export_diencephalon

Question 1

The cerebrum is composed of:

Answer 1

The diencephalon and the telencephalon

Question 2

Anatomical borders of the diencephalon

Answer 2

Extends from the posterior commissure to the foramen of Monro.
Laterally it is bounded by the internal capsule, the tail of the caudate and the stria terminalis.

Question 3

What are the components of the diencephalon

Answer 3

1. Thalamus
2. Epithalamus - 4 subcomponents
3. Hypothalamus
4. Subthalamus
5. Metathalamus - medial and lateral geniculate bodies.

Question 4

What are the 4 components of the epithalamus

Answer 4

1. Habenular Trigone
2. Pineal Gland
3. Stria Medullaris
4. Roof of the third ventricle.

Question 5

What are the functions of the thalamus

Answer 5

1. Integrate, correlate, and relay motor, sensory, visual, limbic and conscious systems.
2. Interpretation and conscious perception of pain
3. Enhance cortical areas

Question 6

What structures divide the thalamic nuclei?

Answer 6

Thalamic medullary laminae.

The internal medullary lamina - between the medial and ventrolateral thalamic nuclei

The external medullary lamina - between the lateral and reticular nuclei.

Question 7

Which thalamic nuclei comprise the anterior nuclear group?

Answer 7

1. Anteroventral
2. Anterodorsal
3. Anteromedial

Question 8

Features of the anterior thalamic nuclear group

Answer 8

They receive input from the mammillothalamic tract and fornix. Project fibers to the cingulate gyrus via the anterior limb of the IC.
These nuclei are involved in the regulation of visceral function.

Question 9

Features of the mediodorsal group of thalamic nuclei

Answer 9

Lies between the IML and periventricular gray. Controls affective behavior and is disconnected in prefrontal lobotomies.
Receives input from the amygdala, orbitofrontal and temporal cortex. Projects to the frontal association cortex or prefrontal area and has reciprocal connections to the FEF.

Lesions here cause Korsakoff’s psychosis.

Question 10

What are the nuclei which comprise the intralaminar nuclear group?

Answer 10

1. Centromedial
2. Parafascicular
3. Rostral intralaminar

Question 11

General features of the intralaminal group of thalamic nuclei

Answer 11

They receive input from the reticular activating system and output to the cortex diffusely.

It functions as a thalamic pacemaker for controlling electrical activities and wakefulness.

Question 12

Input and output of the centromedial nuclei

Answer 12

Input: Area 4 - primary motor cortex
Output: Putamen

Question 13

Input and output of the parafascicular nucleus

Answer 13

Input: area 6
Output: Caudate

Question 14

Input and output of the rostral intralaminar nucleus

Answer 14

Input: Reticular formation
Output: Diffuse cortical areas

Question 15

What are the midline thalamic nuclei and what structures do they output to?

Answer 15

The periventricular gray and the massa intermedia. They both output to the amygdala and the cingulate gyrus.

Question 16

Output of the lateral dorsal thalamic nuclei

Answer 16

Cingulum and the supralimbic parietal lobe

Question 17

Input and output of the lateral posterior thalamic nuclei

Answer 17

Input: Parietal lobe
Output: Areas 5 and 7

Question 18

Pulvinar nucleus: Input and role.

Answer 18

1. Gets input from the superior colliculus, reciprocal connections with the occipital, temporal and parietal cortex.

It is involved with extrageniculate visual pathways to secondary visual areas.

Question 19

Three key visuotopic thalamocortical pathways

Answer 19

1. LGB –> area 17
2. Inferior pulvinar –> area 18
3. Lateral pulvinar –> area 19

Question 20

What are the three nuclei that comprise the dorsal tier of the lateral nuclear group?

Answer 20

1. LD
2. LP
3. Pulvinar

Question 21

What are the nuclei which comprise the ventral tier of the lateral nuclear group

Answer 21

1. VA
2. VL
3. VP - VPLo, VPLc, VPM, VPI

They are all relay nuclei

Question 22

Role of the VA nucleus

Answer 22

It recruits cortical response, programming of movements from the BG.
The mammillothalamic tracts also pass through the VA

Question 23

What is the metathalamus, its inputs and outputs

Answer 23

Metathalamus = medial and lateral geniculate bodies.
Receives input from the GP, SN, areas 6 and 8.

Sends output to the frontal cortex and intralaminar nuclei.

Question 24

VLo - input and output

Answer 24

Input: GP

Output - premotor and supplementary motor cortex.

Question 25

VLc: Input and output.

Answer 25

Input: Contralateral deep cerebellar nuclei and the red nuclei.

It also has reciprocal connections with area 4.

Question 26

VPLo: Input and output.

Answer 26

Input: Contralateral deep cerebellar nuclei

Output: Motor cortex

Question 27

VPLc: Input and output.

Answer 27

Input: Medial Lemniscus
Output: Sensory cortex

Question 28

VPM: Input and output.

Answer 28

Input: Contralateral spinal cord, principal sensory nucleus of CN5 and ipsilateral dorsal trigeminal tract.

