What Causes Dyscalculia?

The causes behind dyscalculia might surprise you—and understanding them changes everything about how we can help children succeed in math. Tweet Now Follow Learning Success

Understanding the Real Story Behind Math Struggles

Understanding the Real Story Behind Math Struggles

When parents hear their child has dyscalculia, they often think they’ve found the answer to their questions. But here’s what’s really important to understand: dyscalculia isn’t something that happens to your child—it’s a description of how their brain currently processes mathematical information. This distinction matters tremendously because it changes everything about how we approach helping them. Instead of seeing it as a fixed condition, we can recognize it as a starting point for developing stronger processing skills.

Many parents describe watching their child work twice as hard as their siblings for half the results in math. They see a child who can memorize song lyrics effortlessly but can’t remember basic math facts. These children often develop anxiety around numbers and may avoid activities involving math altogether. What you’re witnessing isn’t a lack of intelligence or effort—it’s a brain that processes numerical information differently and needs different pathways to develop mathematical understanding.

The traditional approach has been to manage these differences through accommodations and modifications. While these can provide temporary relief, they don’t address the underlying processing challenges. Recent research shows us something far more hopeful: the specific skills that support mathematical thinking can be developed and strengthened. This means your child isn’t stuck with their current level of math ability—their brain can literally rewire itself to process mathematical information more effectively.

Understanding the true causes behind dyscalculia helps us move away from the limiting belief that this is a lifelong condition your child must simply learn to work around. Instead, we can focus on building the foundational skills that will help them thrive mathematically.

The Multiple Factors That Contribute to Math Processing Challenges

The Multiple Factors That Contribute to Math Processing Challenges

Research reveals that math processing difficulties stem from several interconnected factors, and understanding these helps explain why children with similar challenges might respond differently to various interventions. The causes aren’t simple or singular—they involve a complex interplay of genetic, developmental, cognitive, and environmental factors.

Genetic and Familial Influences

Studies show that math processing challenges often run in families. Research indicates a 58% likelihood that if one identical twin has dyscalculia, the other will too. In non-identical twins, this likelihood drops to 39%, suggesting a strong genetic component. This doesn’t mean your child is doomed to struggle—it simply means their brain may be wired to process numerical information differently.

The genetic influence affects how the brain develops the neural networks responsible for mathematical thinking. Recent studies have identified shared genetic foundations between learning differences like dyslexia, dyscalculia, and ADHD, which explains why these often occur together. About 75% of the differences we see in mathematical abilities among children are influenced by genetics, but genetics provide the starting point, not the end point.

Brain Development Differences

Neuroimaging studies have identified specific brain regions that function differently in children with math processing challenges. The intraparietal sulcus (IPS), located in the parietal lobe, is crucial for number sense and magnitude processing. Children with dyscalculia often show reduced activity or different patterns of connectivity in this area.

However, here’s the crucial point: these brain differences don’t represent permanent limitations. Research on neuroplasticity shows that targeted interventions can actually normalize brain responses and improve mathematical skills. Studies using brain imaging before and after intervention programs demonstrate that the brain can develop new pathways and strengthen existing ones when given the right type of practice.

Processing Skill Deficits

Mathematical thinking relies on numerous cognitive processing skills working together seamlessly. Children with math struggles often have weaknesses in several key areas:

• Working memory challenges that make it difficult to hold multiple pieces of information while solving problems
• Visual-spatial memory difficulties that affect understanding of spatial relationships and patterns
• Auditory processing weaknesses that impact the ability to process verbal math instructions
• Spatial reasoning deficits that affect geometry and measurement concepts

These aren’t separate, unrelated problems—they’re interconnected skills that support mathematical thinking. The good news is that each of these areas can be strengthened through targeted practice.

Environmental and Educational Factors

Sometimes what appears to be dyscalculia is actually the result of external factors. Poor teaching methods, math anxiety, limited early exposure to numerical concepts, or traumatic experiences with math can create processing difficulties that look very similar to dyscalculia. Research distinguishes between “primary” dyscalculia (brain-based differences) and “secondary” dyscalculia (caused by external factors).

Math anxiety, in particular, can create a cycle where stress actually impairs the brain’s ability to process mathematical information effectively. When children repeatedly experience failure or frustration with math, their brain begins to associate numbers with threat, triggering stress responses that make mathematical thinking even more difficult.

The Brain’s Amazing Capacity for Change

The Brain’s Amazing Capacity for Change

The most important thing to understand about the causes of dyscalculia is that none of them represent permanent limitations on your child’s potential. The human brain possesses an extraordinary ability called neuroplasticity—the capacity to reorganize, adapt, and form new neural connections throughout life. This isn’t just theory; it’s been demonstrated repeatedly in research studies where children with significant math processing challenges have developed strong mathematical skills through targeted intervention.

Brain imaging studies show that when children receive appropriate intervention, their brain activity patterns can actually normalize. The same regions that showed reduced activity or different connectivity patterns begin to function more typically as processing skills strengthen. This demonstrates that the brain differences associated with dyscalculia are not fixed—they represent the brain’s current state, not its permanent capacity.

