Cerebral Cortex Flashcards
1
Q
Major divisions of the cerebral cortex
A
- neocortex (“isocortex”) vs. allocortex (“other” cortex)
- neocortex = 6-layered cortex
- most extensive
- variations of cell size/density btwn layers ==> broadmann’s subdivisions
- neocortex = 6-layered cortex
- granular vs. agranular cortex
- agranular cortex = motor + premotor cortex (BA 4 and 6)
- granule cells = poorly developed
- pyramidal layers = prominent
- fxn = output
- granular cortex
- cell layers receive inputs
- fxn = sensory/afferent
- agranular cortex = motor + premotor cortex (BA 4 and 6)
2
Q
Characteristics of layers of neocortex
A
- Ascending pathway
- target of the ascending pathway = layer 4
- layer 4 relay signals to layers 3 and 2
- Descending pathway
- layer 1 = target of descending
- almost devoid of cell bodies
- incoming axonal ramifications + branching apical dendrites + glial
- inputs to layer 5 from layer 2/3
- layer 1 = target of descending
3
Q
EEG measurements
A
- electrical potential fluctuations at scalp surface
- temporal and spatial summation of
electrical currents caused by the relatively slow postsynaptic potentials induced in neruons of cerebral cortex - Frequencies and patterns relate roughly to different states of being (Relaxed/Alert/Drowsy/REM/Dreamless)
- higher frequecies = more activity
- lower frequencies = less activity
4
Q
Classification of EEG rhythms
A
- Αlpha rhythms are in sensory cortices when you aren’t doing very much
- Beta rhythms = alert, REM sleep
- δ: below 3.5Hz
- Θ : 4-7.5 Hz
- α 8-13 Hz
- β: 14-30 Hz
- ɣ: 30-100 Hz
5
Q
Rhythmic vs. Random discharge of thalamic neurons
A
- Rhythmic
- e.g. reticular nucleus
- T-type channels ==> rhythmic firing during:
- slow-wave sleep
- deep anesthesia
- absence seizures
- represents temporary detachment of thalamic relay cells from sensory inputs
- Random
- ACh depolarizes relay neurons & inhibits reticular nucleus
- ACh “opens” thalamocortical gate to sensory info ==> attention and arousal
