1. The Cerebellum
陽明大學醫學院 神經學系
陳昌明 醫師

3. Position
Lies above and behind the medullar and pons and occupies posterior cranial fossa
Cerebellum

4. Cerebellum External Configurations
Located in posterior cranial fossa
Tentorium cerebelli (cerebrum), 4th
ventricle (brain stem)
Communicate with other structure via
superior, middle, and inferior cerebellar peduncle

5. MRI at the level of the 4th ventricle

6. External features
Consists of two cerebellar hemisphere united in the midline by the vermis

7. External features Three peduncles
Inferior cerebellar peduncle 下小腦脚 －connect with medulla and with spinal cord, contain both afferent and efferent fibers
Middle cerebellar peduncle 中小腦脚－connect with pons, contain afferent fibers
Superior cerebellar peduncle 上小腦脚－connect with midbrain, contain mostly efferent fibers

8. Cerebellum Longitudinal division Transverse division
Vermis, Paravermal Region, Cerebellar Hemisphere
Transverse division
Anterior Lobe
Posterior Lobe
Flocculonodular Lobe

9. Lobes Anterior lobe corpus of cerebellar Primary fissure
Posterior lobe
Flocculonodular lobe
Posterolateral fissure

10. Lobes Two deep fissures Three lobs Primary fissure
Posterosuperior fissure
Three lobs
Flocculonodular lobe 絨球小結葉 flocculus and nodule
Anterior lobe
Posterior lobe
Corpus of
cerebellar

11. External features
Superior surface
Tonsil of cerebellum 小腦扁桃体 two elevated masses on inferior surface of hemispheral portion just nearby foramen magnum
Tonsil
View from below

12. Functional divisions of cerebellar cortex
Cbm unfold

13. Cerebellum & Brainstem, Inferior Surface, Anterior View
External features
Cerebellum & Brainstem, Inferior Surface, Anterior View

15. Cerebellum External Configurations
Subdivision of Flocculonodular Lobe
Nodulus Flocculus
Subdivision of Anterior Lobe
Vermis Hemisphere
Lingula
Central Lobule Ala Central Lobule
postcentral fissure
Culmen Quadriangular Lobule

16. Cerebellum External Configurations
Subdivision of Posterior Lobe
Vermis Hemisphere
Declive Simple Lobule
postcentral fissure
Folium Superior Semilunar Lobule
horizontal fissure
Inferior Semilunar Lobule
Tuber
Gracile Lobule
prepyramidal fissure
Pyramis Biventer Lobule
secondary fissure
Uvula Tonsil

18. Cerebellum Internal Configurations
Cerebellar Cortex
Molecular Layer
Purkinje Cell Layer
Granular Layer
Corpus Medullare (Medullary Center)
Deep Cerebellar Nuclei
Fastigial Nuclei
Nucleus Interpositus
Emboliform Nucleus
Globose Nucleus
Dentate Nucleus

19. Internal structures White matter－medullary center 髓体 Gray matter
Cerebellar cortex
Cerebellar nuclei
Dentate nucleus 齒狀核
Fastigial nucleus 頂核
Interposed nucleus 中間核
Emboliform nucleus 栓狀核
Globose nucleus球狀核
White matter－medullary center 髓体

20. Deep Nuclei
1. fastigial
nucleus
2. globose
3. emboliform
4. dentate

21. Internal structures Fastigial nucleus Cerebellar cortex
Globose nucleus
Dentate nucleus
Emboliform nucleus
medullary center

26. Cerebellar Cortex Inputs Climbing fibers •from Inferior olive
Mossy fibers
Output
Purkinje neurons
Interneurons
Granule neurons
Stellate neurons
Basket neurons
Golgi neurons
Molecular
Purkinje
Granular
NTA Fig

27. Cerebellum Internal Configurations
Cerebellar Cortex
I. Molecular Layer
Stellate Cell --- taurine (inhibitory)
afferent: parallel fiber
efferent: Purkinje cell dendrite
Basket Cell ---- GABA (inhibitory)
efferent: Purkinje cell soma
Parallel Fiber
granule cell axon
Purkinje Cell Dendrite

31. Cerebellum Internal Configurations
Cerebellar Cortex
II. Purkinje Cell Layer
Purkinje Cell
-- 15,000,000 in number
-- GABA (inhibitory)
afferent from: parallel fiber
climbing fiber
stellate cell
basket cell
efferent to: deep cortical nuclei
Bergman’s glial cell

32. Cerebellum Internal Configurations
Cerebellar Cortex
III. Granular Layer
Granular Cell
-- 50,000,000,000 in number
-- glutamic acid (excitatory)
afferent: mossy fiber
efferent: Purkinje cell dendrite
basket cell, stellate cell
Golgi cell
Golgi Cell
-- GABA (inhibitory)
afferent: parallel fiber, mossy fiber rosette
efferent: granule cell dendrite