One of the most significant factors in your child’s development is your expectations and beliefs about their potential. Research on growth mindset shows that children who believe their abilities can be developed through effort and practice consistently outperform those who believe their abilities are fixed. When parents and teachers expect improvement and focus on developing skills rather than managing deficits, children rise to meet those expectations.

The concept of “learned helplessness” is particularly relevant here. When children repeatedly hear messages that they have a condition that cannot be changed, they often stop trying to improve. Conversely, when they understand that their brain is capable of growth and that struggle is part of learning, they develop resilience and persistence. This mindset shift alone can dramatically impact a child’s mathematical development.

Consider how we approach physical fitness: if a child has weak muscles, we don’t assume they’ll always be weak—we develop a strengthening program. The same principle applies to cognitive skills. Just as muscles grow stronger with appropriate exercise, the neural pathways that support mathematical thinking can be strengthened through targeted practice. This is why programs that focus on developing foundational cognitive skills often produce such dramatic improvements.

The key is understanding that developing these skills takes time and the right kind of practice. Random math worksheets won’t build cognitive foundations any more than random physical activity will develop specific muscle groups. Systematic, targeted practice that gradually builds complexity is what creates lasting change in the brain’s processing capabilities.

Taking Action: Building Math Processing Skills

Taking Action: Building Math Processing Skills

Now that you understand the true causes behind math processing challenges, you can take action to help your child develop stronger skills. The most effective approach focuses on building the underlying cognitive foundations that support mathematical thinking rather than simply teaching math content.

Developing Core Mathematical Skills

Start by strengthening your child’s core skills of math. These foundational abilities include number sense, pattern recognition, logical reasoning, and problem-solving skills. When these skills are well-developed, your child’s brain can process mathematical concepts more automatically, freeing up mental resources for higher-level thinking.

Number sense, in particular, is crucial for mathematical success. This involves understanding quantities, relationships between numbers, and how numbers work together. Children with strong number sense can estimate, compare quantities, and understand the logic behind mathematical operations. Activities that build number sense include working with manipulatives, playing number games, and discussing mathematical concepts in everyday situations.

Strengthening Processing Skills

The Brain Bloom System addresses the cognitive foundations that support all learning, including mathematical thinking. This comprehensive approach recognizes that mathematical success depends on multiple processing skills working together effectively. By strengthening areas like working memory, visual processing, and spatial reasoning, children develop the cognitive infrastructure necessary for mathematical understanding.

Working memory is particularly important for math success because it allows children to hold multiple pieces of information in mind while solving problems. Simple activities like mental math games, memory pattern activities, and multi-step instruction following can help strengthen this crucial skill. The key is providing systematic practice that gradually increases in complexity.

Building Confidence and Reducing Anxiety

Addressing the emotional component of math learning is equally important. Many children with processing challenges have developed anxiety around mathematics that actually interferes with their ability to think clearly about numbers. Creating positive experiences with mathematical concepts helps break this cycle.

Start with concepts your child can handle successfully and gradually build complexity. Celebrate small wins and focus on effort and improvement rather than perfect accuracy. Help your child understand that making mistakes is part of learning and that their brain grows stronger when they work through challenges.

Practical Steps You Can Take

Begin by incorporating mathematical thinking into daily activities. Cooking provides excellent opportunities for measurement, fractions, and proportional reasoning. Playing board games that involve counting, strategy, and logical reasoning helps develop mathematical thinking in a fun context.

Focus on understanding rather than memorization. Instead of drilling math facts, help your child understand the relationships between numbers. Use visual representations, manipulatives, and real-world examples to make abstract concepts concrete.

Consider using structured programs designed to build processing skills systematically. The Brain Bloom System provides comprehensive exercises that develop the cognitive foundations necessary for mathematical success. These programs recognize that sustainable improvement comes from strengthening underlying abilities rather than teaching compensatory strategies.

Remember that progress may be gradual but can be profound. Many parents report that after focusing on building foundational skills, their children not only improve in math but also show increased confidence, better focus, and improved learning abilities across all subjects.

The journey from math struggles to math success isn’t about finding ways to work around your child’s challenges—it’s about building the skills that will help them thrive. With the right approach, consistent practice, and appropriate expectations, your child can develop the mathematical thinking skills they need for success. Your belief in their capacity for growth and your commitment to providing appropriate support will make all the difference in their mathematical journey.

Math struggles don’t have to define your child’s relationship with numbers for life. The outdated belief that dyscalculia is a fixed condition steals hope from families and limits children’s potential before they’ve had a chance to develop their mathematical thinking skills. As your child’s first and most influential teacher, you have the power to build the cognitive foundations that support mathematical success. You know your child better than anyone—their learning style, their interests, their strengths. The Learning Success All Access Program gives you the science-backed tools to strengthen the processing skills that make math make sense. Don’t let math struggles hold your child back any longer. Start your free trial today at https://learningsuccess.ai/membership/all-access/ and watch your child develop the mathematical confidence they deserve.

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