Left vs. Right: What Your Brain Hemispheres Are Really Up To

• July 12, 2011 by Martha Burns, Ph.D

In the 1980’s, brain researchers viewed the two sides of the brain as dichotomously opposed: the right hemisphere was seen as a gestalt processor, good at “seeing the big picture,” while the left hemisphere was attributed with detail processing skills. Other views at that time attributed the left hemisphere with being more logical and analytical while the right hemisphere was considered more intuitive.^[i]

Some went so far as asserting that men and women exhibited different right vs. left preferences: men were attributed with stronger left hemisphere skills and women better right hemisphere skills. Although this male-female distinction was never empirically verified through research, the somewhat “pop-psychology” view that the right hemisphere is important for skills like music and art, predominated. In fact, there were books written instructing individuals on how to “draw with the right hemisphere” or how to “teach to the right hemisphere”.^[ii]

It now appears that some of these notions need to be revised.  A current view is that, for the majority of us, the right hemisphere is a pattern recognizer that may develop before the left. From this perspective, the right hemisphere enables a child to attend to and appreciate the gist of a sensory experience within each cognitive domain. For example, in acquisition of mathematical concepts, the right hemisphere may enable a young child to appreciate quantities in terms of more vs. less prior to assigning numerical values to the quantities (which would involve left hemisphere skills). There is research demonstrating that babies can discern a group of dots in terms of general aspects of quantity.^[iii]

Patricia Kuhl at University of Washington in Seattle has shown that typically developing infants show an interest in human voices over other environmental sounds like a car horn or doorbell, and direct their attention to human voice when it conveys information that is interesting.^[iv] Ultimately this may lead to an understanding of how the melody of a voice is used to convey a person’s intent.  In other words, recent research suggests that the right hemisphere may be best at processing patterns like voice contour, facial expression, aspects of size and quantity, gestalt aspects of the world which, from a developmental perspective, represent the way children begin to learn about cognitive areas like music, art, mathematics or language.

Considering the cognitive domain of music, for example, the right hemisphere appears to have a fundamental preference for recognizing melody, which allows a young infant to be interested in and ultimately reproduce early nursery songs. In the realm of visual processing, the right hemisphere has been shown to be better at perceiving the form or outline of an object than the details contained within the object.^[v]. And, similarly, although many people regard the left hemisphere as dominant for language, newer research has shown that the right hemisphere is superior at processing information like vocal inflection (prosody), and perhaps going directly from word to meaning, especially in very familiar phrases like idiomatic expressions (eg., “it is raining cats and dogs”) while the left hemisphere is more important for processing aspects of language that depend on analyzing the specific sequence of the sounds and words which are essential for understanding grammatical form of language and perceiving internal details of words.^[vi]

Several neuroscientists have accordingly revised and expanded the early right-left dichotomy to see the right hemisphere as preferential in processing form, structure, and perhaps, direct links to emotion,^[vii]  while the left hemisphere handles complex, rapidly changing stimuli, in which discerning the specific sequential order is critical to perception (as in speech perception, for example, where one must discern and order very rapidly changing complex acoustic events very quickly.)^[viii]

Another revision to the older view of right versus left hemisphere complements the view that the right hemisphere is preferential for pattern analysis, and comes from developmental neuroscience which has reported research that supports the contention that for most cognitive skills the right hemisphere matures before the left.^[ix] This certainly seems to the case when one looks at the early stages of neuronal development and migration in the fetal brain,^[x] and also the building of early axonal superhighways, as well as the research on myelination.^[xi] In fact, it may be that when this typical right to left maturation does not occur, developmental neurological abnormalities result. For example, there is some early research evidence that Autism Spectrum Disorders may represent one example of developmental deviations in this typical right-to-left developmental hierarchy.^[xii]

Although it may seem somewhat of a stretch from the early research in this area, one can observe how this organization might be reflected in early childhood development in the stages children pass through in the gradual mastery of skills. For example, when a child first begins to enjoy music, the observant adult notices that the child moves his or her whole body to the musical rhythm. For nursery songs, like “Twinkle Twinkle Little Star” the child often begins by humming the melodies. In both cases, this may represent right hemisphere processing.

