intervention assessments, and SPSS was used for two-way analysis of variance (ANOVA).

Results

PMP scaled scores significantly increased (p = 0.001) in both groups, but there was no interaction effect. The PEDI scaled scores did not significantly increase in either of the two groups.

Discussion

The effects of the intervention and use of the electric mobility aid on the operating skills of children with severe mental and physical disabilities were explicitly demonstrated. Future long-term studies are required to clarify the effects of training in the operation of electric mobility aids on the subsequent development of severely physically and mentally handicapped children.

Caregiver perspectives on powered mobility devices and participation for children with cerebral palsy in Gross Motor Function Classification System level V

AIM

To describe caregiver experiences, perceptions, and device preferences between a modified ride-on car (MROC) and an Explorer Mini, including perceived changes in participation, barriers, and benefits for young children with cerebral palsy (CP) classified in Gross Motor Function Classification System (GMFCS) level V.

METHOD

A subset of data were analyzed from a larger multisite study. Semi-structured interviews were conducted with 10 caregivers of children with CP in GMFCS level V across a 16-week trial with two mobility devices. Each interview was audio-recorded, transcribed verbatim, and analysed using constant comparison methods.

RESULTS

Seven of 10 caregivers preferred the Explorer Mini over the MROC. Four themes emerged. One related to the perceived benefits and barriers of each device (ease and convenience is essential) and three related to perceived changes in participation: (1) autonomy enacted through mobility; (2) belonging and being present; and (3) participation recognized as an area of growth.

INTERPRETATION

Despite limited consideration of powered mobility for this population, caregivers of children in GMFCS level V reported similar benefits and barriers compared to children in other GMFCS levels shown in the literature. Particularly, caregivers perceived positive changes in their child's participation and recognized the ability for continued improvements in participation when using powered mobility.

WHAT THIS PAPER ADDS

Children with cerebral palsy classified in Gross Motor Function Classification System level V are often excluded from powered mobility use and research. Despite this, caregivers reported positive experiences for their children. Caregivers felt that participation in powered mobility led to increased autonomy and overall sense of inclusion and belonging for their children. Most caregivers preferred the Explorer Mini over the modified ride-on car but recognized that both devices had benefits and barriers to use.

Clinical application and feasibility of utilizing the PEDI-CAT to assess activity and participation among children receiving physical therapy incorporating hippotherapy

BACKGROUND

Hippotherapy (HPOT) is a physical therapy (PT) treatment tool using equine movement to improve mobility for children with movement impairments. Although research suggests HPOT improves body structure and function, there is limited evidence regarding its impact on activity and participation outcomes in a clinical setting. The Pediatric Evaluation of Disability Inventory Computer Adaptive Test (PEDI-CAT) may be useful in HPOT settings to highlight changes in activity and participation.

PURPOSE

1) Evaluate the PEDI-CAT's sensitivity to changes in activity and participation among children receiving PT using HPOT; 2) determine feasibility of administering the PEDI-CAT in a HPOT setting; and 3) examine how PEDI-CAT scores influence clinical decision-making.

METHODS

Participants (N = 34) were children who attended weekly PT using HPOT for 6 months. The PEDI-CAT was completed for all participants by a parent or caregiver at initial treatment (T1) and 6 months later (T2). A linear mixed effects model was used to evaluate changes in scores over time. Team meetings occurred monthly to discuss how PEDI-CAT scores impacted treatment.

RESULTS

There were significant improvements across 3 PEDI-CAT domains between T1 and T2 for all children with small effect sizes and nonsignificant changes noted within two diagnostic subgroups with small-to-medium effect sizes. The PEDI-CAT was completed by all participants without interrupting treatment flow. PEDI-CAT score reports enriched therapist-client conversations increasing shared decision-making.

CONCLUSION

PTs who treat children using HPOT may feasibly use the PEDI-CAT to assess changes in activity level outcomes and to assist clinical decision-making.

Modified Ride-on Car Intervention for Children With Profound Intellectual and Multiple Disabilities: A Case Series

PURPOSE

To describe a pilot clinical case series of a modified ride-on car (MROC) intervention on mobility and alertness for young children with profound intellectual and multiple disabilities (PIMD).

METHODS

Four young children with PIMD participated in 4 baseline observations and 5 intervention sessions (A-B design). Data collection occurred via video. Assessment of mobility and alertness duration used structured visual analysis.

RESULTS

Three of the 4 children increased their independent mobility during the intervention sessions. One of the 4 children increased their active alertness during the intervention sessions.

CONCLUSIONS

This pilot study demonstrates the initial feasibility of an MROC intervention in a clinical setting and outcome measures of mobility and alertness for children with PIMD. This provides support that this population should be considered for power mobility in early childhood. Further, this study used a novel, caregiver-implemented prompting protocol to teach children how to use the MROC.

Motivate-to-move: development of an intervention promoting parental adherence to early power mobility programs

PURPOSE

Parental/caregiver adherence has been identified as a barrier to implementation of early power mobility programs. Motivational interviewing (MI) may help in addressing this barrier. Two scoping reviews were conducted to gather concepts pertaining to parent-based or rehabilitation-based MI interventions and to develop a parent-based MI intervention to address parental/caregiver adherence to home-based early power mobility interventions for infants and young children.

