09 09 2014 Cerebelum

Question 1

Function of cerebellum

Answer 1

Balance, smooth coordination of movement

Question 2

Where does sensory and motor inputs plus outputs go through?

Answer 2

1. Superior peduncle
2. Middle peduncle
3. Inferior Peduncle

Question 3

Superior peduncle

Answer 3

connects to midbrain and thalamus (VA/VL)

• outputs (crossed) to VA/VL and red nucleus
• some inputs from spinal cord

*decussates in midbrain at the level of the inferior colliculi

Question 4

Middle peduncle

Answer 4

Connects to pons

• formed entirely by inputs coming from pons
• contralateral pontine nuclei

Question 5

Inferior peduncle

Answer 5

connects to medulla/spinal cord

• inputs from medulla and spinal cord (olive)
• Outputs to vestibular and reticular nuclei

Question 6

Ataxia

Answer 6

Uncoordinated movement

Hallmark of cerebellar sign

• appendicular (limbs)
• gait
• trunk
• Speech (no normal tempo)
• extraocular (stagmis)

Question 7

What happens if there is a lateral lesion in the cerebellum?

Answer 7

Affect limbs ipsilaterally

Question 8

What if there is a medial lesion in the cerbellum

Answer 8

Affect trunk and eye movements

Question 9

Vermis

Answer 9

proximal and trunk muscle control plus vestibulo-ocular control

Question 10

Intermediate part

Answer 10

control of more distal appendicular muscles in legs and arms

Question 11

Lateral part

Answer 11

planning the motor program for extremities

Question 12

primary fissure

Answer 12

1/3 from rostral

-Deep fissure that divides cerebellum from anterior vs posterior lobes

Question 13

Who provides outputs?

Answer 13

Deep cerebellar nuclei.

* inputs come in here!

Question 14

Deep cerebellar nuclei

Answer 14

1. dentate
2. Interposed nuclei (globose and emboliform)
3. Fastigial nuclei
4. Vestibular nuclei

Question 15

Dentate nuclei

Answer 15

receives projections from lateral cerebellar hemisphere.

-Active before voluntary movements.

Question 16

Interposed nuclei

Answer 16

globose and emboliform

-receive input from intermediate part of cerebellum.

Question 17

Fastigial nuclei

Answer 17

most medial- receive input from vermis and small input from flocculonodular lobe

Question 18

Vestibular nuclei

Answer 18

located in brainstem close to cerebellum
-output nuclei for flocculonodular lobe

-not part of deep cerebellar nuclei

Question 19

Inferior olivary nucleus

Answer 19

located in medulla
- histology: look like dentate (but are in medulla)

• inputs from spinal cord and cortex.
• output to contralateral cerebellum via the interior cerebellar peduncle.
• IO neurons coordinate through gap junctions
• inputs throughout cerebellum

-motor learning

Question 20

Cerebellum works as a comparator

Answer 20

An efferent copy of command is made and once it reaches the cerebellar cortex, the efferent command (copy) is compared to the feedback of original motor command and an error correction is made.

This error correction is then sent back to brainstem and cerebral cortex.

Question 21

Inputs to deep cerebellar nuclei

Answer 21

1. Mossy fibers– everywhere not from inferior olive.

2. Climbing fibers- come from contralateral inferior olivary nucleus.

Question 22

Cerebellar cortex

Answer 22

modulate levels of feedback via purkinje fibers.

Question 23

Layers of cerbellar cortex before hitting white matter

Answer 23

1. molecular layer
2. Purkinje cell layer
3. Granual cell layer

Question 24

Molecular layer

Answer 24

layer where purkinje dendrites are. they synaptic connections.

Question 25

Purkinje layer

Answer 25

Cell bodies of purkinje neurons.

Question 26

Granule cell layer

Answer 26

project upward toward molecular layer

-send axons to molecular layer to connect with purkinje cell dendrites.

Question 27

Mossy fibers

Answer 27

go straight up into Granule layer and synapse with granule cells. Make end-on-end connection

Question 28

Climbing fibers

Answer 28

Inputs from olive

• come in and go all the way up to the molecular layer (synapse at purkinje dendrite)
• activated when movement errors occur. When activated they change synaptic length of parallel fibers onto purkinje neurons – change cortical inhibitory loop

Question 29

Cerebrocerebellum

Answer 29

Lateral hemisphere of cerebellum.

• motor planning
• active before movement

Question 30

Spinocerebellum

Answer 30

vermis + intermediate part of cerebellum.

• feedback from spinal cord allows adjustments for movement.
• more for execution vs. planning

Question 31

What are the three cerebellar circuits

Answer 31

1. Cerebrocerebellum
2. Spinocerebellum
3. Vestibulocerebellum

Question 32

Cerebrocerebellum circuit

Answer 32

Input: Cerebral cortex – pons– pontine nuclei

Controls pre-motor cortex output based on predictions. – active before movement.
* contralateral!! (Left cortex projects to right cerebellum)

-Input from cerebral cortex –> pontine nucleus–> (crosses Middle cerebellar peduncle) to get to lateral hemisphere of cerebellar cortex.

