Module 39 - Speech & Language

Question 1

What is lateralization?

Answer 1

It is defined as localization of function or activity on one side of the body in preference to the other.
If you think of it in terms of our brain, our brain is made up such that each side has a preference for certain functions

Question 2

What is a visual example of the lateralization of the brain?

Answer 2

How the right side of our brain is set up to pay attention to the world.
Therefore a lesion to the right hemisphere would cause contralateral (left) neglect.

Question 3

What are the dominant hemisphere functions?

Answer 3

• ***Dominant = usually the left
• Language
• Skilled motor formulation (praxis)
• Arithmetic: sequential and analytical calculating skills
• Musical ability: sequential and analytical skills in trained musicians
• Sense of direction: following a set of written directions in sequence

Question 4

What are the nondominant hemisphere functions?

Answer 4

• ***Nondomimant = usually the right
• Prosody (emotion conveyed by tone of voice)
• Visual-spatial analysis and spatial attention
• Arithmetic: the ability to estimate quantity and to correctly line up columns of numbers on the page
• Musical ability: in untrained musicians, and for complex musical pieces in trained musicians
• Sense of direction: finding one’s way by an overall sense of spatial orientation

Question 5

Which hemisphere is usually responsible for visual-spatial analysis and spatial attention?

Answer 5

Nondominant = right hemisphere

Question 6

Which hemisphere is usually responsible for skilled motor formulation (praxis)?

Answer 6

Dominant = left hemisphere

Question 7

What are some of the parietal lobe deficits that we’re able to indicate that the left side of the brain is responsible for those actions?

Answer 7

• Apraxias → inability to perform a particular movement even though there is no paralysis (e.g. combing hair)
• Abstract reasoning: e.g telling time, math, reading
• Astereognosia: inability to identify an object from touch (“stereo” – 3 dimensions)

Question 8

RECALL→ What type of deficits are seen with left diencephalic lesions?

Answer 8

Verbal memory deficits

Question 9

RECALL → What type of deficits are seen with right diencephalic lesions?

Answer 9

Visual-spatial memory deficits

Question 10

Are aspects of language represented on both sides of the brain? If yes, what is the left side of the brain responsible for, and what is the right side of the brain responsible for?

Answer 10

Right side = Prosody (emotion conveyed by tone of voice)
Left side = language

Question 11

What type of deficits do we see with a left MCA (middle cerebral artery) stroke?

Answer 11

Speech is often affected by this type of stroke
Deficits in language

Question 12

What are the two primary/main areas of the left hemisphere that language processing is accomplished?

Answer 12

• Broca’s area
• Wernicke’s area
• Other areas participate as well (frontal and parietal cortex, etc.)

Question 13

True or false: analogous regions (from Broca’s area and Wernicke’s area) in the right hemisphere add emotional coloring to language (inflection, etc.) - prosody.

Answer 13

TRUE

Question 14

Left hemispheric damage can result in a wide variety of language disorders… Give a few examples.

Answer 14

• Broca’s (expressive) aphasia
• Wernicke’s (receptive) aphasia
• Other disorders reflect complex interactions between brain regions responsible for language processing
  
  • Transcortical motor aphasia
  • Transcortical sensory aphasia

Question 15

What does it mean that there is localization within lateralization… use language and the left side of the brain as an example to explain.

Answer 15

• We know that language is lateralized to the left side of the brain, but there are local areas in that left side of the brain that are especially important for explicitly verbal aspects of human language.
• There are two regions in the frontal and temporal association cortices that are important for that →
  
  • Broca’s area
  • Wernicke’s area

Question 16

Where is Broca’s area located and what is the main function?

Answer 16

• Broca’s area = Broadman 44 & 45
• Main function = production of language
• The back end of the frontal lobe

Question 17

Where is Wernicke’s area located and what is the main function?

Answer 17

• Wernicke’s area = Broadman 22
• Main function = comprehension of language
• The back end of the temporal lobe

Question 18

Identify the following structures on an image of the left hemisphere:
Primary motor cortex
Primary somatic sensory cortex
Primary visual cortex
Primary auditory cortex
Broca’s area
Wernicke’s area

Answer 18

IMAGE

Question 19

What are the 3 main functions of the right hemisphere?

Answer 19

Visual-spatial
Attention
Emotion

Question 20

Is the left hemisphere always the critical player for language or some people are different?

Answer 20

There is about 5- 10 % of people that are a little different (maybe not even that much), but for the focus of the class → left hemisphere = language

Question 21

Is the left hemisphere responsible for the movement of the tongue and the lips to speak?