MATERIALS AND METHODS

Separate literature searches for parent-based MI and rehabilitation-based MI were conducted in PubMed, CINAHL Complete, PsycInfo, and Web of Science Core Collection. Inclusion criteria were [1]: focussed on/use of either a parent-based or a rehabilitation-based MI intervention and [2] MI interventions described in sufficient detail to be reproduced. Articles focussed on vaccinations, child abuse and neglect, mental health, or technology-based MI were excluded. Data regarding MI interventions and strategies were extracted from included articles.

RESULTS

A total of 1130 unique titles were screened and 150 full-text articles were assessed for inclusion. Nineteen articles met the inclusion/exclusion criteria. Using a collaborative, consensus-based approach, a parent-based MI intervention incorporating specific MI strategies identified in the review was developed in collaboration with a psychologist. Future research exploring the application of this parent-based MI intervention is indicated.

CONCLUSIONS

The parent-based MI interventions developed in this project may help to increase parental adherence to home-based early power mobility programs, thereby potentially addressing an identified barrier to implementation of early power mobility programs.IMPLICATIONS FOR REHABILITATIONTo our knowledge, this is the first study to develop MI scripts for the purpose of increasing parental/caregiver adherence to a power mobility training program for children.The MI interventions developed in this study are consistent with published suggestions to address perceived barriers to the implementation of early power mobility programs.Given the strategies of collaboration, autonomy, and empowerment embedded within the spirit of MI, parent-based MI interventions are congruous with and inclusive of the principles of family-centered care.

RESNA position on the application of power mobility devices for pediatric users

This paper serves as an update to the previous RESNA Position on the Application of Power Wheelchairs for Pediatric Users with more current and additional scientific literature. This document contains typical clinical applications and best evidence from the literature supporting the application of power mobility (PM) for young children and to assist practitioners in decision-making and justification. It is RESNA' s position that age, limited vision or cognition, behavioral issues, and the ability to walk or propel a manual wheelchair short distances should not, in and of themselves, be used as discriminatory factors against providing PM for children. RESNA recommends early utilization of PM for children with mobility limitations as medically necessary, to promote integration and psycho-social development, reduce passive dependency, and to enhance participation, function, and independence.

Effect of adapted motorized ride-on toy use on developmental skills, quality of life, and driving competency in nonambulatory children age 9-60 months

Adapted motorized ride-on toys (AMTs) provide a feasible option for independent mobility in children with physical limitations. This study explores implications of AMT use on developmental domains and participation in daily activities. It also pilots the Power Mobility Skills Checklist (PMSC) for assessment of AMT operation competency. Nine nonambulatory children, ages 10-35 months, completed a 16-week AMT intervention. The Battelle Developmental Inventory-2 (BDI-2) and Assessment for Life Habits for Children (Life-H) were completed pre- and poststudy to evaluate developmental skills and participation in daily activities. The PMSC was completed at 2-week intervals to assess AMT driving ability. PMSC scores improved significantly for all participants across the intervention. BDI-2 developmental quotients demonstrated clinically significant gains in motor, cognitive, adaptive, communication, and personal-social domains, which varied between participants. Life-H changes were not significant. Improvements in PMSC change scores were associated with more total AMT sessions and increased BDI-2 gains. The PMSC may be effective for obtaining quantitative data on AMT operation and sensitive for assessing change in driving competency.

On the feasibility of simple brain-computer interface systems for enabling children with severe physical disabilities to explore independent movement

Introduction

Children with severe physical disabilities are denied their fundamental right to move, restricting their development, independence, and participation in life. Brain-computer interfaces (BCIs) could enable children with complex physical needs to access power mobility (PM) devices, which could help them move safely and independently. BCIs have been studied for PM control for adults but remain unexamined in children. In this study, we explored the feasibility of BCI-enabled PM control for children with severe physical disabilities, assessing BCI performance, standard PM skills and tolerability of BCI.

Materials and methods

Patient-oriented pilot trial. Eight children with quadriplegic cerebral palsy attended two sessions where they used a simple, commercial-grade BCI system to activate a PM trainer device. Performance was assessed through controlled activation trials (holding the PM device still or activating it upon verbal and visual cueing), and basic PM skills (driving time, number of activations, stopping) were assessed through distance trials. Setup and calibration times, headset tolerability, workload, and patient/caregiver experience were also evaluated.

Results

All participants completed the study with favorable tolerability and no serious adverse events or technological challenges. Average control accuracy was 78.3 ± 12.1%, participants were more reliably able to activate (95.7 ± 11.3%) the device than hold still (62.1 ± 23.7%). Positive trends were observed between performance and prior BCI experience and age. Participants were able to drive the PM device continuously an average of 1.5 meters for 3.0 s. They were able to stop at a target 53.1 ± 23.3% of the time, with significant variability. Participants tolerated the headset well, experienced mild-to-moderate workload and setup/calibration times were found to be practical. Participants were proud of their performance and both participants and families were eager to participate in future power mobility sessions.

Discussion

BCI-enabled PM access appears feasible in disabled children based on evaluations of performance, tolerability, workload, and setup/calibration. Performance was comparable to existing pediatric BCI literature and surpasses established cut-off thresholds (70%) of “effective” BCI use. Participants exhibited PM skills that would categorize them as “emerging operational learners.” Continued exploration of BCI-enabled PM for children with severe physical disabilities is justified.