In most cases, it will be a few years before the child will be able to read musical symbols which would presumably involve more left hemisphere skill. We do have research that shows that when three month old babies are first listening to oral language, the right hemisphere is much more active than the left.^[xiii] Patricia Kuhl has shown that mothers instinctively seem to match their speech to babies’ early developing perceptual preferences by exaggerating melodic inflection with young babies, probably reflecting their intuitive knowledge that they need to exaggerate the language cues (intonational contour and vocal inflection) that the right hemisphere seems to process preferentially while deemphasizing the production of the speech sounds themselves (left hemisphere preferences).^[xiv]
 

[i] Deutsch, Georg and Sally P. Springer. Left Brain, Right Brain: Perspectives From Cognitive Neuroscience . W.H. Feeman and Company/Worth Publishers. 2001.
[ii] Edwards, Betty. Drawing on the Right Side of the Brain. Penguin Putnam Press. 1999.
[iii] Xu, Fei et al. (2005) Number sense in human infants. Developmental Science. Vol. 8. 2005.
[iv] Kuhl, Patricia. Early Language Acquisition: Cracking the Speech Code. Nature Reviews Neuroscience. Vol 5. 2005.
[v] Devinsky, Orrin and Mark D’Esposito. Neurology of Cognitive and Behavioral Disorders. Oxford University Press. 2004.
[vi] Hickok, Gregory and David Poeppel. The Cortical Organization of Speech Processing. Nature Reviews Neuroscience. 2007.
[vii]Cahill, L. et al. Sex-Related Hemispheric Lateralization of Amygdala Function in Emotionally Influenced Memory: An fMRI Investigation. Learning and Memory. Vol. 11: 261-266. 2004
[viii] Tallal, Paula. Improving Language and Liteacy is a Matter of Time. Nature Reviews Neuroscience Vol. 5. 2004.
[ix] Huttenlocher, Peter. Morphometric Study of Human Cerebral Cortex Development. Neuropsychologia. Vol. 28. 1990.
[x] Galaburda, Albert et al. From Genes to Behavior in Developmental Dyslexia. Nature Neuroscience  Vol 9. 2006.
[xi] Herbert, Martha et al. Brain Asymmetries in Autism and Developmental Language Disorder: A Nested Whole-Brain Analysis. Brain: A Journal of Neurology.2004.
[xii] Herbert, Martha et al. Ibid.
[xiii] Hickock, Gregory and David Poeppel. Ibid.
[xiv] Kuhl, Patricia. Ibid.

Related Reading:

A Gymnast, a Cursor and a Monkey Named Aurora

7 Amazing Discoveries from Brain Research

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Categories: Brain Research, Reading & Learning

Tags: auditory processing, brain development, cognitive skills, infant brain, Innate abilities, language learning, memory, musical training, phonemic awareness

The Need for Physically Active Learning

• July 7, 2011 by Sherrelle Walker, M.A.

The human mind is most engaged to react and perform at optimal capacity when our hearts are pumping and our blood is flowing. Any athlete will tell you that he or she feels most alive and sharp when they are in the midst of the contest, heart beating hard, mind alert and ready. Given the interconnected nature of how our brains and bodies function, how the brain gets more oxygen and works better when the heart is pumping, it’s easy to see that we are designed not only to learn, but to think best “on our feet.”

In fact, this concept extends far beyond circulation alone; physical activity has been shown to have substantive affects on brain chemistry. In 2003, Sibley and Etnier demonstrated that, for 4-18 year-olds, exercise positively impacts perception skills, IQ, achievement, verbal and math scores, development and academic readiness.^[i] Exercise can affect the release of neurotransmitters key to the learning process, such as norepinephrine (which increases blood flow to skeletal muscles as well as to the brain) and acetylcholine (which can slow the heart rate and contribute to sustained attention).

With these concepts in mind, now imagine the modern classroom. The average student sits for hours a day usually sitting still.  She shouldn’t stand up and stretch, or worse, walk around the classroom. (For goodness sake, that’s distracting to the other students and disrespectful to the teacher.) Physical education programs are getting cut due to shrinking budgets, and recess time is being cut to create more opportunities for test preparation. Obesity and diabetes are dangerously on the rise. Since the early 1970s, the number of overweight students has quadrupled from four percent to seventeen percent. (American Heart Association)

In general, the classroom becomes a place where we expect students to focus the mind and quiet the body. What we’re learning is that this is just not necessarily the best way to go. A new trend in classroom management is bringing this tradition into question. Through what is becoming known as “physically active learning,” educators are not only experimenting with integrating more physical activity into classroom lessons, but they are generating positive results.