34. 1. Purkinje cell
2. granule cell
3. basket cell
4. Golgi cell
5. stellate cell
6. climbing fiber
7. mossy fiber
8. parallel fiber
9. inferior olivary
nucleus
10. deep cerebellar
nuclei

35. Cerebellum Internal Configurations
Synaptic Glomerulus
Afferent terminals on granular layer
 Mossy Fiber Rosette
-- afferent fibers except
inferior olivary input
-- 2/3 of medullary center
 Granular Cell Dendrite
-- main afferent input
 Golgi Cell Axon
-- synapse on granule cell dendrite
-- GABA (inhibitory)
- Surrounded by Astrocyte Foot Process

36. Synaptic Glomerulus

37. Cerebellum Classifications
Classification by Phylogenetic and Ontogenic Development
Archicerebellum
Paleocerebllum
Neocerebellum
Classification by Afferent Connection
Vestibulocerebellum
Spinocerebellum
Pontocerebellum
Classification by Efferent Connection
Vermis
Paravermal Region
Cerebellar Hemisphere

38. Archicerebellum
(nodulus)
(flocculus)
Paleocerebellum
Neocerebellum

39. Spinocerebellum
Pontocerebellum
Vestibulocerebellum

40. Cerebellum Connections
Afferent Connections (1):
1. Inferior Cerebellar Peduncle
Restiform Body
Posterior Spinocerebellar Tract
Olivocerebellar tract
Cuneocerebellar Tract
Reticulocerebellar Tract
Juxtarestiform Body
Vestibulocerebellar Tract
Primary Vestyibular Fiber

41. Cerebellum Connections
Afferent Connections (2):
2. Middle Cerebellar Peduncle
Pontocerebellar fiber
Corticopontocerebellar Fiber
Reticulocerebellar Fiber
3. Superior Cerebellar Peduncle
Anterior Spinocerebellar Tract
Cerulocerebellar fiber
Raphecerebellar fiber
Rubrocerebellar fiber
Hypothalamocerebellar fiber

42. Cerebellum Connections
Efferent Connections :
1. Superior Cerebellar Peduncle
Cerebellothalamic fiber
- from 3 deep nuclei to VPLo, VLc, CL
Cerebellorubral fiber
- from nucleus interpositus
and dentate nucleus
ascending portion of
uncinate fasciculus of Russell
2. Inferior Cerebellar Peduncle
Fastigiovestibular fiber
descending portion of

43. Three functional divisions
Vestibulocerebellum 前庭小腦
Archicerebellum 原小腦
Flocculonodular lobe
Spinocerebellum 脊髓小腦
Paleocerebellum 舊小腦
Vermis and intermediate zone
Cerebrocerebellum 大腦小腦
Neocerebellum 新小腦
Lateral zone
Vermis
Intermediate zone
Lateral zone
Flocculonodular lobe

44. Cerebellar divisions Spinocerebellum: Vermis Intermediate hem.
(Vermis + Intermed. Hem)
Control of limbs
and trunk
Lateral hem.
Cerebrocerebellum:
Cerebrocerebellum
(Lateral hemisphere)
Planning of movement+
IVth vent
Floculo-nodular lobe
Vestibulo-cerebellum
(Floculo-nodular lobe)
Control of eye &
head movements
Balance
NTA Fig. 13-1

45. Connections and function of cerebellum
Vestibulocerebellum
Connections
Afferents: receive input from vestibular nuclei and primary vestibular
Efferents: projects to the vestibular nucleus →
(1) vestibulospinal tract → motor neurons of anterior horn for reflexively control of equilibrium
(2) vestibulo-ocular tract → medial longitudinal fasciculus → CN nucleus 3, 4, 6 for EOM control.
Function: involved in eye movements and maintain balance

46. Main Connections of the Vestibulocerebellum
Vestibular
Organ
Floculonodular
Lobe
Vermis
VESTIBULAR NUCLEUS
vestibulospinal tract
MLF
FASTIGIAL
NUCLEUS
lower motor neuron
ARCHICEREBELLUM
LMN

48. Main Connections of the Paleocerebellum
RED NUCLEUS
NUCLEUS
INTERPOSITUS
rubrospinal
tract
Inferior
Olivry
Nucleus
ANTERIOR
LOBE
PARAVERMAL
ZONE
lower motor neuron
PALEOCEREBELLUM
SPINAL CORD
spinocerebellar tract

49. Spinocerebellar tracts
End mainly in the anterior lobe, the paramedian lobule, and the pyramis of the posterior lobe

51. Connections and function of cerebellum
Cerebrocerebellum
Connection
Afferents: receives input from the cerebral cortex via a relay in pontine nuclei
Efferents: projects to dentate nucleus → VI → primary motor cortex → corticospinal tract → motor neurons of anterior horn
Function: participates in planning movements