In the Driver's Seat: A Randomized, Crossover Clinical Trial Protocol Comparing Home and Community Use of the Permobil Explorer Mini and a Modified Ride-On Car by Children With Cerebral Palsy

OBJECTIVE

The aims of this study are 2-fold: (1) to evaluate a powered mobility intervention to promote developmental, activity, and participation outcomes of young children aged 12 to 36 months who have cerebral palsy; and (2) to compare the use patterns (frequency, duration, environment) of 2 different powered mobility options.

METHODS

This study is a multisite, mixed-methods, doubly counterbalanced, randomized, crossover clinical trial, where intervention A is the Permobil Explorer Mini and intervention B is a modified ride-on toy car. The study will take place in rural and urban home and community settings surrounding 3 sites (Washington, Oregon, and Michigan). There will be 24 child-caregiver dyads in the study (8 dyads per site). Primary outcome measures include the Bayley Scale of Infant and Toddler Development, the Youth and Children's Participation and Environment Measure, the Assessment for Learning Power mobility use, automated device use tracking logs, caregiver semistructured interviews, and the Acceptability, Feasibility, and Intervention Appropriateness Measures. Secondary measures include the Child Engagement in Daily Life and caregiver diaries.

IMPACT

The use of powered mobility devices for young children with cerebral palsy has gained traction, with evidence that the use of powered mobility at young ages complements (rather than detracts from) other interventions focused on more traditional mobility skills such as crawling and walking. However, research is limited, and often comprised of low-level evidence. Given the clearance of the first powered mobility device for infants, the Permobil Explorer Mini, and the recent popularity of modified ride-on toy cars as an alternative for powered mobility for young children with disabilities, this study will contribute to rigorous examination of the developmental outcomes, use patterns, and caregiver perceptions of these novel devices.

Relationships between Cognitive Functioning and Powered Mobility Device Use: A Scoping Review

BACKGROUND

Powered mobility devices (PMD) promote independence, social participation, and quality of life for individuals with mobility limitations. However, some individuals would benefit from PMD, but may be precluded access. This is particularly true for those with cognitive impairments who may be perceived as unsafe and unable to use a PMD. This study explored the relationships between cognitive functioning and PMD use. The objectives were to identify cognitive functions necessary to use a PMD and describe available PMD training approaches.

METHODS

A scoping review was undertaken.

RESULTS

Seventeen studies were included. Four examined the predictive or correlational relationships between cognitive functioning and PMD use outcomes with intellectual functions, visual and visuospatial perception, attention, abstraction, judgement, organization and planning, problem solving, and memory identified as having a relation with PMD use outcome in at least one study. Thirteen others studied the influence of PMD provision or training on users' PMD capacity and cognitive outcomes and reported significative improvements of PMD capacities after PMD training. Six studies found improved cognitive scores after PMD training.

CONCLUSIONS

Cognitive functioning is required to use a PMD. Individuals with heterogeneous cognitive impairment can improve their PMD capacities. Results contribute to advancing knowledge for PMD provision.

Unlocking Independence: Exploring Movement with Brain-Computer Interface for Children with Severe Physical Disabilities

Children with severe physical disabilities are often unable to independently explore their environments, further contributing to complex developmental delays. Brain-computer interfaces (BCIs) could be a novel access method to power mobility for children who struggle to use existing alternate access technologies, allowing them to reap the developmental, social, and psychological benefits of independent mobility. In this pilot study we demonstrated that children with quadriplegic cerebral palsy can use a simple BCI system to explore movement with a power mobility device. Four children were able to use the BCI to drive forward at least 7m, although more practice is needed to achieve more efficient driving skills through sustained BCI activations.

Powered mobility interventions for very young children with mobility limitations to aid participation and positive development: the EMPoWER evidence synthesis

BACKGROUND

One-fifth of all disabled children have mobility limitations. Early provision of powered mobility for very young children (aged < 5 years) is hypothesised to trigger positive developmental changes. However, the optimum age at which to introduce powered mobility is unknown.

OBJECTIVE

The aim of this project was to synthesise existing evidence regarding the effectiveness and cost-effectiveness of powered mobility for very young children, compared with the more common practice of powered mobility provision from the age of 5 years.

REVIEW METHODS

The study was planned as a mixed-methods evidence synthesis and economic modelling study. First, evidence relating to the effectiveness, cost-effectiveness, acceptability, feasibility and anticipated outcomes of paediatric powered mobility interventions was reviewed. A convergent mixed-methods evidence synthesis was undertaken using framework synthesis, and a separate qualitative evidence synthesis was undertaken using thematic synthesis. The two syntheses were subsequently compared and contrasted to develop a logic model for evaluating the outcomes of powered mobility interventions for children. Because there were insufficient published data, it was not possible to develop a robust economic model. Instead, a budget impact analysis was conducted to estimate the cost of increased powered mobility provision for very young children, using cost data from publicly available sources.

