export_cerebellum

Question 1

What are the functions of the cerebellum

Answer 1

It controls muscle tone, co-ordination, and equilibrium

Question 2

What are the major components of the cerebellum

Answer 2

1. Cortex
2. Medullary substance
3. Intrinsic nuclei
4. Hemispheres
5. Vermis

Question 3

Convolutions in the cerebellum are called

Answer 3

Folia

Question 4

What are the three lobes of the cerebellum

Answer 4

1. Anterior
2. Posteior
3. Flocculonodular

Question 5

What are the nine lobules of the vermis

Answer 5

1. Lingula
2. Centralis
3. Culmen
4. Declive
5. Folium
6. Tuber
7. Pyramis
8. Uvula
9. Nodulus

Question 6

From a phylogenic perspective how can the cortex of the cerebellum be classified

Answer 6

1. Archicerebellum
2. Paleocerebellum
3. Neocerebellum

Question 7

What are the components of the archicerebellum

Answer 7

Flocculus and nodulus.

Involved with vestibular function

Question 8

What are the components of the paleocerebellum

Answer 8

Anterior lobe rostral to the primary fissure - lingula, centralis and culmen.

Control muscle tone with inputs from the stretch receptors.

Question 9

What are the components of the neocerebellum

Answer 9

Posterior lobe between the primary fissure and the lateral fissures: declive, folium, tuber, pyramis, and uvula.

Controls co-ordination with inputs from the contralateral cortex via pontine relay nuclei.

Question 10

What are the three cerebellar cortical layers?

Answer 10

1. Molecular layer (most superficial)
2. Purkinje cell layer
3. Granular cell layer (most deep)

Question 11

Features of the molecular cell layer of the cerebellum

Answer 11

Most superficial layer of the cerebellum. It contains basket and outer stellate cells. Axons from each basket cell touch 10 Purkinje cells.

Question 12

Features of the Purkinje cell layer

Answer 12

Contains Purkinje cells. The myelinated axons here synapse with the deep nuclei and the lateral vestibular nucleus and send collateral fibers to excite Golgi type 2 cells.

Question 13

Features of the granular cell layer

Answer 13

Contains granule cells and Golgi type 2 cells.

Question 14

Features of the granule cells

Answer 14

Granule cells supply 4-5 dendrites to form a glomerulus and sends unmyelinated fibers to the molecular layer which bifurcate into parallel fibers and contact the Purkinje cell dendrites.

Question 15

Features of the Golgi type 2 cells

Answer 15

Axons of the Golgi type 2 cells synpase in the glomeruli of the granular layer and send dendrites to the molecular layer which they synapse with parallel fibers.

Question 16

Inputs to the cerebellum arrive via the

Answer 16

Superior, middle and inferior peduncles

Question 17

The fiber tracts which provide cerebellar input are:

Answer 17

1. Spinocerebellar
2. Cunocerebellar
3. Olivocerebellar
4. Vestibulocerebellar
5. Pontocerebellar

These fibers will all lose myelin in the cortex and end as mossy/climbing fibers.

With the exception of granule cells, climbing fibers and mossy fibers all cerebellar cells are inhibitory.

Question 18

What are the 8 spinocerebellar tracts

Answer 18

1. Dorsal spinocerebellar
2. Ventral spinocerebellar
3. Cuneocerebellar
4. Rostral spinocerebellar
5. Trigeminocerebellar
6. Vestibulocerebellar
7. Tectocerebellar
8. Reticulocerebella

Question 19

Features of the dorsal spinocerebellar tract

Answer 19

Uncrossed fibers.
Convey proprioception from joints and muscle spindles of ipsilateral lower extremities and upper trunk to Clarke’s nucleus in lamina 7 of the intermediate zone of the spinal cord.

These fibers then enter the inferior cerebellar peduncle to the cerebellar vermis and intermediate zone of the cerebellum as well as the fastigial and the interposed nuclei.

Question 20

Features of the ventral spinocerebellar tract.

