Cerebral Cortex I and II

Question 1

What is the function of the cerebral cortex?

Answer 1

Analyzes, plans and initiates response.

Sensory pathways- brings IN information

Reticular system- adjust its level of responsiveness/turns it off or on.

Question 2

What is the role of pyramidal cells?

Answer 2

• Most of the projection cells out of the brain
• Usually in layer 5
• Long apical dendrite and a basal dendrite
• Use glutamate (excitatory)
• dendritic spines, selectively modified by learning
• 80% of cells in the brain
• found more in agranular layers

Question 3

What are the neocortical layers?

Answer 3

6 layers that include most of the cortex:
-Agranular with large pyramidal cells and granular areas with small neurons
-

86 billion nerve cells 19% in the cerebral cortex
(most in cerebellum)

Question 4

What is the role of non-pyramidal cells?

Answer 4

• interneurons of the CC
• 20% of cels in the brain.
• various shapes and appearances
• axons don’t leave the cortex
• use GABA = inhibitory

Question 5

What are important broadmann areas?

Answer 5

Pre-central: 4

Post-central: 312

Question 6

Commissural bundles?

Answer 6

l

Question 7

Association bundles?

Answer 7

= fasciculi

• corticocortical fiber tract connections in the same hemisphere
• Way in which the front communicates with the back
• None are discrete points to point and fibers travel/enter/leave in both directions
• cigulum, sup occipitofrontal fasciculus, sup long fasciulus (arcurate), inf occipitofrontal

arcurate is how brocas and wernkikes areas communicate

Question 8

What are the neocortical area functions?

Answer 8

• Layer 5: most pyramidal

- Thalamus input usually ends in layers 2, 3, 4

Question 9

Primary association cortex?

Answer 9

“direct link to the world”
In: thalamic nuclei
out: brainstem and Spinal

primary motor (4)
primary somatosensory (312)
primary visual (17)
primary auditory (41)
primary gustatory (ant insula)
primary vestibular (p. insula)

Question 10

Unimodal association cortex?

Answer 10

more complex response function
Loc: adj to 1 areas
Injury could cause agnosia

premotor (6)- larger groups of muscles in an activity
supp motor (6)- posture or using muscles on both sides of the body
somatosensory (5, 7)
visual (18,19 +..)

info is analyzed more deeply, but still having to do with one function.

greater amount of cortex involved

Question 11

Mulitimodal association cortex?

Answer 11

High level of intellectual fxn
Association areas send convering inputs, may respond to multiple stimuli or under particular circumstances.

Most of the cortex is associated with multimodal associations.

Injury: apraxia (motor) or neglect (sensory)

Question 12

What is a disconnection syndrome?

Answer 12

White matter damage that interferes with the connection between both hemispheres using the corpus collosum.

ex) alexia without agraphia: cannot read but they can write.
(both sides of the brain can communicate)

Question 13

What splits the occipital lobe?

Answer 13

The calcarine fissure.

Above the calcarine fissure it processes vision from the lower visual field in the opposite side of the body.

Below, processes visual field from the upper field in the opposite side.

Question 14

What types of cortex are found in the cerebral cortex?

Answer 14

Neocortex
Archicortex- hippocampus 3 layers
Paleocortex- telencephalon base, olfactory (3-5 layers)

Question 15

Where would you find more granular cells?

Answer 15

• Post-central cortex

- more non-pyramidal cells than pyramidal.

Question 16

What is the role of the anterior commissure?

Answer 16

Interconnects temporal lobe and components of the olfactory system.

*temporal lobe

Question 17

What are the parts of the corpus callosum and what is its function?

Answer 17

Connects mirror images of cortical areas. 
Genu in frontal lobe
anterior body in frontal
posterior in parietal
splenium in occipital and temporal 

note: the brain is not necessary symmetric between the cerebral hemispheres, such that some functions are predominantly on one side or in a different area of the other.

Question 18

What are the cortical areas taht don’t receive CC commissural fibers?

Answer 18

• Hand area of somatosensory and motor cortex
• Area 17, not including areas adjacent to vertical midline
• temporal lobe connections which travel through the anterior commissure

Question 19

Where on the cerebral cortex is language mostly found?

Answer 19

Left

Problems:
aphasia: inability to undersand language, written or spoken

Question 20

How are broca’s and wernikes areas connected?

Answer 20

Through arcuate/superior longitudinal fascicules.

Question 21

What are some of the multimodal association areas?

Answer 21

Parieto-occipital-temporal region:

• injury to right inf parietal lobe can cause contralateral neglect
• injury to left parietal area can cause an apraxia

Prefrontal area:
working memory & decision
dorsolateral
ventromedial

Question 22

Where is language localized?

Answer 22

Left hemisphere, around sylvian fissure, temporal, parietal and frontal lobes

Question 23

Reticular formation:

Answer 23

Network of neurons within the brainstem that have a special architecutre that allow it to “coordinate” connections between sensory and motor systems:

Converges somatosen info
diverges efferent outputs

Role in: sleeping and wakefulness, pattern generator, centers for respirator/cardiovascular, nociception.