DATA SOURCES

A range of bibliographic databases [Cumulative Index to Nursing and Allied Health Literature (CINHAL), MEDLINE, EMBASE™ (Elsevier, Amsterdam, the Netherlands), Physiotherapy Evidence Database (PEDro), Occupational Therapy Systematic Evaluation of Evidence (OTseeker), Applied Social Sciences Index and Abstracts (ASSIA), PsycINFO, Science Citation Index (SCI; Clarivate Analytics, Philadelphia, PA, USA), Social Sciences Citation Index™ (SSCI; Clarivate Analytics), Conference Proceedings Citation Index - Science (CPCI-S; Clarivate Analytics), Conference Proceedings Citation Index - Social Science & Humanities (CPCI-SSH; Clarivate Analytics), Cochrane Central Register of Controlled Trials (CENTRAL), Cochrane Database of Systematic Reviews, Database of Abstracts of Reviews of Effects (DARE), NHS Economic Evaluation Database (NHS EED), Health Technology Assessment (HTA) Database and OpenGrey] was systematically searched and the included studies were quality appraised. Searches were carried out in June 2018 and updated in October 2019. The date ranges searched covered from 1946 to September 2019.

RESULTS

In total, 89 studies were included in the review. Only two randomised controlled trials were identified. The overall quality of the evidence was low. No conclusive evidence was found about the effectiveness or cost-effectiveness of powered mobility in children aged either < 5 or ≥ 5 years. However, strong support was found that powered mobility interventions have a positive impact on children's movement and mobility, and moderate support was found for the impact on children's participation, play and social interactions and on the safety outcome of accidents and pain. 'Fit' between the child, the equipment and the environment was found to be important, as were the outcomes related to a child's independence, freedom and self-expression. The evidence supported two distinct conceptualisations of the primary powered mobility outcome, movement and mobility: the former is 'movement for movement's sake' and the latter destination-focused mobility. Powered mobility should be focused on 'movement for movement's sake' in the first instance. From the budget impact analysis, it was estimated that, annually, the NHS spends £1.89M on the provision of powered mobility for very young children, which is < 2% of total wheelchair service expenditure.

LIMITATIONS

The original research question could not be answered because there was a lack of appropriately powered published research.

CONCLUSIONS

Early powered mobility is likely to have multiple benefits for very young children, despite the lack of robust evidence to demonstrate this. Age is not the key factor; instead, the focus should be on providing developmentally appropriate interventions and focusing on 'movement for movement's sake'.

FUTURE WORK

Future research should focus on developing, implementing, evaluating and comparing different approaches to early powered mobility.

STUDY REGISTRATION

This study is registered as PROSPERO CRD42018096449.

FUNDING

This project was funded by the National Institute for Health Research (NIHR) Health Technology programme and will be published in full in Health Technology Assessment; Vol. 24, No. 50. See the NIHR Journals Library website for further project information.

Evaluating a Therapeutic Powered Mobility Camp for Children with Severe Cerebral Palsy

Background. Children and youth with severe cerebral palsy (CP) have limited independent mobility, which affects opportunities for overall development. Purpose. To examine the effectiveness of Power Fun, a therapeutic powered mobility summer camp. Methods. A quasi-experimental, repeated-measure design was used, with participants acting as their own control. Twenty-four participants with severe CP (aged 7-20 years) attended Power Fun for three weeks, five days/week. Assessments of powered mobility skills and functional mobility goals were conducted three weeks before the camp (T1), at baseline (T2), postintervention (T3), and at three-week follow-up (T4). Findings. An analysis of variance results indicated significant improvements in powered mobility skills (F(1,22) = 56.61, p < 0.001, η²_p = 0.74) and functional mobility goals (F(1,58) = 80.17, p < 0.001, η²_p = 0.74), with 70% of goals achieved postintervention. A descriptive analysis revealed three learning profiles. Implications. This study provides initial evidence supporting the effectiveness of Power Fun as an intervention promoting powered mobility for children with severe CP, across a range of abilities.

Using a child's power mobility learner group to tailor power mobility interventions: a case series

PURPOSE

The purpose of this case series was to explore using a child's power mobility learner group (exploratory, operational, or functional) to tailor power mobility interventions. Materials and methods: Five cases representing 2 exploratory power mobility learners, 2 operational power mobility learners, and 1 functional power mobility learner are presented. In each case, the participant's power mobility learner group was used to tailor his/her power mobility intervention program including establishing desired outcomes/goals of power mobility use, selecting outcome measures, determining the power mobility device to be used, and identifying the specific intervention strategies to be used.

RESULTS

All participants demonstrated improvements in power mobility device use following provision of the tailored intervention. Cases involving use of the Canadian Occupational Performance Measure demonstrated clinically significant improvements in post-intervention scores.

CONCLUSIONS

These cases illustrate a means to tailor power mobility interventions that may potentially optimise learning by providing an environment and conditions that meet each child's specific needs. The short-term and long-term gains made by the children in these cases warrants a controlled study exploring the use of a child's power mobility learner group to tailor power mobility interventions.IMPLICATIONS FOR REHABILITATIONUsing a child's power mobility learner group to tailor power mobility intervention may potentially optimise learning by providing an environment and conditions that meet each child's specific needs.Children across the learning continuum represented by the 3 power mobility learner groups (exploratory, operational, and functional) may benefit from power mobility interventions.Using a child's power mobility learner group to tailor power mobility interventions may support translation research knowledge into clinical practice.