Answer 20

Crossed fibers.
Conveys efferent copies of motor commands, and exteroceptive and proprioceptive information to the lower extremities.

Cell bodies are spinal border cells in the anterior and intermediate horns, the tract ascends b/l crosses within the spinal cord and enters the superior cerebellar peduncle where it partly crosses again but remains mostly contralateral.

Question 21

Features of the cuneocerebellar tract

Answer 21

Conveys proprioception of the upper extremities in the fasciculus cuneatus but synapses in the accessory cuneate nucleus in the caudal medulla and enters the inferior cerebellar peduncle ipsilaterally.

Upper extremity equivalent to the dorsal spinocerebellar tract

Question 22

Features of the rostral spinocerebellar tract

Answer 22

Upper extremity equivalent to the ventral spinocerebellar tract.

Provides internal feedback, ispilateral and enters the inferior cerebellar peduncle

Question 23

Features of the trigeminocerebellar tract

Answer 23

Conveys information from the mesencephalic, chief sensory and spinal nucleus of 5.
Mesencephalic –> middle cerebellar peduncle –> dentate and emboliform

Chief sensory –> quadrangular lobe and tonsil

Spinal nucleus (crossed and uncrossed fibers)–> tonsil

Question 24

Features of the vestibulocerebellar tract

Answer 24

Monitors head position, eye movement and equilibrium.
Conveys fibers from CN 8 –> inferior cerebellar peduncle –>ipsilateral flocculonodular

Conveys inferior and medial vestibular nuclei –> juxtarestiform body –> bilateral flocculonodular lobe and fastigial nuclei

Question 25

Features of the tectocerebellar tract

Answer 25

Conveys auditory and visual reflex information from the tectum –> anterior medullary velum –> superior cerebellar peduncle –> anterior and posterior lobes.

Question 26

Features of the reticulocerebellar tract

Answer 26

Conveys information from the medulla –> inferior cerebellar peduncle –> vermis

Pons/reticulotegmental nucleus –> middle cerebellar peduncle –> vermis.

Question 27

What two types of fibers provide afferent output to the cortex

Answer 27

1. Mossy fibers

2. Climbing fibers

Question 28

Features of mossy fiber input to the cortex

Answer 28

Mossy fibers from the spino/ponto/vestibulocerebellar tracts go to the granular layer to form the center of a glomerulus with a mossy fiber rosette. The mossy fiber stimulates granule cells vs Golgi type cells which inhibit them.
Each glomerulus contains: 1 mossy fiber; 20 dendrites of granule cells; Golgi type 2 cell’s axons and dendrites.

Question 29

Features of climbing fiber input to the cortex

Answer 29

Climbing fibers from the contralateral inferior olivary complex to the molecular layer where they synapse on Purkinje cell dendrites, granule cell parallel fibers and basket and stellate cells.

Question 30

What are the three corticonuclear projections seen from the cerebellum and what are their features?

Answer 30

1. Vermis - fastigial nucleus
2. Paravermian zone - interposed nucleus
3. Hemisphere - dentate nucleus

These projections are bidirectional and unilateral.

Question 31

The deep nuclei project to which layer of cerebellar cortex and release what kind of neurotransmitters?

Answer 31

Deep nuclei project to the granular cell layer.

They release excitatory neurotransmitters - aspartate and glutamate.

Question 32

What are the four paired deep cerebellar nuclei

Answer 32

1. Fastigial nucleus -> midline roof of the 4th ventricle, sends fibers to the vestibular system bilaterally
2. Globose nucleus -> involved with tone
3. Emboliform nucleus -> involved with tone
4. Dentate nucleus -> largest, involved with coordination.

The globose and the emboliform nucleus together make up the nucleus interpositus

Question 33

What kind of inputs to the deep nuclei can overcome the tonic inhibition from the cortex

Answer 33

Extracerebellar inputs.

