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Higher Order Brain functions:Aphasia and Dyslexia, Aphasias related to speech

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Neurological Basis of Behavior (PSY - 610)
VU
Lesson43
Higher Order Brain functions
Objectives:
The students would be familiarized with the role of higher order brain functioning in disorders of
speech, motor and sensory apraxias, memory and amnesias.
Brain correlates
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a) Language Speech Production Comprehensions, Aphasias
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b) Visuospatial, The man who mistook his wife for a hat?
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c) Apraxias. (Neuropsychological tools)
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d) Brain correlates of Learning and Memory, Amnesia, Verbal, Non verbal memory,
·
e) (Neuropsychological tools)
Aphasia and Dyslexia:
Aphasias and Dyslexia are related because the spoken words are transferred to written language.
Reading and writing is closely tied to listening and speaking auditory modality). Wernicke's aphasia is
accompanied by dyslexia.
Interestingly, there are more dyslexics with Wernicke's aphasia in English and other western language,
but not so in Chinese where each word is represented individually or where the sign language (spatial
not auditory modality) is used.
Chinese aphasics retain ability to write accurately. The Japanese language comprises of two forms the
Kanji and the Kana. The Kanji symbols are the pictographs adopted from the Chinese language. These
are the visual representation of concepts, thus a house would be shape of a Pagoda. On the other hand
the Kana symbols are acousitic or Phonetic representations. Thus Kana (sound, auditory mode), and
kanji (visual mode) Sasanuma (1975) reported that left temporal lobe lesions affected the writing of the
Kana symbols but not the Kanji where visual cortex is involved).
The Japanese language:  3 phonetics and 1 pictograph
Mode:
Kana
Kanji
Brain areas
left temporal lobe
Visual cortex
Generally most languages use sound and acoustic signals and cues to write (look at how recite our
nursery rhymes and how we remember the correct spelling of words). The question is if we are so
dependent on the sound for language what about the deaf? Interestingly the deaf are not dyslexics with
receptive aphasia (as they read without phonetics (Braille, the language script of the blind is a touch
language)
Aphasias related to speech
A wide range of disorders even within the major aphasias, the characteristics differ with areas of
damage. We will disucss some of this aphasia in brief.
a) Conduction Aphasia: is produced when damage to inferior parietal zone disconnects the axonal
fibres connecting the Brocas and the Wernicke's areas. Conduction aphasics have meaningful,
paraphrasic speech, somewhat fair comprehension, but poor repetition (they can repeat single and
meaningful words, but not non-meaningful words)
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Neurological Basis of Behavior (PSY - 610)
VU
b) Anomic Aphasia: This is aphasia specific to names. They have difficulty in finding the right word,
so they use circumlocution going the round about way
I had a patient who had anomia after a stroke
When asked to identify a stapler in a picture: What is it?
He replied, it is used in the office.
Yes, but what is it?
It is used to pin papers together
Yes, but what is it?
He showed how it worked
Yes but what is its name
He could not give the name even after several attempts.
This illustrates that he knew what it was, what it was used for, but could not name it.
There are cortical aphasias and Trans cortical aphasia, and sub cortical aphasias, but we would not be
discussing the whole classification, this should be enough to give you an idea.
Dyslexia: (Reading, Writing, Mathematics)
Reading and writing disorders are related to the kind of aphasia that patients have. The patient with
Wernicke's aphasia would have difficulty reading and writing as they do comprehending speech.
Broca's aphasics have difficulty in reading out aloud; their writing and speech both are agrammatical
a) Alexia with Agraphia:
This is a difficulty in which the person has difficulty in reading and writing. This is caused by damage
to the left angular gyrus in the parietal lobe (angular gyrus is at the borderline of visual, auditory and
somatosensory cortices therefore it may affect skills involving all three modalities
b) Pure Alexia:
This is actually word blindness, where alexia occurs without agraphia: patient can write but cannot read
what he writes. Although they cannot read, they can recognize the words if they are spelled out to them.
Pure Alexia is a perceptual disorder, similar to pure word deafness only it is visual not auditory.
c) Agnosias are disorders related to sensory modalities either auditory or visual
Disorders of auditory perception Agnosias:
An auditory agnosia is the impaired capacity to recognize auditory stimuli, perhaps due to a disturbance
of perceptual processes more than sensations. There appears no problem with the input of information
but of giving it meaning and of recognizing it.