Exercise load and physical activity intensity in relation to dystonia and choreoathetosis during powered wheelchair mobility in children and youth with dyskinetic cerebral palsy

PURPOSE

To explore the relation between exercise load, physical activity intensity, and movement disorders during powered wheelchair (PW) mobility in people with severe dyskinetic cerebral palsy (DCP).

METHODS

Ten participants with DCP, 6-21 years old, users of a head/foot steering system were included. Dystonia and choreoathetosis were assessed using the Dyskinesia Impairment Mobility Scale (DIMS), heart rate (HR) was used to assess the exercise load of the tasks on the participants, and the accelerometry-based activity index (AI) to measure the physical activity intensity and energy expenditure during mobility task performance.

RESULTS

Neck- and distal arm dystonia showed significant correlations with HR (0.64 < r_s < 0.77; 0.009 < p < 0.048), whereas neck- and proximal arm choreoathetosis with AI (0.64 < r_s < 0.76, 0.011 < p < 0.044). Total-body AI was strongly correlated to the AI of the arms (0.66 < r_s < 0.90,  < 0.001 < p < 0.038), but not to the AI of the head.

CONCLUSIONS

During PW mobility tasks, dystonia is associated to exercise load and choreoathetosis to physical activity intensity and energy expenditure. Findings highlight the difficulties in measuring exercise load and activity intensity in PW users with DCP due to the involuntary hypertonic and/or hyperkinetic hallmark of the movement disorders. Nevertheless, a relaxed surrounding with minimal distractions during PW training may increase learning efficiency. Future studies with a bigger sample size are highly recommended to fully establish the relationship between the variables and to allow generalizability of results.Implications for rehabilitationDystonia is positively related to heart rate during powered mobility, which may be explained by the hypertonic hallmark of dystonia causing an increase in exercise load.Choreoathetosis is positively related to the physical activity index during powered mobility where the hyperkinetic hallmark of choreoathetosis may lead to an increase in physical activity intensity and energy expenditure.Arm overflow movements are the component which contribute the most to total-body activity index, thus, minimizing these movements may lower the overall energy expenditure during powered mobility.Mobility training in a relaxed surrounding with minimal distractions and minimized arm overflow movements may lead to a less-demanding powered wheelchair mobility experience and increased learning efficiency.

Effects of a powered mobility summer camp as perceived by school staff: a qualitative study

PURPOSE

Powered mobility has a positive effect on social skills, self-esteem and overall development of children with motor impairments, but almost all previous studies were conducted with pre-school children. The aim of this study was to explore change beyond mobility following a therapeutic powered mobility summer camp for school-aged children and adolescents with severe cerebral palsy, as perceived by school staff.

MATERIALS AND METHODS

The participants in the therapeutic camp, which ran for 3 weeks, 5 days a week, three times over the summers 2018-2019, were children ages 7-19 (median age 11) with severe cerebral palsy who needed assistance in mobility and had limited hand function. Following the intervention, 19 semi-structured audio-recorded interviews were conducted with school staff, then transcribed and thematically analyzed using an inductive qualitative descriptive design with a phenomenological theoretical framework.

RESULTS

Four overarching themes were identified: (1) "Every step you take: mastering new, sometimes unexpected, skills", (2) "Break on through to the other side: changes in behaviour", (3) "Make new friends (but keep the old): Boosting social behaviour" and (4) "I'm a believer: The journey through self-efficacy to empowerment".

CONCLUSIONS

The interviews showed the immediate positive influence of powered mobility for children who previously did not have independent mobility, following an intensive intervention. Changes in initiative, empowerment, social relationships and behaviour highlight the importance of self-generated mobility, regardless of whether independence was achieved. School-aged children with severe cerebral palsy seem to benefit from an intensive powered mobility intervention in areas other than mobility skills themselves.IMPLICATIONS FOR REHABILITATIONPowered mobility intervention seems to encourage activity and initiation among children and youth with severe CP.This research adds to the understanding of the effect powered mobility can have on social interaction and communication.Powered mobility might be a means to allow development, in addition to being an important end.

"Make it fun": a qualitative study exploring key aspects of power mobility interventions for children

PURPOSE

Research suggests there are three groups of paediatric power mobility learners: exploratory, operational and functional. The purpose of this modified grounded theory study was to explore the key aspects of power mobility interventions for children in each of these paediatric power mobility learner groups.

MATERIALS AND METHODS

Data were gathered through face-to-face interviews conducted in-person or via Zoom^®. Three stakeholder groups were interviewed: (1) children ages 8-18 years who used a power wheelchair (PWC); (2) parents whose children (≤18 years of age) used a PWC; and (3) therapists/therapist researchers experienced in paediatric power mobility. An interview guide was created for each stakeholder group. Interviews were transcribed verbatim and an initial coding scheme was used to identify intervention activities specific to each learner group. Data for each learner group were then coded to reflect the essence of each intervention activity. Finally, patterns within the data were identified and codes were collapsed into thematic categories reflecting the key aspects of intervention for each learner group.

RESULTS

A total of 29 participants (nine children, seven parents and 13 therapists) took part in the study. Key aspects of power mobility interventions for each learner group, as well as fundamental aspects of power mobility intervention applicable to all learner groups, emerged in the data.

