A Computerized Testing System for Measuring Motor and Sensory Integrative Functions in Children

• Conditions: Intellectual Disability

• Registration Number: NCT05451238
• Lead Sponsor: Kaohsiung Medical University Chung-Ho Memorial Hospital

Brief Summary

Assessment of the motor and sensory integrative functions (MSI) is a key component of an overall health and functional evaluation for school-aged children with intellectual disabilities (ID). The ability of students with ID to perform age-appropriate motor tasks and adaptive behaviors (end product of sensory integration) can help determine the long-term effects of special education curriculum/interventions and the quality of an overall school-based rehabilitation program.We will develop item banks for 3 core domains of MSI (i.e., gross motor, fine motor, and sensory integration) for school-aged children with ID. About 200-250 participants will be recruited.

Detailed Description

Assessment of the motor and sensory integrative functions (MSI) is a key component of an overall health and functional evaluation for school-aged children with intellectual disabilities (ID). The ability of students with ID to perform age-appropriate motor tasks and adaptive behaviors (end product of sensory integration) can help determine the long-term effects of special education curriculum/interventions and the quality of an overall school-based rehabilitation program.

However, several challenges exist in measuring MSI for school-aged children with ID. First, most measures of MSI vary in content (domains), causing difficulty in the selection of relevant MSI measures. Second, most measures of MSI lack robust evidence of psychometric properties (e.g., reliability and responsiveness). Third, the minimal important difference (MID) and minimal detectable change (MDC) of most MSI measures for ID are largely unknown, which limits the interpretation of change scores in schools and clinical settings. Fourth, most MSI measures are time-consuming to administer, placing a burden of administration on both teachers/therapists and children. Finally, all the measures were developed in western countries and their use has not yet been validated for ID populations in Taiwan. An efficient and in-depth understanding of the students' motor and sensory integrative functions can help the school teachers implementing appropriate curriculum, monitoring the progress, managing the classroom, and further enhancing the overall learning for school-aged students with ID. A validated and convenient computerized testing system is urgently needed.

The Rasch model is useful in developing precise measures. Furthermore, a computerized adaptive testing (CAT) system can provide efficient measurements. Therefore, in this 3-year project, we will develop a Computerized Testing system for measuring Motor and Sensory Integrative Functioning in School-aged Children with Intellectual Disabilities (MSI-ID) to overcome the aforementioned challenges. We will determine whether the MSI-ID is efficient and psychometrically robust.

Method: We will develop item banks for 3 core domains of MSI (i.e., gross motor, fine motor, and sensory integration) for school-aged children with ID. We will select the 3 domains based on both core elements of a child's overall function and priorities of caregivers/teachers as determined in our preliminary study. We will construct 100 items for each domain based on focus group interviews of teachers / caregivers of students with ID and therapists, related theories and assessments, and suggestions from the experts. Then we will administer each item on 100 school-aged children with various levels of ID severity and age.

Study Timeline

• Study Start: 2020-08-01
• Status Verified: 2022-07
• Study First Submitted: 2022-07-06
• Study First Submitted QC: 2022-07-08
• Last Update Submitted: 2022-07-08
• Study First Posted: 2022-07-11
• Last Update Posted: 2022-07-11
• Primary Completion: 2022-12-31
• Study Completion: 2022-12-31

Recruitment & Eligibility

• Status: UNKNOWN
• Sex: All
• Target Recruitment: 200

Inclusion Criteria

1. ages between 6 and 15 years; (2) a diagnosis of ID determined by the board-certified physicians at local designated hospitals according to the standards put forth by the International Classification of Diseases, 10th revision, clinical modification (ICD-10 codes); and (3) absence of serious emotional , behavioral disturbances or any other major disease affecting premorbid sensory processing and motor functions (e.g., muscular dystrophy).

Exclusion Criteria

• None

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Primary Outcome Measures

Name	Time	Method
BOT-2	Baseline (pretest)	The BOT-2 assesses proficiency in four motor-area composites: fine manual control composite, manual coordination composite, body coordination composite, and strength and agility composite. The average age-adjusted scale scores for subtests are 15 (S.D. = 5), whereas composites are derived by summing the subtest scale scores and converting them to a quotient with a mean of 100 and a S.D. of 15.
Sensory Profile	Baseline (pretest)	The SP is a parent report measure of behaviors associated with abnormal responses to sensory stimuli for children 5-10 years of age. The SP consists of 125 items grouped into three main sections: Sensory Processing, Modulation, and Behavioral and Emotional Responses. Items are scored from always (1) to never (5), with higher scores indicating more impairment. The total score of each section is the best indicator of overall sensory dysfunction. The SP provides published cut-off scores. Scores at or above the mean are considered ''typical''; scores of 1 standard deviation below the mean for the typical reference sample are reported as a ''probable difference'', and scores at 2 standard deviations below the mean for the typical reference sample are reported as a ''definite difference''.
TVPS-4	Baseline (pretest)	The TVPS-4 is a motor-free and individually administered test to evaluate the comprehensive visual perceptual functions for individuals aged 5-21. The TVPS-4 comprised 7 tests: visual discrimination, visual memory, spatial relationship, form constancy, sequential memory, visual figure- ground, and visual closure. The TVPS-4 has excellent reliabilities evidence and concurrent validities with other similar tests
Jebsen-Taylor Hand Function Test	Baseline (pretest)	The JTHFT is a quick and reliable measure of hand functioning incorporating 7 simulated tasks of activities of daily living (ADL).The tasks are: stacking, simulated page-turning, simulated feeding, picking up small objects, lifting large and lightweight object, lifting heavy object, and writing (copying). All tasks were timed and three scores were generated. A JTHFT- object score was the total time (seconds) taken to perform all 6 tasks except for writing for dominant and non-dominant hand, respectively. A JTHFT- writing score was the time spent (seconds) to complete a writing task for the dominant hand. Excellent reliabilities was reported in adults and typically developing children, and this assessment has also been utilized to exam the uni-manual capabilities in children with cerebral palsy and other motor dysfunctions
Vineland Adaptive Behavior Scale-Chinese Version	Baseline (pretest)	The VABS-C was the Chinese version of the Vineland Adaptive Behavior Scale23 and was used in individuals aged 0 to 18 years-11 months. This assessment measures age-related adaptive skills essential for personal and social competencies. This 577-item measure included four domains: motor skills (gross, fine), communication (written, expressive, receptive,), daily living skills (community domestic, personal,), and socialization skills (coping skills, interpersonal relationships, play and leisure time)

Trial Locations

Locations (1)

Dept of Occupational Therapy; 🇨🇳 Kaohsiung, Taiwan