Answer 21

• NO, Left-sided language organization is distinct from the circuitry concerned with the motor planning and control of the larynx, pharynx, mouth, and tongue.
• The left hemisphere is responsible for the higher-level function of language
• We are talking about all languages → English, French, Spanish and even sign language

Question 22

***Disclaimer***

Answer 22

Any “localized” cortical functions depend on diffuse brain networks, involving not only cortical structures but subcortical structures as well (and the connections between these areas!)

Question 23

Do “localized” cortical functions depend only on cortical structures? If yes, explain. If no, explain.

Answer 23

Any “localized” cortical functions depend on diffuse brain networks, involving not only cortical structures but subcortical structures as well (and the connections between these areas!)

Question 24

Is there a variability of language representation in the brain?

Answer 24

• There is some variability in language representation.
• You can see in the image that a % of patients where stimulation of other areas out of Broca’s area and Wernicke’s area will interfere with speech.
• But the highest % of patients will show correlation with Broca’s and Wernicke’s area

Question 25

The language lateralization is to the ______________. (right or left)

Answer 25

LEFT

Question 26

What is the important structure for language production and what does it do?

Answer 26

Broca’s area → activates particular sequences of sounds to produce words and sentences

Question 27

What is the important structure for language comprehension and what does it do?

Answer 27

Wernicke’s area → identifies and comprehends particular sequences of sounds as meaningful words

Question 28

What connects the Broca area with the Wernicke area?

Answer 28

The arcuate fasciculus

Question 29

If you were to give a command = “repeat after me”, how would our brain interpret this?

Answer 29

• First of all, Wernicke’s are would translate these sounds into words, so that we can understand
• Then, this information is transmitted along the Arcuate Fasciculus to the Broca’s Area
• Broca’s area, will then take these words and then send out the information as sound.

Question 30

What happens when you have lesions to areas of the brain that process language?

Answer 30

• Aphasia → “lack of language abilities, but not due to purely motor problem (dysarthria) or purely sensory problem (deafness).”
• Different kinds/types of aphasia
  
  • Dependant upon the area of damage

Question 31

What is aphasia?

Answer 31

“lack of language abilities, but not due to purely motor problem (dysarthria) or purely sensory problem (deafness).”

Question 32

What is Broca’s aphasia?

Answer 32

is a type of aphasia characterized by partial loss of the ability to produce language (spoken, manual, or written), although comprehension generally remains intact. A person with expressive aphasia will exhibit effortful speech.

Question 33

is a type of aphasia characterized by partial loss of the ability to produce language (spoken, manual, or written), although comprehension generally remains intact. A person with expressive aphasia will exhibit effortful speech.

Answer 33

Motor aphasia
Expressive aphasia
Production aphasia

Question 34

What are some characteristics of Broca’s aphasia?

Answer 34

Halting speech
The tendency to repeat phrases or words (perseveration)
Disordered syntax
Disordered grammar
Disordered structure of individual words
Comprehension intact

Question 35

What is Wernicke’ s aphasia?

Answer 35

In Wernicke’s aphasia, the ability to grasp the meaning of spoken words and sentences is impaired, while the ease of producing connected speech is not very affected. Therefore Wernicke’s aphasia is also referred to as ‘fluent aphasia’ or ‘receptive aphasia’.

Question 36

Name a few synonyms of Broca’ aphasia.

Answer 36

Sensory aphasia
Receptive aphasia

Question 37

What are some characteristics of Broca’s aphasia?

Answer 37

Fluent speech
Little spontaneous repetition
Syntax adequate
Grammar adequate
Contrived or inappropriate words
Comprehension not intact

Question 38

What are the main signs of Broca’s aphasia?

Answer 38

• It is a continuum, so you might see people with severe aphasia and others with mild aphasia
• “Expressive aphasia”
  
  • Difficulty in saying words, but nothing wrong with the muscles
• Decreased fluency
  
  • Decreased phrase length
  • Content words (nouns) exceed function words (adjective adverbs)
• Unable to repeat sentences
• Comprehension of speech of others is good

Question 39

What are the main signs of Wernicke’s aphasia?

Answer 39

“Receptive” aphasia
Difficulty comprehending speech
High verbal output & fluency
Can’t understand their own speech, therefore often utter “word salad”

Question 40

What is global aphasia (when both language areas are affected)?

Answer 40

Everything wrong, large lesions

Question 41

Which part of the brain light up and why with each of these scenarios (look at the image)?

Answer 41

• When the person is passively viewing words –> the primary visual cortex lights up. This makes sense because the person is just looking at it.
• When the person is listening to the words –> you start to see Wernicke’s area lighting up. This area is for reception, listening and understand what has been said.
• When the person is reading and speaking the words –> you can see that the arcuate fasciculus lights up. This is generation.
• When the person actually has to generate the words that associate with it -> you can see that the Broca’s area lights up
• This experiment is important since it demonstrates the following:
  
  • Common language tasks involve Broca’s and Wernicke’s area, as expected.
  • Also, involve primary and association motor and sensory areas.
    Language depends on a network of cortical (and subcortical) areas.