According to Jena Mee, a physical education and school health education consultant for the Department of Education, “Research is showing us very persuasively that if students exercise for sustained periods of time before they do challenging work, they perform cognitive tasks better, they remember things better, they can apply their skills better.”^[ii]

In theory, the idea is to break up lessons with short breaks of physical activity that get students up out of their seats and moving around the room. According to eSchool News, “The approach also has been shown to improve attendance and student behavior and reduce discipline referrals.”

As educators under pressure to maximize student academic performance, we often focus on the material and forget that our real goal is to help the whole child. This research is just one more reminder that we need to attend to the body as well as the mind. If we can do both, we will help our students become all that much more successful.

While the research is still developing, you can get the story as reported this past May on eschoolnews.com.

And if you want to explore one idea to bring more physical activity into your classroom, how about using exercise balls instead of chairs?

[i] Sibley B.A. and Etnier J.L. (2003). The relationship between physical activity and cognition in children: a meta- analysis. Pediatric Exercise Science, 15:243-256.

[ii] ‘Physically active learning’ improves test scores, sharpens concentration. eSchool News. May 16, 2011.

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Categories: Education Trends, Reading & Learning

Tags: attention, behavior, cognitive skills, effort, elementary school learning, emotions in learning, exercise, health and well being, how children learn, learning environment, learning through play, memory, motivating students, physical education, play, self-esteem, student growth, teacher impact

5 Paths To Brain Health: Tips From Dr. Paul Nussbaum

• July 5, 2011 by Carrie Gajowski

As the webinar coordinator here at Scientific Learning, I hosted yet another fascinating webinar about brain health with Dr. Paul Nussbaum in early May called “Brain Health Across the Lifespan”.  Dr. Nussbaum combined humor with interesting facts about the brain and the webinar ended up being one of our best sessions to date.  He provided a simple yet comprehensive look at the brain and how it functions. 

One interesting story Dr. Nussbaum shared was about the development and eventual delaying of the onset of Alzheimer’s disease based on lifestyle choices.  He cited research that has been done at autopsy that shows that there can be evidence of Alzheimer’s disease in the brain that has never manifested in memory problems during a person’s life.   

Dr. Nussbaum concluded that if you look at the individual’s life, you might find that they had a higher education level or more demanding occupation or participated in complex and varied activities throughout life, building up a stronger and more “fit” brain and delaying the onset of the disease.

He then covered 5 important aspects to brain health and suggested some activities that can keep your brain fit and healthy throughout your lifetime:

1. Nutrition:  Eat more “good” fats including Omega-3 fatty acids, more fruits and vegetables, and fewer “bad” fats and processed foods. 
2. Socialization:  Stay involved with life and develop a personal mission and hobbies along with building networks of family and friendships.
3. Physical Activity: Be mobile and active.  Walk, play, run, garden, exercise, bike, hike.  These activities can help reduce the risk of dementia later on in life.
4. Mental Stimulation:  Learn a second language, learn sign language, travel, play board games, and either play or listen to music.
5. Spirituality:  Slow down, meditate, and learn relaxation procedures.  Identify what your stressors are and how they affect you and then identify ways to handle them.

To find out more about Brain Health, watch our previously recorded webinar or visit Dr. Nussbaum’s website.

Related Reading:

Lifelong Leaning and the Plastic Brain

Educating Kids about Nutrition and the Brain

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Categories: Brain Fitness, Reading & Learning

Tags: brain training, cognitive skills, effort, exercise, health and well being, language learning, memory, musical training, play, Scientific Learning events, webinar

Individualizing Instruction Through Understanding Different Types of Learners

• June 14, 2011 by Terri Zezula

For an educator, getting to know each learner is like experiencing a new book. Every child—every mind that comes into the classroom—represents a new discovery with every turn of the page, their own way of seeing and experiencing the world, and they each bring a unique library of experiences, hopes, fears and dreams.

Now, while that makes for a poetic discussion about the wonderful variety among students, it also makes for a practical challenge in helping every one of these individuals achieve their greatest potential. How can an educator present information such that all of these learners—with all their different world views and brain wirings—will get the most out of the school experience?

Researchers have generated multiple models of the mind, each providing its own way of understanding how we can conceptualize and leverage learning differences in the classroom. Such categories are simply ways for us to classify students and ensure that we are reaching every one as effectively as possible.