We will discuss only two of these here
a) Amusia
b) Agnosia for Sounds
1. Amusia: subdivisions of this disorder are tone deafness: inability to discriminate various tones of
musical scales, and Music deafness: impaired recall or recognition of a melody, tune) as well as rhythm,
measure, or tempo (beat), and Receptive amusia; difficulty in discriminating basic notes of music or
series of notes of pitch, rhythm etc
2. Agnosia for sounds: inability to identify what the different nonverbal sounds mean (classification
difficulty? For example if there are different kinds of bells ringing --church, school, telephone, the
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Neurological Basis of Behavior (PSY - 610)
VU
patient cannot tell the difference. These sounds may sound all alike, or may be confused for each other.
So basically it's discrimination and categorization deficit.
For these disorders it appears that the bilateral temporal regions are involved
Visual deficits: These are deficits related to integration or processing of visual information. Agnosia is
a failure of recognition, not due to sensory (the input is all right) or intellectual problems (the patient
does not have any intellectual impairment).
Visual Agnosia: is Agnosia for visual stimulus. It is not a seeing deficit, as the patient can see but
cannot put the pieces of visual input together in a coherent form.
Very interesting deficit: Prosopagnosia
Prosopagnosia is Visual Agnosia: Faces is the first key you have to other people- friend or foe? There
is a dictionary of features of faces where every face is immediately matched. Prosopagnosics have
difficulty recognizing a face know it is a face but who?
The patients report seeing parts such as nose, eyes, lips but cannot put it together. In order to recognize a
face you have to match and put together the entire feature in a coherent face. In extreme form of this
deficit patients cannot even recognize themselves in the mirror. This is due to damage to the
Inferotemporal region. There are some patients who have difficulty recognizing only the familiar faces,
while others have difficulty in recognizing unfamiliar faces. They can sometimes use a cue such as a
mole or a scar to recognize a face. It is a visual-limbic disconnection (especially for familiar faces) of
the Right hemisphere region
Apraxia is movement or motor difficulties when required to perform at a verbal command. Though
these tasks can be performed spontaneously (can be copied) without problems. Apraxias are bilateral but
usually produced by the left hemisphere lesion. This deficit was first described by Hughlings-Jackson
Apraxia: Greek word praxis: no action. The missing or inappropriate action is not due to paralysis or
difficulties of motor movement, or of understanding of instructions, or motivation, but difficulty in
carrying out the action required.
Construction Apraxia: is tested by asking the patient to copy or draw or build blocks in a given design.
There is both left hemisphere and right hemisphere damage. LH is oversimplification, very little details,
whereas RH damage leads to loss of overall gestalt
We have seen some of the deficits which are caused by damage to the cortical areas. This requires
complex neuropsychological examination and rehabilitation strategies can be developed keeping each
patients individual deficits in mind
References:
1. Carlson N.R. (2005) Foundations of Physiological Psychology Allyn and Bacon, Boston
2. Pinel, John P.J. (2003) Biopsychology (5th edition) Allyn and Bacon Singapore
3. Bloom F, Nelson and Lazerson (2001), Behavioral Neuroscience: Brain, Mind and Behaviors (3rd
edition) Worth Publishers New York
4. Bridgeman, B (1988) The Biology of Behaviour and Mind. John Wiley and Sons New York
5. Brown,T.S. and Wallace.(1980) P.M Physiological Psychology. Academic Press New York.
6. Bradshaw J.L. and Mattingley, J.B. (1995) Clinical Neuropsychology:  Behavioral and Brain
Sciences. ACADEMIC PRESS
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Table of Contents:
  1. INTRODUCTION:Descriptive, Experimental and/ or Natural Studies
  2. BRIEF HISTORICAL REVIEW:Roots of Behavioural Neurosciences
  3. SUB-SPECIALIZATIONS WITHIN THE BEHAVIORAL NEUROSCIENCES
  4. RESEARCH IN BEHAVIOURAL NEUROSCIENCES:Animal Subjects, Experimental Method
  5. EVOLUTIONARY AND GENETIC BASIS OF BEHAVIOUR:Species specific
  6. EVOLUTIONARY AND GENETIC BASIS OF BEHAVIOUR:Decent With Modification
  7. EVOLUTIONARY AND GENETIC BASIS OF BEHAVIOUR:Stereoscopic vision
  8. GENES AND EXPERIENCE:Fixed Pattern, Proteins, Genotype, Phenotypic
  9. GENES AND EXPERIENCE:Mendelian Genetics, DNA, Sex Influenced Traits
  10. GENES AND EXPERIENCE:Genetic Basis of behavior, In breeding
  11. GENES AND EXPERIENCE:Hybrid vigor, Chromosomal Abnormalities
  12. GENES AND EXPERIENCE:Behavioral Characteristics, Alcoholism
  13. RESEARCH METHODS AND TECHNIQUES OF ASSESSMENT OF BRAIN FUNCTION
  14. RESEARCH METHODS AND TECHNIQUES OF ASSESSMENT OF BRAIN FUNCTION:Activating brain
  15. RESEARCH METHODS AND TECHNIQUES OF ASSESSMENT OF BRAIN FUNCTION:Macro electrodes
  16. RESEARCH METHODS AND TECHNIQUES OF ASSESSMENT OF BRAIN FUNCTION:Water Mazes.
  17. DEVELOPMENT OF THE NERVOUS SYSTEM:Operation Head Start
  18. DEVELOPMENT OF THE NERVOUS SYSTEM:Teratology studies, Aristotle
  19. DEVELOPMENT OF THE NERVOUS SYSTEM:Stages of development, Neurulation
  20. DEVELOPMENT OF THE NERVOUS SYSTEM:Cell competition, Synaptic Rearrangement
  21. DEVELOPMENT OF THE NERVOUS SYSTEM:The issues still remain
  22. DEVELOPMENT OF THE NERVOUS SYSTEM:Post natal
  23. DEVELOPMENT OF THE NERVOUS SYSTEM:Oxygen level
  24. Basic Neuroanatomy:Brain and spinal cord, Glial cells, Oligodendrocytes
  25. Basic Neuroanatomy:Neuron Structure, Cell Soma, Cytoplasm, Nucleolus
  26. Basic Neuroanatomy:Control of molecules, Electrical charges, Proximal-distal
  27. Basic Neuroanatomy:Telencephalon, Mesencephalon. Myelencephalon
  28. Basic Neuroanatomy:Tegmentum, Substantia Nigra, MID BRAIN areas
  29. Basic Neuroanatomy:Diencephalon, Hypothalmus, Telencephalon, Frontal Lobe
  30. Basic Neurochemistry:Neurochemicals, Neuromodulator, Synaptic cleft
  31. Basic Neurochemistry:Changes in ionic gates, The direct method, Methods of Locating NT
  32. Basic Neurochemistry:Major Neurotransmitters, Mesolimbic, Metabolic degradation
  33. Basic Neurochemistry:Norepinephrine/ Noradrenaline, NA synthesis, Noadrenergic Pathways
  34. Basic Neurochemistry:NA and Feeding, NE and self stimulation: ICS
  35. Basic Neurochemistry:5HT and Behaviors, Serotonin and sleep, Other behaviours
  36. Basic Neurochemistry:ACH and Behaviors, Arousal, Drinking, Sham rage and attack
  37. Brain and Motivational States:Homeostasis, Temperature Regulation, Ectotherms
  38. Brain and Motivational States:Biological Rhythms, Circadian rhythms, Hunger/Feeding
  39. Brain and Motivational States:Gastric factors, Lipostatic theory, Neural Control of feeding
  40. Brain and Motivational States:Resting metabolic state, Individual differences
  41. Brain and Motivational States:Sleep and Dreams, Characteristics of sleep
  42. Higher Order Brain functions:Brain correlates, Language, Speech Comprehension
  43. Higher Order Brain functions:Aphasia and Dyslexia, Aphasias related to speech
  44. Higher Order Brain Functions:Principle of Mass Action, Long-term memory
  45. Higher Order Brain Functions:Brain correlates, Handedness, Frontal lobe