Output: Sensory cortex to face - bilateral VPM representation.

Taste fibers from the nucleus solitarius–> central tegmental tract uncrossed to the VPMc –> parietal operculum area 43.

Question 29

VPI output

Answer 29

Ipsilateral S2.

Question 30

Features of the medial geniculate body

Answer 30

It is an auditory relay nucleus which is located in the caudal ventral thalamus.
Input: inferior colliculus via the inferior brachium

Also has reciprocal connections with the primary auditory cortex, spatial representation of tonal frequency. Tonotopic, high frequency sounds lie medially.

Question 31

Features of the lateral geniculate body

Answer 31

Visual relay nucleus, located rostral and lateral to the MGB and ventral to the pulvinar. It has 6 layers: 1+2=magnocellular. 3-6: parvicellular.
Input: retinal ganglion cells

Retina sends crossed fibers from the contralateral eye to layers 1,4,6. Uncrossed fibers go to layers - 2,3,5. Lower retina –> lateral geniculate –> lower calcarine cortex.

It has reciprocal connections with the calcarine cortex and the pulvinar.

Question 32

Input and output of the posterior thalamic nuclear complex

Answer 32

Input: Spinothalamic tract, ML and S1
Output: Retroinsular cortex and posterior auditory cortex.

Question 33

Features of the thalamic reticular nuclei

Answer 33

It is located between the IC and the external medullary lamina. It forms a shell over the dorsal thalamus.
It samples passing fibers and gates the activity of the thalamus but does not have any cortical projections.

Question 34

What are the neurotransmitters involved in thalamic signaling

Answer 34

Input - aspartate and glutamate (excitatory) from the cortex and the deep cerebellar nuclei.
Output - GABA

Question 35

What are the thalamic radiations?

Answer 35

Portions of the IC with reciprocal connections between the thalamus and the cortex.

Question 36

What are the four thalamic peduncles

Answer 36

1. Anterior - fibers from the medial and anterior thalamic nuclei to the frontal lobe
2. Superior - connections –> to the precentral and postcentral gyri
3. Posterior - Connections –> visual to calcarine cortex.
4. Inferior - Connections –> auditory to Heschl’s gyri.

Question 37

What is the habenulum

Answer 37

A part of the epithalamus involved in smell and emotional pathways.

Question 38

Where does the habenulum receive its input from:

Answer 38

1. GP –> lateral habenulum
2. Septal nuclei, lateral pre-optic region and anterior thalamic nuclei to the medial habenulum via the stria medullaris.
3. Lateral hypothalamus, substantia innominata, midbrain raphe nucleus and superior cervical ganglia also send inputs to the habenulum

Question 39

Output of the habenulum

Answer 39

Via the fasciculus retroflexus to the interpedunculular nuclei and midbrain raphe nuclei —> to the reticular, hypothalamic and preganglionic nuclei.

Question 40

Borders of the pineal gland

Answer 40

It is attached to the pineal gland by the posterior commissure ventrally and the habenular commissure dorsally.

Question 41

Basic functions of the pineal gland

Answer 41

1. Secretion of 5HT from pinealocytes.
2. Secretion of norepi from terminating sympathetic neurons.
3. Secretes melatonin - levels fluctuate with light, maximal in the dark. Oversecretion leads to delayed puberty. Hyposecretion causes precocious puberty.

Question 42

Sympathetic innervation to the pineal gland

Answer 42

Sympathetic innervation inhibits the pineal gland.
Light hits the retina –> suprachiasmatic nucleus of the hypothalamus–> dorsal longitudinal fasciculus –> upper intermediolateral cell column of superior colliculi –> pineal inhibition.

Question 43

Which nucleus relays light/retinal input to the pineal gland

Answer 43

Hypothalamic suprachiasmatic nuclei.

Bilateral lesions to this region abolishes circadian rhythms of eating and drinking.

Question 44

Fibers and blood supply of the anterior limb of the internal capsule

Answer 44

Fibers: Anterior thalamic radiation, prefrontal corticopontine tract.

Blood Supply: RAH (ACA), Lenticulostriates (MCA)

Question 45

Fibers and blood supply of the genu of the internal capsule

Answer 45

1. Corticobulbar tract
2. Corticoreticular tract

Perforators off of the ICA.

Lenticulostriates (MCA)

Question 46

Fibers and blood supply of the posterior limb of the internal capsule

Answer 46

Fibers:
Superior thalamic radiation, frontopontine tract, corticospinal/tectal/rubral and reticular tracts.

Motor fibers lie anterior to the sensory fibers.

Supplied by the lenticulostriate arteries, Anterior ChA, and the PcommA.

Question 47

Fibers and blood supply of the retrolenticular limb of the internal capsule

Answer 47

Posterior thalamic radiations - visual.
Parietal and occipital corticopontine fibers.

AChA

Question 48

Fibers and blood supply of the sublenticular limb of the internal capsule

Answer 48

Inferior thalamic radiations - auditory.
Temporal and parietooccipital corticopontine fibers.

AChA