All these models strive to answer one single question: How does each individual learner experience and process the world around them? Academics have spent great energies on unlocking these secrets and developing models of how we learn. A quick trip through just a few of these theories (and there are many other theories out there) gives us an idea of the breadth of ideas posed by experts of note since the 1980s:

• David Kolb described four types of learners: convergers (who develop abstract concepts and then actively experiment), divergers (who experience the world and then reflect on their observations), assimilators (who develop abstract concepts and then observe and reflect), and accommodators (who experience the world and then actively experiment).
• Honey and Mumford labeled learners as activists, reflectors, theorists and pragmatists.
• Anthony Gregorc described how people perceive the world in two ways (concrete and abstract) and order the world in two ways (random and sequential), and developed a model with four learner types based on the possible combinations of these qualities.
• Fleming’s model described learners as visual, auditory, read-write or kinesthetic, classifying learners by the kind of information that they most effectively assimilate.
• Howard Gardner described eight different “intelligences,” including linguistic, logical/mathematical, spatial, bodily/kinesthetic, musical, interpersonal, intrapersonal and naturalist.

 

In looking at these frameworks as a group, they all converge in certain ways and diverge in others. But one element remains consistent throughout, and that is the motivation for having them in the first place. There is a clear practical need for such frameworks in the classroom. Education is not a one-on-one teacher/learner proposition. As much as we would like, we as educators simply cannot provide fully individualized instruction for every student in a classroom of twenty or thirty.

The art and science of classifying how the human brain processes and learns is and will constantly change as we discover more and more about how the brain works. Whichever model or models are applied in the classroom (and again, the best educators will have a deep enough command of each of these models to leverage the best of each), it is up to educators to ensure that each learner is developing and cultivating the same set of core, fundamental cognitive skills: memory (the ability to store information), attention (the ability to focus on tasks and filter out distractions), processing (how fast a student can perceive and manipulate information), and sequencing (how accurately a student can order information).  These four key cognitive skill sets, when developed together, have been demonstrated to improve learning and reading. Thus, any teaching we do based on learner classifications must support the development of these skills.

That said, if these classifications add power and efficiency to the way we impart these skills to our students and classes, then we should make use of them as much as possible. In the end, any tricks we can use, any knowledge we can leverage, any technique we can employ—if the research demonstrates it to be effective—represents a valid bit of knowledge that we can use to help our students succeed.

Learn more about the four essential cognitive skills of memory, attention, processing, and sequencing. For further reading:

Kolb, D. A. 1984. Experiential learning: Experience as the source of learning and development. New Jersey: Prentice-Hall.

Honey, P & Mumford, A, (1982). The Manual of Learning Styles. Maidenhead, UK: Peter Honey Publications.

Mills, D. W. (2002). Applying what we know: Student learning styles. Retrieved May 22, 2011.:

Gardner, Howard (1983; 1993) Frames of Mind: The theory of multiple intelligences, New York: Basic Books. Second edition published in Britain by Fontana Press.

Related Reading:

Inspiring Students to Dream, Learn and Grow

AMPing Up Our Teaching to Increase Intrinsic Student Motivation

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Attend one of our popular webinars with thought leaders in learning. Live and pre-recorded webinars are available. Register today!

Categories: Brain Research, Reading & Learning

Tags: attention, cognitive skills, how children learn, Innate abilities, learning environment, memory, motivating students, processing rate, sequencing, student growth, teacher effectiveness

Inspiring Students to Dream, Learn and Grow

• May 10, 2011 by Sherrelle Walker, M.A.

We educators talk a lot about student engagement. We understand that engagement is the magic key that drives the student and creates the moment when they become self-motivated. Engagement must be at the core of our goals as educators, for an engaged student finds wonder in their learning, and they not only find meaning in their studies, but they grow personally, for a lifetime, as a result of that learning.

But what do we really mean when we talk about the engaged student? What does it look like in the brain when a student is truly inspired? In the 2008 article, Engaging Students with Brain-Based Learning, the authors cite research from LeDoux, Eden and Schacter whose studies found connections between learning and 1) connections with emotions and memories, 2) relationships to real-life experiences, and 3) “activation of both the auditory and visual areas of the brain to create meaning.”^[i]In short, they are talking about what has become known as “brain-based learning,” which consists of teaching strategies that encourage the brain to make associations and “create synaptic connections and anchor learning through contextual experience.”^[ii]

In many ways, the research has confirmed what humanity’s greatest thinkers discovered long ago. How many years has it been since you slowed down and went back to meditate for a moment on some of the great axioms about learning and education? They hold wonderful hints and secrets that not only still apply, but have been proven by even the most modern research.

