Neuroscience of Reading PDF

Summary

This document explores the neuroscience of reading, detailing the brain regions involved in the process. It discusses neuroimaging studies and their significance in understanding brain development and reading proficiency. The document also analyzes neural processing for word recognition and comprehension.

Full Transcript

CHAPTER 5:
NEUROSCIENCE OF
READING
Science and Development of Reading – Week 7
 Intended Learning
Outcomes
At the end of the lesson, the learners are expected
to:
Understand the brain regions involved in
reading;
Discuss the significance of neuroimaging
studies;
Explain the connection between brain
development and reading proficiency;
Analyze the role of neural processing in word
recognition;
Discuss neural mechanisms in reading
comprehension; and,
Apply knowledge of the neuroscience of reading
BRAIN REGIONS
INVOLVED IN
READING
 Three Main Parts of the
Brain

CEREBRUM CEREBELLUM BRAIN STEM
cognitive coordination and automatic
functions and balance functions
movements
 Four Major Brain Regions
Involved in Reading
OCCIPITAL LOBES – These
are located at the back of
the brain. These are
responsible for
recognizing and
interpreting visual
information. The outer
layer of the neocortex
covering the occipital
lobes is the visual cortex.
 Four Major Brain Regions
Involved in Reading
PARIETAL LOBES – These
are located above the
occipital lobes and at the
top of the back of the
brain. These integrate
sensory information and
combine tactile input with
both sounds and visual
information entering the
brain.
 Four Major Brain Regions
Involved in Reading
TEMPORAL LOBES –
These are located above
the ears on either side of
the brain. These are
responsible for hearing,
some speech, and
some memory. These
are covered by the part
of the neocortex called
the auditory cortex.
 Four Major Brain Regions
Involved in Reading
FRONTAL LOBES – These
are located behind the
forehead, which are
responsible for reasoning,
motor skills, higher-level
cognition, and
expressive language.
The part of the neocortex
that covers the frontal
lobes is known as the
association cortex.
Other Parts of the Brain
Involved in Reading
THALAMUS – It is sometimes
referred to as the “Grand
Central Station” for the
brain. It receives all the
incoming information and
sends it to appropriate
areas for processing.
Other Parts of the Brain
Involved in Reading
BROCA’S AREA – It is
named after Paul Broca, a
French surgeon. Its
functions include
articulation of speech
and comprehension of
meaning.
Other Parts of the Brain
Involved in Reading
WERNICKE’S AREA – It is
named after Carl Wernicke, a
German psychiatrist. It is
located in the left temporal
lobe and adjacent to the
parietal lobe. It is used for
comprehending language,
both spoken, written, and
sign language.
Other Parts of the Brain
Involved in Reading
ARCUATE FASCICULUS – It
is the band of fibers that
connect the Broca’s
area and the
Wernicke’s area, and
relay information
between these two
structures.
Other Parts of the Brain
Involved in Reading
ANGULAR GYRUS – It lies
between the Wernicke’s
area and the visual
cortex. It is responsible for
recognizing symbols
such as letter.
Other Parts of the Brain
Involved in Reading
CEREBELLUM – It is
located in the back of the
brain beneath the
occipital lobe. It is often
referred to as the “little
brain,” which helps with
the timing and
synchronization of
speech.
Other Parts of the Brain
Involved in Reading
HIPPOCAMPUS – It is
embedded deep into
temporal lobe. It is important
for memory and the
formation of new
knowledge related to
reading comprehension. It
helps in linking information
from different parts of the
text to create a coherent
 NEUROIMAGING
STUDIES AND
READING RESEARCH
Definition of Neuroimaging
It includes the use of various techniques to
either directly or indirectly image the
structure, function, or pharmacology of the
brain.
It allows neuroscientists to see the inside of
the living brain.
Two categories of neuroimaging: (a)
structural imaging and (b) functional
imaging.
Different Tools Used for
Neuroimaging
Electroencephalography
(EEG)
It measures the electrical
activity in the brain. It
helps scientists see when
there are areas of neurons
that respond to specific
stimuli.
Different Tools Used for
Neuroimaging
Computerized Axial
Tomography (CT or CAT)
It combines x-rays with
computer technology to
produce two-dimensional
and three-dimensional
images of slices of the
brain. It shows the structure
but not the function of the
brain.
Different Tools Used for
Neuroimaging
Positron Emission
Tomography (PET)
It measures the amount of
radiation and activity in
