290 likes | 342 Views
Language and the Brain. Universidad de Santiago de Chile Lic. En Educación en Inglés Paradigmas Linguísticos Profesor: Miguel Farías Camila Contreras. How is language actually stored in and process by the brain?.
E N D
Language and the Brain Universidad de Santiago de Chile Lic. En Educación en Inglés Paradigmas Linguísticos Profesor: Miguel Farías Camila Contreras
How is language actually stored in and process by the brain? Neurolinguisticsthe study of the neural and electrochemical bases of language development and use Psycholinguisticsthe study of the acquisition, storage, comprehension and production of language
Physical Features of the Brain • It is divided into two nearly symmetrical halves
Each part of the brain is responsible for processing certain kind of information • They are connected by a bundle of nerves Corpus callosum • They communicate with each other
Cortex • A one-quarter-inch thick membrane that covers the brain • It makes human beings capable of higher cognitive functions • It contains most of language centers • It is covered with bumps and depression
Even minor damage to the surface of the brain can result in language disorder
Auditory Cortex • Responsible for receiving and identifying auditory signals and converting them into a form that can be interpreted by other areas of the brain
Visual Cortex • It receives and interprets visual stimuli • It is the storage site for pictoral images
Motor cortex • It is located in the upper middle of each hemisphere • It is responsible for sending signals to your muscles
Language Centers • Production and comprehension of language • They mainly only in the left hemisphere
Broca’s area • Located at the base of motor cortex • Responsible for organizing the articulatory patterns of language and directing the motor cortex when we want to talk • Control the use of inflectional morphemes and function morphemes
Wernicke’s area • Located near the back section of the auditory cortex • It is involved in the comprehension of words and the selection of words when producing sentences
Arcuate Fasciculus • A bundle of nerve fibers that connect Broca’s area and Wernicke’s area • So that they share information Mental lexicon looks up words via wernicke’s area then say them via broca’s area
Angular Gyrus • Located between Wernicke’s area and the visual cortex • It converts visual stimuli into auditory stimuli (and viceversa) • Thus, we are allowed to match the spoken form of a word with the object it describes
The flow of Linguistic Information How all the areas of the brain work together to process language It depends on • Type of stimulus • Type of linguistic result
Speaking Wernicke’s area arcuate fasciculus broca’s area motor cortex Reading Visual cortex angular gyrus wernicke’s area Understanding Auditory cortex angular gyrus visual cortex wernicke’s areabroca’s area motor cortex
Lateralization • Each brain’s hemisphere is responsible for different cognitive functions Left hemisphere analytic reasoning, temporal ordering, arithmetic and language Right Hemisphere processing music, perceiving non-linguistic sounds, performing task (visual and spatial skills or pattern recognition
It happens in early childhood • It can be recovered in initial stage if damaged
Contralateralization • The connections between the brain and the body are almost completely contralateral The right side of the body controlled by the left hemisphere The left side of the body controlled by the right hemisphere
Evidence • Dichotic Listening Test • Split Brains Patients • Hemispherictomies
Language Disorders • Damage in the left hemisphere aphasia • Aphasia inability to perceive, process or produce language because of physical damage to the brain • Linguistic skills affected depend on where the brain damage is
Broca’s Aphasia • Haltingly speaking • Speech without inflections and function words • Problems in producing • Articulatory problems • Difficulty matching the correct semantic interpretation to the syntactic order of the sentence
Example Examiner: Tell me, what did you do before you retired? Aphasic: Uh, uh, uh, uh, pub, par, partender, no. Examiner: Carpenter? Aphasic: (shaking head yes) Carpenter, tuh, tuh, tenty year.
Wernicke’s Aphasia • Receptive disorders • Misinterpreting what others say and responding in unexpected way • Tendency to produce semantically incoherent speech • Fluent but meaningless speech
Example Examiner: Do you like it here in Kansas City? Aphasic: Yes, I am. Examiner: I’d like to have you tell me something about your problem Aphasic: Yes, I, ugh, can’t hill all of my way. I can’t tal all of the things I do, and part of the part I can go alright………
Conduction Aphasia • Damage to the arcuate fasciculus • Sth like wernicke’s aphasia but showing signs of being able to comprehend the speech of others • Problems in transmission
Alexia and Agraphia • Both caused by angular gyrus damage • Alexia Inability to read and comprehend written words • Agraphia Inability to write words