• “Education's purpose is to replace an empty mind with an open one.” (Malcolm Forbes, 1919-1990) To engage our students, we need to teach them not only to develop answers, but also learn to ask questions. We need to engage their judgment, creativity and reason, not just their memories.
• “Education is not the filling of a pail, but the lighting of a fire.” (William Butler Yeats, 1865-1939) Clearly for students to be inspired to not just succeed but also to exceed, we educators must engage their passions and, as stated above, their emotions. Our challenge is to seek out those things that are of direct personal interest to our students, and then show them how to find the connections to these passions and what we’re focusing on in the classroom.
• “There is nothing training cannot do. Nothing is above its reach. It can turn bad morals to good; it can destroy bad principles and recreate good ones; it can lift men to angelship.” (Mark Twain, 1835-1910) These words are beautiful at so many levels, but at the purely practical one, Twain reminds us of something that we need to bring to our students attention every day. We can help them develop an awareness that they are learning so much more than facts and processes; they are learning the skills that will allow them to contribute to solving the problems of humanity. In short, we need to show them how they are developing the power to change the world.

What? Who has time to instill passion, emotion and caring? Many teachers are doing this every day, but we need more! Quite often, educators are pressed more to ensure that students are able to do their multiplication tables, find the capital of North Carolina on a map of the United States and recite the chemical formula for water. 

And yet, our greatest challenge remains inextricably linked to our greatest hope for the future. We must do all we can to light those fires of inspiration and help our students find those deep personal connections to their learning. If we can do that, not only will they learn more successfully, but it will be our students who grab the reins, take charge of their learning, and maybe—just maybe—find their way toward Twain’s angelship.

[i] Kaufman, E. Robinson, S. Bellah, K. Akers, C. Haase-Wittler, P. Martindale, L. Engaging Students with Brain-Based Learning. ACTE Online. September 2008.

[ii]Ibid.

For further reading:

Pychyl , Timothy A. Don't Delay: Understanding procrastination and how to achieve our goals. Psychology Today Blogs. May 10, 2008.

Haenke, Rod. Using Brain Research to Engage Students. Engage Learner. October 3, 2008. 

Related Reading:

Using the Human Element to Make Science Fun and Approachable

Teaching Creativity in the Classroom

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Attend one of our popular webinars with thought leaders in learning. Live and pre-recorded webinars are available. Register today!

Categories: Brain Fitness, Brain Research, Education Trends, Reading & Learning

Tags: brain training, elementary school learning, emotions in learning, high school learning, how children learn, learning environment, memory, middle school learning, motivating students, student reading growth, teacher impact

Indispensible Automaticity: How Reading Frees the Mind to Learn

• February 22, 2011 by Terri Zezula

“The quick brown fox jumps over the lazy dog.”

As a pangram, a sentence that uses every letter in the alphabet, this one is wonderfully concise, quick and easy to process. You probably read it and understood it all in less than a single second. You didn’t have to think about what the individual letters or sound out the syllables. You knew how the ideas fit together because of how well you have internalized the parts of speech. You were able to digest the text with what is known as automaticity.

Automaticity is that ability to do things without having to think about them at a conscious level. When we do something automatically, the mind isn’t occupied with the small details of the task. Imagine some of the common every day activities you do with automaticity: driving a car, adding five plus three, riding a bicycle, catching a ball, dialing a telephone, and, yes, reading and writing. We acquire these skills through simple repetition and practice. Over time, such repetition establishes automatic response patterns that our brains call upon constantly throughout our daily lives. In achieving automaticity, we free our brains – our working memories – from the details of the task, allowing us to use that brain power to do more, building on those sets of automatic skills.

For our students, achieving automaticity  in reading is essential not only to their becoming effective readers, but becoming effective all-around learners. The majority of students make the shift from “learning to read” to “reading to learn” around second or third grade. At this stage, their reading skills have developed to a point of automaticity where they no longer need to use their working memory to facilitate the task of reading, and they can use that memory for things like interpretation, comprehension and creative thinking.

On the other hand, imagine what learning becomes for the struggling student who does not develop this automaticity alongside his or her fellow students. As others begin to learn more and more from their reading, the struggling reader must engage their working memory in the challenge of getting through the letters and words of each sentence as opposed to using that valuable memory to glean meanings and assimilate information. As their reading skills lag, their overall ability to learn suffers.

We cannot underestimate the importance of building rock-solid foundations in reading and math for exactly this reason. If we are to successfully teach students, we must help them develop the automaticity in these basic skills that will free their minds to soar and explore all that lies ahead.