CONCLUSIONS

This study highlights both the similarities (fundamental aspects) and differences (key aspects targeting the specific needs of each learner group) of power mobility interventions for children in each of the three power mobility learner groups.Implications for RehabilitationThere are both similarities (fundamental aspects) and differences (key aspects targeting the specific needs of each learner group) in the needs of children in each of the three power mobility learner groups.Key aspects of power mobility interventions vary for children in each of the three paediatric power mobility learner groups and correspond with the learning needs of each power mobility learner group.The findings of this study will help clinicians and researchers to tailor power mobility interventions to meet the unique needs of children in each power mobility learner group.

Dystonia and choreoathetosis presence and severity in relation to powered wheelchair mobility performance in children and youth with dyskinetic cerebral palsy

INTRODUCTION

Power wheelchairs (PW) with head/foot steering systems are used as an alternative to joysticks in children with severe dyskinetic cerebral palsy (DCP). Mobility training programs are unstandardized to date, and insight on dystonia, choreoathetosis, and mobility performance may lead to greater independent mobility.

OBJECTIVE

To map the presence and severity of dystonia and choreoathetosis during PW mobility in DCP and their relation with mobility performance.

METHODS

Ten participants with DCP performed four PW mobility tasks using a head/foot steering system. Dystonia and choreoathetosis in the neck and arm regions were evaluated using the Dyskinesia Impairment Mobility Scale (DIMS). PW mobility performance was assessed using time-on-task and the number of errors during performance. The Wilcoxon-signed rank test and the Spearman's correlation coefficients were used to explore differences and correlations.

RESULTS

Median levels of dystonia (83.6%) were significantly higher (p < 0.01) than median levels of choreoathetosis (34.4%). Positive significant correlations were found between the Arm Proximal DIMS and the PW mobility experience (r_s=-0.92, p < 0.001), and between the Arm Distal DIMS and the number of errors (r_s = 0.66, p = 0.039) during mobility performance.

CONCLUSIONS

Dystonia is more present and severe during PW mobility than choreoathetosis. The hypertonic hallmark of dystonia may mask the hyperkinetic hallmark of choreoathetosis, resulting in lower median levels. Results may suggest that with an increase in driving experience, children with DCP adopt deliberate strategies to minimize the negative impact of arm overflow movements on mobility performance, however, future research with bigger sample size and additional outcome measures is strongly encouraged.

Adaptive Skills in FXS: A Review of the Literature and Evaluation of the PEDI-Computer Adaptive Test (PEDI-CAT) to Measure Adaptive Skills

As adaptive skills (AS) are dynamic and may indicate the success of an intervention, they are a common domain measured in clinical trials. Typical interview tools for measuring AS are time-consuming, and questionnaire measures often lead to inconsistent information. The present study was designed to evaluate the feasibility, validity and test-retest performance of the Pediatric Evaluation of Disability Inventory Computer Adaptive Test (PEDI-CAT) in Fragile X syndrome (FXS). The PEDI-CAT is administered via tablet and uses the item response theory to efficiently determine the items administered. The PEDI-CAT was administered to 42 individuals with FXS (27 males; 15 females) aged 1.6-50.9 years (M = 14.9; SD = 11.2), followed by the Vineland-3 (VABS-3) interview for comparison. Administration was efficient (M = 21.7 min; SD = 9.5; range 8-45 min; mode = 19). Males and females did not significantly differ on the PEDI-CAT domains, except for daily activities (t(40) = -2.22, p = 0.037). Floor effects were significant for both measures, although the PEDI-CAT showed more floor effects in the mobility (35.7%) and social-cognitive (50%) domains. PEDI-CAT daily activities, mobility, social-cognitive and responsibility domains were all significantly correlated with most of the VABS-3 domains (all rho > 0.5; p < 0.01). Test-rest of the PEDI-CAT was comparable to the VABS-3. Results suggest that the PEDI-CAT is efficient, and minimal training is needed to administer it; however, it lacks specificity and shares a high rate of floor effects with the VABS-3.

Exploring the Unmet Need for Technology to Promote Motor Ability in Children Younger Than 5 Years of Age: A Systematic Review

Objective

To (1) identify types of technology that promote motor ability in children younger than 5 years of age, (2) report on the type of support these devices provide, and (3) evaluate their potential for use in the community (outside of the laboratory or clinic).

Data Sources

A literature search of PubMed was conducted in February 2019 using specific terms, including child, rehabilitation, movement, and instrumentation.

Study Selection

The search yielded 451 peer-reviewed articles, which were screened by multiple reviewers. Articles that described the use of devices for the purpose of motor rehabilitation and/or assistance (regardless of device type or body part targeted) in the age range of 0-5 years were eligible for inclusion.

Data Extraction

In conformity with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines, final stage data extraction consisted of full text readings where each article was reviewed twice by 3 independent reviewers.

Data Synthesis

About half of the devices available (46%) for children younger than 5 years of age are orthotics and corrective casting devices. There are more facilitative (ie, power mobility devices) than inhibitive (ie, casting) technologies being used. Approximately 60% of the devices are designed for use by a single body part. Walking is the most common motor skill addressed. Although most of the devices were used to some degree outside of the laboratory or clinic, most of the devices available are considered investigative and are not available for commercial purchase.