• Cerebellar corted –> dentate nucleus
• -> (crosses Superior cerebellar peduncle) to VA/VL and red nucleus (midbrain).

VA/VL –> signal back to motor cortex.

Question 33

Spinocerebellum circuit

Answer 33

Input: Spinal cord

input travels up inferior cerebellar peduncle to Intermediate part and vermis of cerebellar cortex.

• Output to interposed and fastigial neurons.
• out puts sent to VA/VL, Red nucleus, and Reticular F., Vestibular n. and rubrospinal tract (flexors of arms)

VA/VL send signal to motor and premotor cortex.

Question 34

Specific types of input from spinal cord to spinocerebellum circuit

Answer 34

From lower extremities:

• Dorsal spinocerebellar (Clarke’s nucleus)
• Ventral spinocerebellar (ventral horn)

From upper extremities:

• Cuneocerebellar (external cuneate n)
• Rostral spinocerebellar tract (unknown yet).

Question 35

What information is sent via inputs to spinocerebellum circuit?

Answer 35

• proprioceptors

- Motor activation information from lumbosacral SC intermediate zone and ventral horn

Question 36

Dorsal spinocerebellar tract

Answer 36

input to spinocerebellar tract

• muscle spindle and GTO information is sent up via gracile tract. Collateral to Clarke’s nucleus (C8-L2). Dorsal spinocerebellar tract continues ipsilatral to Inferior cerebellar peduncle
• proprioceptive information from lower limb

Question 37

Cuneocerebellar tract

Answer 37

input to spinocerebellar tract

• muscle spindle and GTO information sent via cuneate tract –> collateral to accessory/lateral/external cuneate nucleus (located right next o cuneate nucleus– DCML) in medulla.
• ipsilateral pathway
• proprioceptive info from upper limb to inferior cerebellar peduncle

Question 38

ventral spinocerebellar tract

Answer 38

input to spinocerebellar tract

• originates from interneurons in lumbosacral cord (intermediate zone). Cross medially all the way to the other side’s ventral spinocerebellar tract and continues contra laterally to the superior cerebellar pedunce. There, it crosses to the intermediate part and vermis of the cerebellar cortex.
• carries information of muscle activation

Question 39

Vestibulocerebellum circuit

Answer 39

monitors and corrects eye movements, posture, and balance

• CN# 8 sends trajection to both flocullonodular lobe and (via ICP) to Vestibular n.
• Flocullonodular lobe sends projections to fastigial n. and vestibular n.
• Vestibular n. sends a descending vestibulospinal tract and an ascending MLF (eye movements)

Question 40

Main points about lesion location?

Answer 40

1. produce symptoms ipsilateral to lesion

2. posterior vermis and flocullonodular lobe lesions affect trunk and eye movements.

Question 41

Clinical tests for cerebellar ataxia

Answer 41

Rapid movements:

• finger-to-nose
• heel-to shin
• Rebound and check reflex
• speech
• tandem walking

Question 42

Dysmetria

Answer 42

undershooting or overshooting target.

incorrect movement amplitude (finger to nose)

Question 43

Dysdiadochokinesia

Answer 43

difficulty with rapid alternating movements

Question 44

other symptoms of cerebellar ataxia

Answer 44

• decreased muscle tone (floppiness ipsilateral to lesion)
• Intention tremor (at the end of a movement)
• Scanning or explode speech – irregular rhythm or volume
• Abnormal eye movements

Question 45

Flocculonodular lobe (Vestibulocerebellar) syndrome

Answer 45

• Truncal ataxia
  
  • reeling of trunk from side to side
• Titubation- tremor of the trunk
• patients walk with a wide base of support
• abnormal eye movements.

Question 46

testing for vestibulocerebellar syndrome

Answer 46

station (position in standing still with eyes open)

walking

Tandem gait

Question 47

Anterior lobe syndrome

Answer 47

– anterior lobe of cerebellar cortex.

–deficits that mainly affect lower extremity usually bilaterally.

• ingestion of toxin (ethanol or other)
  
  • alchololism

-broad-based, staggering gait

Question 48

What complications would you see in a tonsil hernia?

Answer 48

Cerebellum is also in posterior fossa

Chiari I:
-compression of medulla (respiratory center) and upper spinal cord

• compression of cerebellum
  
  • trunk problems if compression is midline.
• disruption of CSF flow through foramen magnum

Question 49

What complications/ signs would you see with significant herniation of cerebellar tonsils and vermis and lower brainstem through foramen magnum with aqueductal stenosis?

Answer 49

Chiari II: Meningomyocele

Question 50

Blood supply to cerebellum?

Answer 50

• Posterior infereior cerebellar artery (PICA)
• Anterior infereior cerebellar artery (AICA)
• Superior cerebellar artery (SCA)