AI Article Synopsis
- Deficits in fine motor skills are observed in children with neurodevelopmental disorders like amblyopia and strabismus, making it crucial to monitor motor skill development.
- The study tested whether using a portable kinematic assessment tool in an optometric setting could improve the evaluation of children's motor skills compared to traditional screening methods.
- Results showed that while typically developing children had normal visual acuity, their fine motor skills were below average, and kinematic assessments effectively identified motor control deficits in children with amblyopia.
Article Abstract
Deficits in fine motor skills have been reported in some children with neurodevelopmental disorders such as amblyopia or strabismus. Therefore, monitoring the development of motor skills and any potential improvement due to therapy is an important clinical goal. The aim of this study was to test the feasibility of performing a kinematic assessment within an optometric setting using inexpensive, portable, off-the-shelf equipment. The study also assessed whether kinematic data could enhance the information provided by a routine motor function screening test (the Movement Assessment Battery for Children, MABC). Using the MABC-2, upper limb dexterity was measured in a cohort of 47 typically developing children (7-15 years old), and the Leap motion capture system was used to record hand kinematics while children performed a bead-threading task. Two children with a history of amblyopia were also tested to explore the utility of a kinematic assessment in a clinical population. For the typically developing children, visual acuity and stereoacuity were within the normal range; however, the average standardized MABC-2 scores were lower than published norms. Comparing MABC-2 and kinematic measures in the two children with amblyopia revealed that both assessments provide convergent results and revealed deficits in fine motor control. In conclusion, kinematic assessment can augment standardized tests of fine motor skills in an optometric setting and may be useful for measuring visuomotor function and monitoring treatment outcomes in children with binocular vision anomalies.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10885072 | PMC |
| http://dx.doi.org/10.3390/vision8010006 | DOI Listing |
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