psyc brain and behavior- lots of gnosias.

notes for chapter 7, 6-29

journal entry - a patient comes to the dr complaining that his body doesnt move like it used to. the joints have been ground down so bones are rubbing together and wearing away - he doesnt have a physically intense job - - the dr figures it out as soon as she sticks patient w/ needle - what sense is this patient missing

he can't feel pain

nociceptive - can't feel pain from outside

interoceptive - can't feel pain from inside.

sensory areas of the cortex

• primary sensory cortext - direct input mainly from thalamix relaty nuclei
• ie striate cortex recives input from LGN
• secondary sensory contex - inpyt from pri and sex cortex w/in sensory system
• association cortex - input from more than one sensory system - usually from 2nd sens system

principles guiding sensory cortex interactions

• heirarchal org.
• specificity and complexity increases w/ each level.
• sensation - detect a stimluus
• perception - understanding stimulus
• functional segregation
• color/movement have own modules
• parallel processing - like computers - do it faster

Sensory system organization

picture - in book figure 7.2

• multiple specialized areas @ multiple levels, interconnected by many parallel pathways
• the binding problem - how does brain finally integrate info- but there are corticofugal pathways that allow higher areas to influence lower areas - higher being cortex, lower being subcortical

• Visual cortex
• Primary (v1) - posterior occiptal lobe
• secondary
• prestriate cortex - band of tissue around v1
• inferotemporal cortex
• Association - various areas, largest single areas is in posterior parietal cortex
• bc we have parallel network - if one thing breaks, it will still work around it.
• study of Scotomas - area of blindness resulting from V1 damage
• hemianopsic - last perception in half of visual field
• blind in corresponding contralateral visual field of both eyes
• deficit may or may not be readily detected bc of completion (like blond sport)
• seeing stars is a temporary scotomas
• Blindsight
• ability to respond to visual stimulus even w no conscious awareness of the stimulus
• putting coins in slot - they can do it even if they cant see it
• may still be connections in v1 allowing for reactions w/p awareness
• may be that message gets to brain by connections that dont pass thru scotoma.
• -video about blindsight patient who cant see - but can process stuff - cool. - kirsten - ask me and i'll explain it better - about movement
• "vision is not entirely seeing there can be a something to respond to visual info and being able to see"- messed up quote :)

notes continued

• without this zombie in our brain helping us have autopilot - like driving
• grahm's blindness - cant see, but can sense- perception w/o sensation/conciousness- like video
• like subjective contours - white triangle, cube, pyramid - figure 7.6

dorsal and ventral streams

• dorsal stream - where - /control of behavior
• v1 to dorsal prestriate to posterior parietal
• ventral stream - what - /conscious perception
• v1 to ventral prestriate to inferotemporal
• both where and what ///behavior/percetion distinctions are supported by effects of damage
• not so much kinds of info - but the use to which that info is put - do we use it to interact w/ objects or see them or what

photo - figure 7.9

theres lots of types of chairs - so object recog just tells us - yes this is a chair

Aperceptive agnosia - difficulty in perceiving basic elements that make up an object - dependent on amount and location of damage- cant percieve X to cant perceive complex

cant copy pictures - like stick drawings

Associative Agnosia

- difficulty in assigning meaning to an object it cant be recognized

can copy pictures

cant build whole representation for object

cant get generalize categories sometimes

the man who mistook his wife for a hat

Prosopagnosia - cant recog faces agnosia for faces

can say this is a face - but not bc

damage to hippocampal formation

also have trouble saying which cow or which chair

can be damage to ventral/what stream

thus unconscious recog can be hypothesized

has been supported - altered auto responses.

fusiform face area- activity increased during face recog but not recog for other objects

areas in ventral stream may be specific to humans, cats , houses, other broad categories

each area responds to each class but there is a great overlap in areas.

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Audition

• actual sound waves
• figure 7.10
• higher the amplitude - louder the sound
• timbre- how deep the tone is
• pure - only in lab
• sound waves>auditory canal>tympanic membrane>ossicles(3 bones register vibration)>[thru the]oval window>cochlea fluid[snail thing]>organ of corti[trasmits to neural signal]
• semicircular canals - help us w/ vestibular/balance system - filled w/ fluid, like a level
• when you drink too much, alcohol is a toxin in the semicircular canals (in the ears), stops them from working as well - also why you throw up.
• basically your semicircular canals get drunk
• figure 7.12
• Organ of Corti
• the cohleas internal mebrane, it is the auditory receptor organ
• composed of 2 membranes
• basilar membrane - aud recept, hair cells, mounted here
• tectorial membrane - rests on hair cells
• charlotte - missing some part that helps to hear deep sounds
• cant hear as well
• stimulation of hair cells triggers AP in auditory nervels
• Cochlear coding
• diff frequencies produce maximal stimulation of hair cells @ diff points along basilar membrane
• tonotopic org. - organized by tone
• a network of auditory pathways
• auditory nerve axons>ipsalateral[on same side, doesnt cross over] cochlear nucleus >superior olives>inferior colliculi>medial geniculate nucleus(thalymus)>primary auditory cortex
• figure 7.13 kinda
• process on both hemispheres, helps w/ location