Question 42

Are there different regions to store information about different objects/concepts?

Answer 42

• YES, there are similar cells like the ones that are able to recognize faces, these cells are responsible for recognizing words.
• There is a different activity in language areas when listening to words in different groups
• Lesions can lead to language difficulties (e.g. naming) within a single category of objects.

Question 43

Is it possible for someone to have a lesion that can lead to language difficulties (e.g. naming) within a single category of objects?

Answer 43

YES

Question 44

With congenital hearing loss, does sing language develop naturally in deaf infants?

Answer 44

• Yes, sign language still uses the same functional areas in the brain as if it was a normal language.
• This graph demonstrates two groups, the heating infants and deaf infants, what we see is that the deaf infant’s meaningful hand gestures increased as their ability to use their hands increased.
• Much like when hearing infants babble when they are quite young, deaf infants babble with their hands and they start to make these precursor gestures that ultimately grow into fluent sign language.
• The manual babbling in hands is therefore much more increased in deaf infants compared to hearing infants.

Question 45

Does sign language use language-related brain regions in the left hemisphere to learn the language?

Answer 45

YES

Question 46

What does a left-sided stroke causes in deaf individuals?

Answer 46

“Sign” aphasia

Question 47

What does a right-sided stroke cause in deaf individuals?

Answer 47

Decreased “emotion” in signing

Question 48

What do these examples of stroke in patients that are deaf tell us about the language-related brain regions? What does it provide evidence for?

Answer 48

• It provides evidence that the cortical organization of language does NOT simply reflect specialization for hearing and speaking, our specialization for language is a broader organization for processing signals pertinent to social communication
• We have these brain region areas that light up whether we are talking in all sorts of different languages → these areas are consistently used. = Broca’s and Wernicke’s

Question 49

What are some examples of disorders that are commonly mistaken for aphasia?

Answer 49

• Disorders of speech production
  
  • Dysarthria
  • Aphemia
  • Mutism
• Auditory disorders
  
  • Peripheral hearing loss
  • Pure word deafness
  • Cortical deafness
• Defects in arousal and attention
  
  • Global confusion state
  • Narcolepsy
• Psychiatric disorders
  
  • Schizophrenia
  • Conversion disorder and other somatoform disorders
• Uncooperative patient

Question 50

What is dysarthria? And give some examples of types of dysarthria?

Answer 50

• Speech has a large motor component. Many of the now-familiar motor disorders can affect speech generation/production.
• Flaccid dysarthria (LMN)
• Spastic dysarthria (UMN)
• Ataxic dysarthria (cerebellum)
• Hyper/hypokinetic dysarthria (basal ganglia)
• Mixed dysarthria

Question 51

What is anomia?

Answer 51

It is a related language deficit.
Can’t name objects

Question 52

What is paraphasia?

Answer 52

It is a related language deficit.
Spontaneous incorrect words or sounds

Question 53

What is aprosodia?

Answer 53

It is a related language deficit.
Lack of rhythm/emotional content of speech
Probably a lesion in the right hemisphere

Question 54

What is Alexia?

Answer 54

It is a related language deficit.
Reading deficits

Question 55

What is Agraphia?

Answer 55

It is a related language deficit.
Writing deficits

Question 56

Which statement is more accurate, and why? (1) The left hemisphere is responsible for speech (2) the left hemisphere is responsible for language.

Answer 56

(2) the left hemisphere is responsible for language.

Question 57

What is the main consequence to a lesion in Broca’s area?

1. Deficits in language comprehension
2. Deficits in language production
3. Deficits in both language production and comprehension
4. Repetitive, incomprehensible (empty) speech patterns

Pick one out of the 4 answers.

Answer 57

Answer: b) Deficits in language production

Question 58

A lesion to Wernicke’s area would result in which of the following language qualities (select all that apply)?
Comprehension
Fluency
Repetition

Answer 58

Answer : comprehension and repetition

Question 59

Broca’s area has reciprocal interactions with the ______________, ______________ and _____________.

Answer 59

Prefrontal cortex
Supplementary motor area
Premotor area

Question 60

Wernicke’s area has reciprocal interactions with _______________ and _______________ association areas.

Answer 60

Temporal and parietal association areas

Question 61

What are the different types of aphasia?

Answer 61

IMAGE

Question 62

What basic areas would need to be activated, and in what order, to read a word and repeat it out loud?

Answer 62

Image!