various brain areas.
Different Tools Used for
Neuroimaging
Functional Magnetic
Resonance Imaging (fMRI)
It shows the levels of
deoxygenated blood in
the brain cells.
 Key Findings and Insights from
Neuroimaging Studies in the
Field of Reading Research
Reading Networks – The left hemisphere of
the brain, particularly the regions in the
posterior part of the left frontal lobe (Broca's
area) and the left temporal lobe (Wernicke's
area), is known to be crucial for language
processing and reading comprehension.
 Key Findings and Insights
from Neuroimaging Studies
in the Field of Reading
Research
Phonological Processing – The left superior
temporal gyrus is heavily involved in
phonological processing, which is essential for
decoding written words into their
corresponding sounds.
 Key Findings and Insights
from Neuroimaging Studies
in the Field of Reading
Research
Visual Word Form Area (VWFA) – The
VWFA, located in the left ventral
occipitotemporal cortex, is specialized for
recognizing and processing visual word forms.
Neuroimaging studies have consistently shown
that this region becomes highly active when
individuals read words, suggesting its role in
word recognition.
 Key Findings and Insights
from Neuroimaging Studies
in the Field of Reading
Research
Orthographic Processing – The left fusiform
gyrus, also known as the visual word form
area, is involved in processing the visual
features of written words, such as their letter
shapes and word patterns. This region helps in
recognizing familiar words quickly.
 Key Findings and Insights
from Neuroimaging Studies
in the Field of Reading
Reading Comprehension Research
– Reading
comprehension is a complex process that
involves the integration of various brain
regions, including the left angular gyrus and
the left prefrontal cortex. These areas play
critical roles in higher-order processes, such as
understanding text, drawing inferences, and
maintaining context.
 Key Findings and Insights
from Neuroimaging Studies
in the Field of Reading
Dyslexia – Individuals with Research
dyslexia often
exhibit differences in brain activation patterns,
with less activation in certain reading-related
regions. This has led to a better understanding
of the neurological underpinnings of reading
difficulties and the development of targeted
interventions.
 Key Findings and Insights
from Neuroimaging Studies
in the Field of Reading
Developmental Changes –Research
Longitudinal
neuroimaging studies have revealed how the
brain regions involved in reading change as
children learn to read. These studies have shown
that reading instruction can lead to changes in
the structure and function of the reading network
over time.
 Key Findings and Insights
from Neuroimaging Studies
in the Field of Reading
Research
Bilingualism – It explored how the brain
processes reading in bilingual individuals. It
has demonstrated that bilinguals may engage
additional brain regions when reading in their
second language, reflecting the cognitive
demands of language switching and
translation.
 Key Findings and Insights
from Neuroimaging Studies
in the Field of Reading
Individual Differences – Research
Neuroimaging
studies have helped identify brain-based
predictors of reading ability and individual
differences in reading skills. This information
can be useful for tailoring reading
interventions to specific needs.
 LINKS BETWEEN
BRAIN
DEVELOPMENT AND
LITERACY
 The brain undergoes rapid growth and
development during early years of life
(infancy to early childhood).
Literacy skills heavily rely on the language
centers of the brain, the Broca’s area and
Wernicke’s area.
The brain exhibits neuroplasticity, which
enables it to adapt and reorganize itself in
response to learning experiences.
Phonological processing
is important in the development of a person’s
literacy skills.
 Reading goes through a series of stages,
which are associated with distinct brain
activation patterns.
Literacy is closely related to other
cognitive skills such as focus, memory,
and executive functions.
 References
Sprenger, M. (2013). Wiring the Brain for Reading: Brain-
based Strategies for Teaching Literacy. John Wiley & Sons,
Inc.
Hill Learning Center. (2022). The Reading Brain | How We
Learn To Read [Video file]. Youtube.
https://www.youtube.com/watch?v=A2HHrKpjlYM
Brain Imaging: What Are the Different Types?
https://www.brainline.org/slideshow/brain-imaging-what-ar
e-different-types
Houston, S. M., Lebel, C., Katzir, T., Manis, F. R., Kan, E.,
Rodriguez, G. G., & Sowell, E. R. (2014). Reading skill and
structural brain development. Neuroreport, 25(5), 347–
352. https://doi.org/10.1097/WNR.0000000000000121