For more information and ideas to help students develop reading automaticity, read The Importance of Automaticity and Fluency For Efficient Reading Comprehension by Pamela E. Hook and Sandra D. Jones, from Perspectives, Winter, 2002, vol. 28, no. 1.

Related Reading:

Print Exposure, Reading Fluency, and Academic Success

Teaching Children to Read

Creating Reading Intention to Improve Reading Comprehension Skills in Students

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Attend one of our popular webinars with thought leaders in learning. Live and pre-recorded webinars are available. Register today!

Categories: Brain Fitness, Education Trends, Reading & Learning

Tags: brain training, child reading development, cognitive skills, creativity, early learning, elementary learning, how children learn, learning to read, literacy, memory, phonemic awareness, reading comprehension, struggling readers, struggling students, student reading growth

Intensive Intervention Tier 3: What leads to the need?

• January 20, 2011 by Terri Zezula

To start talking about intensive intervention tier 3 in the Response to Intervention Model, I want to start by asking you a simple question:

Are you having chicken for dinner tonight?

You probably can’t fathom how fast your brain arrived at the yes or no conclusion that popped into your head. And yet, to process that one sentence, your brain had to think through seven words, eleven syllables, 19 to 21 phonemes, 35 letters and three distinct “e” sounds. And your amazing brain did all that, sequencing the concepts, drawing on your memory and formulating an answer, in fractions of a second.

The reason your brain was able to perform such an incredible feat is because you have the foundational knowledge -- and the countless neurons in place and linked up in your brain -- to process that information. Those connections are the result of years of language acquisition and learning, the majority of which happened when you were less than four years old.

We are born with the natural ability to acquire language and speech; it is the first test of our brain’s capacity to learn. When we speak and read to infants and young children, we are helping to establish that linguistic foundation, teach speech, develop vocabulary and impart those essential skills. Reading is a different story. Written language must be taught and learned; that’s why we focus on reading skills so heavily in preschool and kindergarten.

But what happens when children don’t get that essential exposure to language early on? What if a child experiences chronic ear infections in his first four years? What if her parents work long hours and don’t read to her often? What if a child does not receive that essential early language stimulation?

Early language development is the precursor for reading; without that indispensable input, a child’s brain literally does not learn how to process input correctly. Consider that by the time she is four years old, on average, the child of a professional family has absorbed over three times the number of words as a child of a family of low socioeconomic status. Often, it is these children who end up without the prerequisite language skills and more often than not become struggling readers -- those requiring those tier 3 interventions -- all because of their language foundations.

The great news is that these students DO NOT have to end up out of the mainstream, using valuable tier 3 resources. In the average class, 1 to 5 percent of students do not progress adequately and need intensive interventions. Still, 40 percent of those students who are identified with learning disabilities are simply having trouble reading. If we can bring those students back into the mainstream with proven, scientifically-based brain fitness exercises, we can give them more promising futures as well as free up tier 3 interventions for those students who truly need them.

To learn more about the neurological science behind why these deficits occur in the brain, as well as how we can remedy them, I encourage you to gather your team together over a lunch and watch the webinar, RtI Tier 3 Intensive Interventions: A Neuroscience Perspective. Delivered by Dr. Sherry Francis, it offers fantastic insights to enlighten how we think about these students and their needs and abilities, as well as concrete solutions to help them achieve success.

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Categories: Brain Fitness, Education Trends, Reading & Learning, Special Education

Tags: academic assistance, accelerate learning, below grade level, child reading development, cognitive skills, early learning, how children learn, improving reading skills, intensity, intervention, language learning, learning to read, memory, processing rate, reading intervention, response to intervention tier iii, rti tier iii, struggling readers, struggling students, technology in education, webinar

Learning Difficulties in Children

• December 28, 2010 by Terri Zezula

Today, you are nine years old and in the third grade. You enjoy playing on the monkey bars at recess and drawing pictures of your dog and your fish. You also like watermelon hard candies, mac and cheese, and, to your friends’ bewilderment, you have an affinity for tuna fish sandwiches, especially when your mom has mixed crunchy celery in with the tuna.

But also unlike your friends, you have often felt that school seems harder than it should be. For some inexplicable reason, you tend to make more mistakes than your classmates. You have a hard time grasping math concepts that they seem to get easily. You don’t remember geography facts as well as they do. And because of those difficulties, you feel different and separate from those around you. You feel incapable. You feel like a failure. And because of it, you feel angry, sad and alone.

