Motor System 3: Cerebellum Flashcards

1
Q

What, broadly, is the role of the cerebellum?

A

It compares the intention of a motion with the outcome, and sends out predictive and corrective signals.

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2
Q

Does the cerebellum have direct output to the muscles?

A

No.

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3
Q

What do lesions to the cerebellum broadly cause / not cause? (3 things)

A

Loss of spatial accuracy, coordination (ataxia)
Impairment of muscle tone and balance
Do NOT cause sensory loss or loss of strength

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4
Q

What are the folia of the cerebellum?

A

Thin gyri…

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5
Q

Is there a midline groove (or other structure) that divides the cerebellum into two halves?

A

No.

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6
Q

What function do the (deep) cerebellar nuclei serve?

A

Sources of output from the cerebellum.

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7
Q

What are the 3 lobes of the cerebellum? What fissures divide them?

A

Anterior, posterior, and flocculonodular lobes.
Primary fissure divides anterior from posterior lobe.
Posterolateral fissure divides posterior from flocculonodular lobe.

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8
Q

What characteristic defines the functional regions of the cerebellum?

A

Source of inputs.

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9
Q

What are the 2 systems of input to the cerebellum?

A

Climbing fiber system and the mossy-fiber, parallel-fiber system.

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10
Q

Where do climbing fibers come from? Where do they travel in the brain stem? Where do they go in the cerebellum? Type of synapse?

A

Origin: Inferior olivary nucleus
Path: Cross midline, travels up inferior cerebellar peduncle (ICP)
Destination: Purkinje cells (wrap all around their dendrites)
Synapse: Excitatory glutamatergic

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11
Q

Where do mossy fibers come from? Where do they travel in the brain stem? Where do they go in the cerebellum? Type of synapse?

A

Origin: “All sensory modalities” (including sensory nuclei)
Path: Up the inferior cerebellar peduncle (ICP)
Destination: Granular cells
Synapse type: Excitatory glutamatergic

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12
Q

How do the axons of granular cells run relative to the axis of the folia?

A

Parallel.

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13
Q

How do axons of Perkinje cells run relative to the axis of the folia?

A

Peripendicular - straight down (normal, if you will, to the surface) headed toward the deep cerebellar nuclei

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14
Q

What’s the destination of Perkinje cell axons? Are the excitatory or inhibitory?

A

Deep cerebellar nuclei. Inhibitory.

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15
Q

What are the 3 functional divisions of the cerebellum?

A

The vesibulocerebellum, the spinocerebellum, and the cerebrocerebellum.

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16
Q

Where do most of the vestibular inputs go in the cerebellum?

A

The flocculonodular lobe (a.k.a. the vestibulocerebellum)

17
Q

What anatomical regions constitute the spinocerebellum? What information does it receive?

A

Vermis and adjacent swathes of the hemispheres.

Receives proprioception from spinocerebellar tracts etc.

18
Q

What anatomical regions constitute the cerebrocerebellum? From where does it receive inputs, and how does that info get there?

A

Lateral parts of the cerebellar hemispheres. Gets info from the cortex (esp. about the intended motion). Cerebral peduncles -> pontine nuclei -> middle cerebellar peduncles -> cerebrocerebellum.

19
Q

What are “deep cerebellar nuclei” to which the vestibulocerebellum sends efferent information? Where are they?

A

Vestibular nuclei. They’re outside the cerebellum, in the brainstem.

20
Q

What are “deep cerebellar nuclei” to which the spinocerebellum sends efferent information? Where are they? Where do the nuclei send stuff?

A

Fastigial nuclei - in the vermis -> medial descending systems
Interposed nuclei - in the medial hemispheres -> lateral descending sytems

21
Q

What are “deep cerebellar nuclei” to which the cerebrocerebellum sends efferent information? Where are they? Where do the nuclei send stuff?

A

Dentate nuclei, at the medial edge of the cerebrocerebellum. Sends info to motor and premotor cortices.

22
Q

Do the dentate nuclei send information directly to the motor and premotor cortices? What specific path is taken?

A

No, information is relayed through the ventral lateral (VL) nucleus of thalamus. (he also mentioned the ventral anterior (VA) nucleus… but..)

23
Q

How does the somatotopic map look in the cerebellum? Is population encoding more or less important here than in the motor cortex?

A

Axial musculature is in the vermis, limbs ipsilaterally in the proximal (medial) hemispheres. Population encoding is more important here (it’s even less like a switchboard).

24
Q

Without an intact cerebellum, what happens in a bicep stretch reflex? Does the same thing happen in voluntary movements?

A

Reflex overshoots resting position -> stretch reflex in opposite direction -> oscillations. Yes, this happens with voluntary movements too.

25
Q

Might you have an easier time karate-chopping through a piece of wood with a lesioned cerebellum? Why or why not?

A

Probably. Because the cerebellum makes your arm brake before reaching the target location. (Yeah, I’m making this up. For those of you who haven’t fantasized about karate-chopping through things, apparently it’s all about aiming past the target.)

26
Q

If you had to pick between feedforward and feedback, which is more lost in a lesion to the cerebellum?

A

Feedforward is lost. Intact feedback causes oscillations.

27
Q

Is the cerebrocerebellum involved in cognitive tasks? Is it important for the memory of learned movements?

A

Yes, and yes.