Conclusions

Many types of pediatric devices to assist movement exist, but the current scope of employed devices is limited. There is a need for developing technology that allows for, if not supports, high-dosage, early, and variable motor practice that can take place in community settings.

Changes in Electroencephalography Activity in Response to Power Mobility Training: A Pilot Project

Purpose: The purposes of this pilot project were to examine the impact of power mobility training on (1) electroencephalography (EEG) activity in children with severe cerebral palsy (CP) and (2) power mobility skill acquisition. Method: A single-subject A-B-A-B research design with a 5-week duration for each phase (20 wk total) was replicated across three participants with severe CP (Gross Motor Function Classification System Level V). Data related to the target behaviour, as represented by EEG activity, were collected each week. Power mobility skills were assessed using the Canadian Occupational Performance Measure (COPM), the Wheelchair Skills Checklist (WSC), and the Assessment of Learning Powered mobility use (ALP). Weekly power mobility training was provided during the intervention phases. EEG data were analyzed by means of three measurement metrics (power spectral density, mutual information, and transfer entropy). Results: All three participants demonstrated changes in activation in frontoparietal EEG recordings and clinically significant improvements in power mobility skill acquisition as measured by the COPM as well as by the ALP and WSC. Conclusions: Power mobility training appeared to affect both neuroplastic and skill acquisition. Combining the use of EEG with direct therapist-observation measurement tools may provide a more complete understanding of the impact of power mobility training on children with severe CP.

Modified ride-on cars and mastery motivation in young children with disabilities: Effects of environmental modifications

BACKGROUND

Independent mobility is important for children's psychological development. Modified ride-on cars are innovative, alternative options to enhance independent mobility, socialization, and motivation in young children with disabilities.

AIM

We compared the effects of combining ride-on car use and a social interaction training program on mastery motivation and home affordances with a home education program in young children with disabilities.

METHODS AND PROCEDURES

Twenty-nine children with disabilities aged 1-3 years were recruited. The treatment group (n = 15) received two 2-h sessions/week for 9 weeks of ride-on car training in a hospital environment in Taiwan. The control group (n = 14) underwent similar home education programs. No treatment except regular therapy was administered during the 9-week follow-up period. Assessments included the Revised Dimensions of Mastery Questionnaire-Chinese version and the Affordance in the Home Environment for Motor Development-Toddler version-Chinese version.

OUTCOMES AND RESULTS

The treatment group (compared to controls) had significantly greater improvements in object persistence during the intervention. Both groups showed significant improvements in mastery pleasure and home affordances during the intervention.

CONCLUSIONS AND IMPLICATIONS

This novel study showed the potential use of modified ride-on cars to enhance mastery motivation in a hospital environment.

Power mobility for children: a survey study of American and Canadian therapists' perspectives and practices

AIM

To explore the views and practices of paediatric occupational therapists and physical therapists in Canada and the USA regarding the implementation of power mobility for children with mobility limitations.

METHOD

This descriptive study utilized a web-based survey that included questions pertaining to therapists' decisions to trial and use power mobility, agreement or disagreement with statements developed from published practice considerations regarding power mobility, and the frequency of performing tasks related to power mobility prescription and training.

RESULTS

Most respondents reported that child characteristics (e.g. cognition, safety awareness) were important factors in decision-making about power mobility, whereas other child characteristics (e.g. communication abilities, age) were not as important. Family resources and home accessibility were also not considered important. The average age at which respondents considered power mobility for children was 2 years 3 months. The majority of respondents agreed with statements developed from published practice considerations and most frequently performed various power mobility tasks twice a year or less.

INTERPRETATION

Although most respondents appeared to have positive views regarding power mobility, few appeared to actively perform power mobility tasks in their practice. Resources to support therapists in the early introduction of power mobility may be beneficial.

WHAT THIS PAPER ADDS

Occupational and physical therapists positively view early introduction of power mobility for children with mobility limitations. Few therapists actively provide early power mobility experiences. Power mobility training and monitoring power mobility devices are important therapist roles.

Power mobility skill progression for children and adolescents: a systematic review of measures and their clinical application

AIM

To identify and critically appraise standardized measures of power mobility skill used with children (18y or younger) with mobility limitations and explore the measures' application for 'exploratory', 'operational', and 'functional' learners.

METHOD

Five electronic databases were searched along with hand-searching for peer-reviewed articles published in English to July 2017 (updated 31st August 2017). Key terms included power(ed) mobility, power(ed) wheelchair, and database-specific terms. Studies included at least one child with a disability, and a detailed description of the measure of power mobility skill. The Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) statement was followed with inclusion criteria set a priori. Two reviewers independently screened titles, abstracts, and full-text articles.

RESULTS

Of 96 titles, 24 articles met inclusion criteria, describing nine measures of power mobility skill. The Wheelchair Skills Checklist, the Powered Mobility Program (PMP), and the Power Mobility Training Tool were augmented by three adaptations of the PMP. Two additional measures were further developed to create a third, the Assessment of Learning Powered mobility use. Validity evidence related primarily to content development while reliability evidence was reported on only two measures.

INTERPRETATION

All measures are in the initial stages of development and testing. Research investigating the measures' appropriateness for different types of learners and environments is warranted.