Question 34

Extracerebellar inputs to the deep nuclei

Answer 34

1. Red nucleus -> nucleus interpositus (C)
2. Principal olivary nucleus -> dentate (C)
3. Medial and dorsal accessory olivary nuclei -> interposed nuclei (C)
4. Medial accessory olive -> fastigial nucleus (C)
5. Trigeminal sensory nucleus
6. Reticulotegmental
7. Locus ceruleus
8. Raphe nucleus via climbing and mossy fibers.

Question 35

Features of the afferent fibers in the inferior cerebellar peduncle

Answer 35

Restiform body -> contains only afferent fibers from the inferior olivary complex, pons and dorsal spinocerebellar tract

Juxtarestiform body(medial to the restiform body) -> contains afferent and efferent fibers from the vestibular system -> uvula, nodulus and fastigial nucleus

Question 36

Features of the afferent fibers of the middle cerebellar peduncle.

Answer 36

The middle cerebellar peduncle only contains afferent fibers.
Cerebral cortex –> ipsilateral pons –> contralateral cerebellar hemisphere and bilateral vermis.

Question 37

Features of the afferent fibers in the superior cerebellar peduncle

Answer 37

Afferent fibers in the superior cerebellar peduncle come from the ventral spinocerebellar tract.

Question 38

The only part of the cerebellum without pontine input is the…..

Answer 38

Nodulus

Question 39

Which cerebellar peduncles transmit efferent fibers?

Answer 39

Superior and inferior cerebellar peduncles

Question 40

Features of the efferent fibers of the inferior cerebellar peduncle

Answer 40

Lie within the juxtarestiform body.
Fastigial nucleus to the pons, spinal cord, and bilaterally to the lateral and inferior vestibular nuclei.

Vermian cortex and flocculonodular lobe to the ipsilateral vestibular nucleus.

Flocculus –> superior and medial vestibular nuclei

Nodulus/uvula -> superior, medial and inferior vestibular nuclei

Fastigial nuclei -> vestibular nuclei

Question 41

Features of the efferent fibers in the superior cerebellar peduncle

Answer 41

Dentate -> contralateral thalamic VL, VPLo and centrolateral nucleus -> cortex (ipsilateral coordination)
Dentate -> principal olive (Crossed fibers)

Emboliform nucleus -> dorsal accessory olive

Globose nucleus -> medial accessory olive

Nucleus interpositus -> contralateral red nucleus -> ipsilateral spinal cord (ipsilateral tone)

Question 42

How is touch organized in the cerebellum

Answer 42

Ipsilateral in the anterior lobe and bilateral in the posterior lobe

Question 43

How is audiovisual information organized in the cerebellum

Answer 43

Lies midline in the cerebellum

Question 44

In the vermian zone Purkinje fibers inhibit the vestibular nuclei in order to

Answer 44

Decrease extensor muscle tone

Question 45

The fastigial nucleus controls what?

Answer 45

Posture, tone equilibrium and locomotion.

The fastigial nucleus receives ipsilateral inhibition from the vermis but sends bilateral stimulation to the vestibular nuclei, pons, medulla, thalamus and cervical motor neurons.

Question 46

The paramedian zone of the cerebellum controls what?

Answer 46

Controls ipsilateral flexor tone

Sends fibers to the nucleus interpositus which in turn travel to the thalamus and red nucleus.

Question 47

The efferent fibers from the cerebellar hemispheres travel to..

Answer 47

1. Dentate nucleus –> thalamic VL

2. VPLo –> motor cortex 4 for ipsilateral coordination.

Question 48

Cerebellar lesions generally have ………… effects

Answer 48

Ipsilateral

Question 49

Neocerebellar or posterior cerebellar lobe lesions produce what symptoms.

Answer 49

Hypotonia, fatigability, sluggish DTRs, decreased coordination, dysmetria, dysdiadokinesis, intention tremor, slow dysarthric speech, ipsilateral nystagmus

Question 50

Paleocerebellar or anterior cerebellar lobe lesions produce

Answer 50

Transient increased extensor tone.

Question 51

Archicerebellar or posterior vermian and floccular cerebellar lesions produce what symptoms

Answer 51

Truncal ataxia and equilibrium disorders.