Auditory Cortex

• 2-3 areas of primary auditory cortex
• about 7 areas of secondary
• functional columns - cells of a column respond to same frequencies
• tonotopic organization
• secondary areas dont respond well to pure tones and have not been well researched
• Sound localization
• mediated by lateral and medial superior olives
• both structures react to differences in what is heard by two ears
• medial - arrival time differences- which ear gives half
• lateral - amplitude differences
• both project to superior and inferior colliculi
• Auditory Agnosia
• hear, not recog what hear.
• can be hard to recog temporal (timing) parts of sounds (gaps or durations of sounds)
• makes understanding speech difficult
• verbal 0 cant detect pattern or meaning
• non-verbal - trouble distinguishing non words - doorbell/phone/barking
• mixed

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Somatosensation

• exteroreceptive- touch(mech stimuli), temperature (thermal), pain (nociceptive)
• Cutaneous receptors
• free nerve endings , temp and pain
• Pacinian copuscles (shapes like onions)
• adapt rapidly, large and deep
• sudden displacements of skin
• Merkel's disks - gradual skin indentation
• photo : ruffini ending merkels disks etc
• 
  
• respond to ∆
• stereognosis - identify objects by touch
• dermatome - area of body innrvated by left and right dorsal roots of a given segment of a spinal cord -figure 7.16
• 
• ascending somotosensory pathways
• • dorsal columbn medial lemniscus system
  • touch and prprioception
  • 1st synapse in dorsal colum nuclei of the medula
  • anterolateral system
  • pain and temp
  • synapse upon enter spinal cord
• • 
    
  • Primary Somatosensory cortex (SI)
  • postcentral gyrus
  • somatotopic
  • more sens = more cortex
  • input mostly contralateral
  • SII mainly imput from SI
  • somatopic - imput from both sides of body
  • somatosensory homonuculus
  
  

receptive fields

- can be divided to excitatory and inhibitory areas

-rubbing a bite or owwie makes pain get less - by rubbing you stimulate other nerve endings and causes lateral inhibition of pain things - makes you feel contact and not pain

Asterogognosia - inability to recog objects by touch

Asomatognosia - failure to recog parts of own body - aunt betty/man who fell out of bed

Anosgnosia - hmm, i missed this one. i think its thinking your foot is there when its been amputated.

paradoxes of pain

- despite unpleasantness, pain is adaptive and needed

-no obvious cortical representaiton - altho anterior cingulate gyrus appears involved in emo component

-what complex

- emotional pain activates same areas of brain as physical pain.

descending pain control - pain can be suppressed by cog and emo factors

id a descending pain control circuit

- 3 discoveries

-electrical stimulation pr periaaqueducatal gray (PAG) has anlgesic (pain block) effects

-PAG and other brain areias have opiate receptors

- existences of endogenous (we make them, occurs w/in) opiates - natural analgesics - they are endorphins

Chemical senses

olfaction - smell--phermones (early research, not proven)- 1000s of receptors , they regenerate. figure 7.23

gustation - taste-- receptors in tongue and oral cavity - clusters of 50 called taste buds. >4 -sweet sour salty bitter - primary tasted - 5th is unami - meat or savory - many tastes are not created by combining primaries

food acts on both systems to produce flava

Brain damage and chem senses

- Anosmia - inability to smell

most common cause = blow to head that damages olfactory nerves

incomplete deficts seen w. variety of disorders

-Ageusia - inabilty to taste

rare bc we use 3 nerves to taste - so we'd have to damage all.

Selective Attention

ability to sense would be not able to

link - video

improves perception of what is attended to and interferes w what is not

internal cog proceses - endogenous

and exterval - exogeneous attn - focus attn

change blindness- no memory for that which is not attended to

-

video person swap

cocktail phenom - indcates that there is processing of info not attended to

simultagnosia - difficulty in attending to more than one visual bject @ a a time - cause?

bilateral damage to dorsal stream - involved w/ localize objects in space

hemineglect - inabilty to pay attn to one side of space

SUMMARY

how all our environ stimulation gets combined to form coherent whole reps pf world is not fully understood

- association cortex, paralell proces,s top down feedback

??

we got back exams.

class ave 79%