WHAT THIS PAPER ADDS

There are four distinct measures of paediatric power mobility skill: three task-based, one process-based. Power mobility learners may be divided into three groups: exploratory, operational, and functional. Application of measures of power mobility skill differs for these three groups.

Modified Ride-On Cars and Young Children with Disabilities: Effects of Combining Mobility and Social Training

BACKGROUND

Research has shown that the use of power mobility devices is safe and beneficial for motor and cognitive development in children with motor disabilities; nevertheless, strong evidence of the benefits for social skill development is limited. This study aimed to examine the effects of combining ride-on car training with an adult-directed, social interaction program in a hospital-based environment on mobility and social functions in young children with motor disabilities.

METHODS

This study used a prospective, nonequivalent pretest-posttest control group design. Twenty-nine young children with motor disabilities, aged between 1 and 3 years, were recruited from local hospitals in Taiwan. The treatment group (n = 15) underwent 2-h ride-on car training sessions twice per week for a total of 9 weeks in the hospital environment. The control group (n = 14) underwent a 9-week home education program (mean: 200 min/week) focusing on mobility and social skills training. The Chinese version of the Pediatric Evaluation of Disability Inventory, Parenting Stress Index, and Goal Attainment Scaling were administered to all participants before and after the intervention, and at the end of the 9-week follow-up phase.

RESULTS

Mobility and social functions significantly improved in both groups after the 9-week intervention, but this improvement was not maintained at the follow-up phase. The treatment group showed significantly better improvement in social function, parenting stress levels, and goal achievement than the control group at posttest.

CONCLUSION

This two-group design study showed the benefits of combining a ride-on car use with a family-centered, structured, social interaction program for positive impacts on mobility, social function, and parenting stress levels. The combination of a modified ride-on car and a social training program has the potential to enhance socialization in young children with motor disabilities.

CLINICAL TRIAL REGISTRATION

www.ClinicalTrials.gov, identifier NCT02527499.

Perspectives on Early Power Mobility Training, Motivation, and Social Participation in Young Children with Motor Disabilities

The efficacy of traditional training programs (e.g., neurodevelopmental therapy) in promoting independent mobility and early child development across all three International Classification of Functioning, Disability, and Health levels lacks rigorous research support. Therefore, early power mobility training needs to be considered as a feasible intervention for very young children who are unlikely to achieve independent mobility. This perspective article has three aims: (1) to provide empirical evidence of differences in early independent mobility, motivation, daily life activities, and social participation between young children with typical development and motor disabilities; (2) to discuss the contemporary concepts of and approaches to early power mobility training for young children with motor disabilities and the current need for changes to such training; and (3) to provide recommendations for early power mobility training in pediatric rehabilitation. Independent mobility is critical for social participation; therefore, power mobility can be accessible and implemented as early as possible, specifically for infants who are at risk for mobility or developmental delay. To maximize the positive effects of independent mobility on children's social participation, early power mobility training must consider their levels of functioning, the amount of exploration and contextual factors, including individual and environmental factors.

A comparison of the efficacy of weight-shift vs. joystick control of a robotic mobility device by infants ages 5 to 10 months

The onset of crawling in infants contributes to cognitive, perceptual, social, and emotional development. Conversely, infants with motor impairment that delays or prevents autonomous mobility often have associated developmental delays. Evidence suggests that providing mobility may have positive developmental outcomes, however powered wheelchairs may not be recommended for very young children, due to safety concerns and the child's level of cognitive maturity. The WeeBot is a mobility device controlled by infant weight shifting while seated; infants as young as 5 months have learned to use it. This study compares the efficacy of using the WeeBot vs. using the traditional manual joystick to control a robotic mobility device. Participants were 20 typically developing infants between 5 and 10 months who had not yet achieved independent mobility. A quasi-experimental two-group design was used: The first 10 participants recruited used the WeeBot (weight-shift); the next 10 used the joystick. Results showed that infants learned to use weight-shift control more easily and more skilfully than did infants using the joystick. The ability of infants to use the WeeBot suggests that an intuitive alternative control might allow very early powered mobility for children with disabilities, which might have implications for various aspects of their development.

The use of modified ride-on cars to maximize mobility and improve socialization-a group design

AIM

To examine the effects of ride-on car (ROC) training versus conventional therapy on mobility and social function in young children with disabilities in a hospital-based environment.

METHODS AND PROCEDURES

Twenty young children with disabilities, aged 1-3 years, were recruited. The treatment group (n=10) received ROC training of 2h/session, 2 sessions/week for a total of 9 weeks in the hospital environment. The control group (n=10) received conventional therapy alone. Assessments included the Chinese version of the Pediatric Evaluation of Disability Inventory and the Parenting Stress Index.

OUTCOMES AND RESULTS

After a 9-week intervention, the treatment group showed improvements in mobility and social function, whereas the control group showed improvements in social function alone. Four children in the treatment group had clinically meaningful changes in mobility and 3 in social function, as compared to 2 and 1, respectively, in the control group.

CONCLUSIONS AND IMPLICATIONS

This is the first group study that demonstrated the potential benefits of ROC training on mobility and social function in young children with disabilities in the hospital environment. Future studies should include a larger sample size to detect any differences between ROC training and conventional therapy.