While this is a simplistic snapshot of the thoughts typical of children with learning difficulties, such an exercise reminds us of two things: the magic of being young, and the loneliness and frustration of a youngster who lives with these challenges.

According to the Child Development Institute, six to ten percent of school-aged kids in the US are learning disabled. The causes of learning disabilities vary from genetics to nutrition to pre-birth and early childhood injury, and the challenges that children with learning difficulties experience tend to fall into five different areas: spoken language, written language, math, reasoning and memory. They may simply work slowly. They may have disorganized thinking. They may have difficulty in sequencing tasks. They may have poor impulse control. They many experience these difficulties in any number of combinations and groupings.

All children have problems. They all experience challenges with school and in social relationships. But when these problems begin to appear in combinations and clusters, or if they persist for long periods, we as educators must take a close look and ask ourselves whether the student’s challenges fall within normal ranges, or whether they should be evaluated in more detail.

If an evaluation comes back with an indication that a student has a learning difficulty, it is absolutely essential for educators and parents to team up and support that student in every way possible. If an IEP (individualized education plan) is in order, everyone needs to be informed and on board to support the student’s new path.

What exactly can we do for these children to boost their self-esteem? Writing for the Learning Disabilities Association of Illinois, clinical psychologist Aoife Lyons offers a number of recommendations:

1. 1. Help children understand what the label means. This gives them a degree of ownership and control that they did not have before.
   2. Help them recognize their areas of strength as well as their areas of difficulty.
   3. Help them feel special and appreciated.
   4. Help them develop problem-solving and decision-making skills.

The good news is that, for the student who has experienced years of frustration and difficulty and loneliness, a positive diagnosis can be freeing. It gives them a clear explanation for why they have been experiencing all these feelings and difficulties. It allows them to once again be proud of who they are and see their differences in a new light. And, given the research, expertise and research based interventions available, it gives these students a clearer path forward to define--and achieve--their own success.

For further reading, check out:

1. 1. Self-Esteem and Learning Disabilities, Aofe Lyons, Ph.D.
   2. How Can Parents Foster Self-Esteem in Their Children? Dr. Robert Brooks, Ph.D.
   3. About Learning Disabilities, Child Development Institute

 

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Categories: Brain Fitness, Family Focus, Reading & Learning, Special Education

Tags: academic problems, academic success, cognitive skills, decision making, learning disabilities, math, memory, self-esteem, sequencing, struggling students

Our Lives Change, Too: From Fast ForWord® Skeptic to Believer

• December 21, 2010 by Carrie Gajowski

I often hear from customers and other Scientific Learning employees that our company is distinguished by the passion and commitment of those who work here.  One reason for that palpable passion is that many have been personally and deeply touched by the life-changing experiences that their own family members, students, or customers have experienced with Fast ForWord® and Reading Assistant™ products.  We have seen children’s lives be changed forever by these products.  Students who may not have had opportunities in school now can succeed in ways that wouldn’t have been possible even 15 years ago.

I have my own story to tell—about my nephew—and I will tell it here soon, but today I want to share a personal story from Cory Armes, one of our Education Consultants, who was so impacted by her experience with the Fast ForWord products that she left her teaching job to work for Scientific Learning:

“ I began my experience with the Fast ForWord products, or in my case, product, several years ago.  On a cloudy afternoon in February 1999, our Special Education Director gathered the diagnosticians (of which I was one) and speech pathologists to hear a presentation about a new product called Fast ForWord.  After the presentation, my mind was spinning to think that there might be even a modicum of truth to the research that he had shared…

As a certified skeptic, I had some serious questions about the claims he made that day.  After all, I knew as a teacher that if I made a year’s gain with my students in a year’s time, we were doing a good job.  My problem was that many of the students I worked with throughout my career came to me two-to-three years below grade level.  If we made a year’s progress in a year’s time, it was great but they still were two-to-three years behind.  So to have someone tell me that there was a product available that could help students make one-to-two years gain in a few weeks time was questionable at best.  I couldn’t imagine that brain fitness exercises actually could change a student’s ability to focus and retain information much less improve the way the brain processes.  But we had a recent article from ASHA (American Speech-Language-Hearing Association) that supported his claims along with other research information so decided to implement Fast ForWord as our summer school program.

