Last week’s blog taught us the nuts and bolts of Visual Motor Integration. Let’s jump into the what VMI really means for students who struggle with VMI.
Research has shown a statistically significant correlation between performance on visual motor integration assessments and teachers’ assessments of early elementary school students’ reading, mathematics, writing and spelling ability (Optometry and Vision Science, 1999; Pereira, D., Araujo, R., & Braccialli, L., 2011). Now that we understand what visual motor integration is as a concept and that it is a foundational skill for academics, let’s look at some areas of education that may be difficult for children with visual motor dysfunction.
- Written Output – Beginning in preschool, children start to learn how to draw vertical, horizontal and diagonal lines. They practice circles, squares, crosses and drawing an X. All of these are considered pre-handwriting practice. As a child moves along in their academic career, they start incorporating these movements into letters and eventually words. Children who struggle with VMI have particular difficulty recreating the images that they see. This often manifests itself in letter reversals, illegible written output and inability to judge whether their copy looks like the model or not. As children get into later grades, visual motor dysfunction may include difficulty copying information from a whiteboard, trouble staying on the line or within the space provided, and a simple lack of fluidity when writing. Tasks, such as filling out graphic organizers and brainstorming, feel tedious and tiring, as opposed to helpful.
- Math – While math is not typically thought of as a motor-based task, substantial portions of current math curriculums rely on visual motor integration. For younger students, drawing shapes, writing equations and recognizing patterns may be particularly tough. As students get older, geometry requires them to write out proofs and draw shapes, while calculus requires graphing and drawing lines based on complex equations. Building on VMI helps students to access more than simple written output.
- Using Classroom Tools – While this may not seem as academically focused as the other areas that are affected by VMI, classroom tools are frequently used throughout the school day. Scissors, a stapler, a hole puncher and a mouse/keyboard all require some level of visual motor function.
It’s difficult to briefly sum up all of the ways that students are incorporating their visual motor integration skills into a typical school day, or realistically a day in general. They use these skills without even realizing it, which means they unintentionally practice them all day. VMI is something that can continue to develop all through the lifespan. Artists pick up new tools and build mastery, adult calligraphy classes have become a new fad as people learn to modify and improve their handwriting, and even Tom Brady continues to work on perfecting that spiral. Targeted intervention can help children build on their foundation and find confidence in their abilities. If you feel that VMI might be affecting your child’s education, reach out to an occupational therapist and see if they can help you better understand your child’s individual profile.
Optometry and Vision Science: March 1999 – p 159-163. Retrieved from https://journals.lww.com/optvissci/Abstract/1999/03000/Relationship_between_Visual_Motor_Integration.15.aspx
Pereira, D., Araujo, R., & Braccialli, L. (2011) Relationship between visual-motor integration ability and academic performance. Journal of Human Growth and Development, 21(3), 808-817. Retrieved_from https://www.researchgate.net/publication/317462934_Relationship_analysis_between_visual-motor_integration_ability_and_academic_performance
About the Author
Dr. Sophie Bellenis is a Licensed Occupational Therapist in Massachusetts, specializing in educational OT and functional life skills development. Dr. Bellenis joined NESCA in the fall of 2017 to offer community-based skills coaching services as a part of the Real-life Skills Program within NESCA’s Transition Services team. Dr. Bellenis graduated from the MGH Institute of Health Professions with a Doctorate in Occupational Therapy, with a focus on pediatrics and international program evaluation. She is a member of the American Occupational Therapy Association, as well as the World Federation of Occupational Therapists. Having spent years delivering direct services at the elementary, middle school and high school levels, Dr. Bellenis has extensive background with school-based occupational therapy services. She believes that individual sensory needs and visual skills must be taken into account to create comprehensive educational programming.
Neuropsychology & Education Services for Children & Adolescents (NESCA) is a pediatric neuropsychology practice and integrative treatment center with offices in Newton, Massachusetts, Plainville, Massachusetts, and Londonderry, New Hampshire, serving clients from preschool through young adulthood and their families. For more information, please email firstname.lastname@example.org or call 617-658-9800.