Question 24

Ascending Reticular Activating System (ARAS):

Answer 24

Role of reticular formation in activation of the cerebral cortex; impt for our level of alertness, sleep-wake rhythms and alerting rxns.

afferent info: cerebral cortex to modulate ARAS

Partners:
Cholinergic neurons (locus)
Orexin (hypothal)
Basal nuc of Meynert (basal forebrain)

Question 25

What is consciousness:

Answer 25

A state of self-awareness in which it is possible to direct attention and manipulate abstract ideas.

Modulated by different projections to the cortex and thalamus

Maintained by the subcortical modulating system: 
Raphe nuclei (SER)
Locus (NE)
Midbrain RF (ach)
Tubermamaillary nuc  (hist)
L. hypothalamus (Orexin)
Basal nuc of Meynert (ach)

Question 26

Sleep:

Answer 26

Some functions of sleep:

• Consolidation of memory and daily experiences.
• Brain growth and development
• Restoration and recovery
• tissue repair…

Neurons can change your sleep rapidly; sleep/awake states abruptly change

Certain changes in EEG are visible: alpha waves –> slower waves

Question 27

REM:

Answer 27

• Low amplitude, fast freq, desynchronized
• almost no muscle tone
• highest arousal level
• detailed, visual and emotional dreams
• increased sympathetic irregular pulse and respiration

Preoptic area active

Question 28

Non-Rem sleep:

Answer 28

• large amplitude, slow frequency, synchronized
• decreased muscle tone
• progressively higher arousal level
• vague dreams
• increased parasympathetic, slow, regular pulse and respiration

Pre-optic area active, as you move into awake, orexin increases

Question 29

suprachiasmatic nucleus

Answer 29

Clock within your nervous system, helps produce slep and certain types of sleep

“pacemaker” of the mammalian circadian system.

Question 30

preoptic area

Answer 30

Most active during times of non-REM slep; falls during “awake” cycle

Question 31

midbrain reticular formaiton

Answer 31

ACH to the thalamus

Question 32

How do the columns in the neocortex layers work?

Answer 32

radial glial cells are like the scaffold then neurons then “crawl” up and stop at different layers

Question 33

Broca lesion:

Answer 33

• motor lesion
• Non-fluent, telegraphic
• Poor repetition
• good comprehension
• poor naming

Question 34

Wernicke lesion:

Answer 34

• sensory lesion
• fluent
• poor repetition
• poor comprehension
• poor naming

Question 35

Lesion at arcurate fasciculus/ superior longitudinal:

Answer 35

• fluent
• poor repetition
• good comprehension
• poor naming

Question 36

What are the afferents of reticular formation?

Answer 36

Primarily project to gigantocelluaris, caudal and oral pontine nuclei (paramedial group):

• spinoreticular:
• cerebelloreticular: fastigial nucleus
• CNs project to L. parvocellular area

Question 37

What are the nuclei of the reticular formation?

Answer 37

Aminergic neurons (midline)
Paramedian Zone (effector)
Lateral zone (sensory) 

• extend from thalamus to medulla
• diffused, arranged in three big columns (raphe, paramedian and lateral)

Question 38

What are the efferents of reticular formation?

Answer 38

Arise from the gigantocellularis, caudal and oral pontine nuclei- medial group.

Spinal Cord:

• pontine and medullar reticulospinal tracts.
• descend bilaterally
• terminate in intermediate gray
• effect axial muscles of posture and locomotion

Brain Stem:

• reticulobulbar, central tegmental tract
• indirect to CN, direct to dorsal column and parasympathetic nuclei

Question 39

Raphe:

Answer 39

• located in midline
• use SEROTONIN as NT
• largest territorial distribution of any CNS neurons

Midbrain –> cortex
Pons –> brainstem, cerebellum
Medulla –> spinal cord

(other serotonergic projects show similar pattern)

Question 40

What are the function of serotonergic and adrenergy systems?

Answer 40

• sleep arousal mxn
• integrative behavior and neuroendocrine fxns
• modulate actions of other neurotransmitters
• brain growth and development
• pain suppression

Question 41

Ventral tegmental nucleus

Answer 41

• Dopamine
• projects to frontal lobe
• addictions and arousal

Question 42

Locus ceruleus

Answer 42

• Midline structure
• Norepinhephrine
• role in sleep

Question 43

Magnus Raphe

Answer 43

• role in pain suppression

- Serotonin

Question 44

Orexin

Answer 44

Loc: lateral hypothalamus

One of the primary NT that helps stabilize wake states and helps ensure rem cycle is turned OFF.

Major role in stabilizing wake states

keeps REM from occurring

Question 45

What are some sleeping disorders?

Answer 45

Narcolepsy: difficulty staying awake.
- fall into REM quickly when falling asleep.

most also show…
Cataplexy:
- people are awake but their bodies go into “sleep” mode

Question 46

What inputs into the cortex control your awake/sleep state?

Answer 46

• Basal forebrain
  -Hypothalamus
  orexin, histamine, GABA..
  -Thalamus
  Reticular nucleus GABA
  -Brainstem
  Raphe (seratonin)
  Locus Cer (Ne)
  Ach