After the meeting, I called the Special Education Director to ask if there was something that I could do, beyond the pre-and post-testing, to learn more about the program and how it worked.  She very graciously said, “Of course.” and promptly put me in charge of the implementation for the district.  Now, there were a few things to consider: first, I wasn’t convinced that this program would even work and, second, I’m a bit of a perfectionist.  So, I decided that there was only one thing to do and that was to run the implementation exactly as the company suggested with a strict fidelity to the protocol and a good motivational system in place so if we didn’t get the results they advertised, it wouldn’t be my fault!

Our first implementation included 25 first to eighth graders who had been through multiple reading products with little improvement.  I had a great team who loved kids and we had a blast for the six weeks that we ran the program.  I learned a lot about running Fast ForWord (such as you don’t need to allow ten minutes between exercises for breaks because you can’t get them to stop working!) and at the end of the fourth week at 100 minutes a day; we had some students reach completion.  In week five, we began post-testing those students and could not believe the results.  By the end of the six-week session, our students averaged a 1.5 year gain in language (using the Clinical Evaluation of Language Fundamentals and Lindamood Auditory Conceptualization assessments) and 1.5 years in reading (Gray Oral Reading Test)!

The rest, as they say, is history.  An eighth grader with an extremely high IQ but who, as a student with severe Dyslexia, had been reading on first grade level now tested at the fifth grade reading.  One of the third graders who essentially was a non-reader, went to fourth grade with improved reading skills and, after completing the second Fast ForWord product the following summer, was reading on grade level in fifth grade and passed the state reading assessment.  A fifth grader who was reading on first grade level became engaged in school the next year and after completing additional products over the next two school years, was on the A-Honor Roll, no longer required Resource assistance and, according to her mother, read everything she touched.  Many stories, many changed lives and my sincere regret that I didn’t have Fast ForWord much sooner in my career. 

After two years of supervising and implementing Fast ForWord for the district, I believed so strongly in the products that I joined Scientific Learning as a trainer.  Over the last ten years, I’ve seen wonderful product additions, large numbers of students using the products and a worldwide impact in accelerating learning. 

As my 4 -year-old granddaughter would say, “How cool is that”?

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Categories: Brain Fitness, Brain Research, Education Trends, Fast ForWord, Reading & Learning

Tags: academic problems, academic success, accelerate learning, attention, below grade level, brain training, cognitive skills, dyslexia, elementary learning, elementary school learning, increased test scores, intervention, memory, middle school learning, reading intervention, struggling readers, struggling students, student reading growth, technology in education

Where is Superman?

• December 7, 2010 by Terri Zezula

Why wait for Superman?  Students across the country are making great academic gains with great teaching, rich content and outstanding educators.

Take a look at Patterson High School in St Mary Parish, Louisiana where Kenny Hilliard could barely read at the level of a second grader when he reached high school. After a few weeks of doing the Fast ForWord program at school, he reads at grade level and he understands what he reads. Once at risk of dropping out of high school, now Kenny is headed for Louisiana State University on a football scholarship. Kenny had great teachers, a rich curriculum and a community that supported his academic and athletic goals. Yet Kenny, like many other students across the country, needed an intervention to help build his cognitive skills of memory, attention, processing and sequencing – the skills necessary for reading and learning.

“What changed is that Kenny did a computer program called Fast ForWord,” said Patterson High School Principal, Rachael Wilson. “He is such a talented football player, and his talents can carry him far, but recruiters are looking for kids who have talent and good grades. The first two questions recruiters ask me are ‘What kind of kid is he?’ and ‘What kind of grades does he make?’ Thanks to the progress Kenny made in Fast ForWord, he does not need to rely on athletic talent alone.”

Kenny says he was a little nervous at first, but he decided to give Fast ForWord a try. It is a program that is proven to accelerate learning and increase reading proficiency in students from kindergarten through high school. The software consists of brain fitness exercises and actually improves how the brain learns.

“It worked,” said Wilson. “Within weeks, Kenny began to see a change in his ability to focus. Over time, his reading comprehension improved dramatically and that’s helped him in all subjects, and he has the GPA and ACT scores required for enrollment into a four-year university.”

Today, Kenny continues to break records playing football for St. Mary Parish School District and is planning for his college courses at LSU. To learn more about Kenny and his amazing story, watch this video.

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Categories: Brain Fitness, Education Trends, Fast ForWord, Reading & Learning

Tags: academic problems, academic success, accelerate learning, ACT, at-risk, attention, below grade level, brain training, cognitive skills, high school learning, improving reading skills, increased test scores, Louisiana, memory, processing, reading intervention, sequencing, struggling readers, struggling students, technology in education, waiting for Superman