56. Main Connections of the Neocerebellum
CEREBRAL
CORTEX
THALAMUS
DENTATE
NUCLEUS
pyramidal
tract
Pontine
Nucleus
POSTERIOR
LOBE
CEREBELLAR
HEMISPHERE
lower motor neuron
NEOCEREBELLUM
LMN

57. Pyramidal Tract and Associated Circuits
upper motor neuron
UMN
Cerebellum
BASAL
GANGLIA
pyramidal tract
lower motor neuron
UMN

58. Cerebellum and Automatic Motor Control Lower Motor Neuron (LMN)
Motor Cortex
CEREBELLUM
Red Nucleus
Vestibular
Nucleus
Reticular
Formation
Lower Motor Neuron (LMN)
Proprioceptors

59. Cerebellum---- connection
Corticonuclear Connections
A zone fastigial nucleus
medial vestibular nucleus
B zone lateral vestibular nucleus
C1, C3 zone --- emboliform nucleus
C globose nucleus
D parvocellular portion of dentate nucleus
D magnocellular portion of dentate nucleus

60. 1. vermis
2. paravermal region
3. cerebella hemisphere
4. nodulus
5. flocculus
6. fastigial nucleus
7. globose nucleus
8. emboliform nucleus
9. dentate nucleus
10. medial vestibular nucleus
11. lateral vestibular nucleus

61. Cerebellum Connections
Olivocerebellar Connections
(1) Caudal portion of
medial and dorsal accessory olivary nucleus
vermis of cerebellar cortex (A and B)
fastigial nucleus
vestibular nucleus
(2) Rostral portion of
paravermal region (C1, C2, C3)
nucleus interpositus
(3) Principal Inferior Olivary Nucleus
cerebellar hemisphere (D1, D2)
dentate nucleus

62. Olivo-cerebellar system
The inferior olivary complex
Principal olive, medial and dorsal accessory olive, and medial lamina.
1.5 million cells
Send climbing fibers to all cerebellar cortex in a specific topographic manner
A Small area in the inferior olive is linked to a definite area of the cerebellar output

63. The inferior olivary complex
Receives projections from
The spinal cord
crossed ventral and dorsal spino-olivary tracts
The brainstem (esp. red nuclei)
Cerebellar nuclei
Interpositus & dentate nuclei exert an inhibitory effect
Pretectal nuclei
Relaying optokinetic information
Cerebrum
Motor cortex (area 4), premotor cortex (area 6)
Visual and Vestibular areas
Zona incerta of the thalamus
Relay for the projections from the motor cortex, prefrontal, cingulate, parietal and temporal area

64. caudal portion rostral portion
Principal
Inferior Olivary
Nucleus
medial and dorsal accessory olivary nucleus

65. Functional divisions of cerebellar cortex
Spinocerebellum
Vermis
Intermediate hem
Cerebrocerebellum Lateral hemisphere
Vestibulo- cerebellum
Floculo-nodular lobe

66. Functional divisions of cerebellar cortex --> Deep nuclei
Spinocerebellum
Vermis
Intermediate hemisphere
Inter
posed
To lateral
sysetms
Cerebrocerebellum Lateral hemisphere
Dentate
Fastigial
To medial
sysetms
Vestibulo- cerebellum
To vestibular nuclei
Eye mvt &
balance
To frontal motor areas
Motor
Planning
+++
Motor
execution

68. Reticular nuclei Lateral reticular nuclei (lateral to inferior olive)
Sent mossy fibers to bilateral cerebellum (ipsilateral dominant) via superior cerebellar peduncle.
Receive excitatory reciprocal input from the cerebellar nuclei
Receive collaterals from propiospinal neurons
Relay motor information to cerebellum

70. Organization of Motor Subsystems

78. Cerebellum Function  Maintenance of Equilibrium
- balance, posture, eye movement
 Coordination of half-automatic movement of
walking and posture maintenance
- posture, gait
 Adjustment of Muscle Tone
 Motor Leaning – Motor Skills
 Cognitive Function

79. Balance

80. Motor Skill
Pablo Casals

81. Cerebellum Clinical Syndromes
Ataxia: incoordination of movement
- decomposition of movement
- dysmetria, past-pointing
- dysdiadochokinesia
- rebound phenomenon of Holmes
- gait ataxia, truncal ataxia, titubation
Intention Tremor
Hypotonia, Nystagmus
Archicerebellar Lesion: medulloblastoma
Paleocerebellar Lesion: gait disturbance
Neocerebellar Lesion: hypotonia, ataxia, tremor

82. Posture
Gait – Ataxia
Tremor

83. Cerebellar Ataxia a b c d Ataxic gait and position:
Left cerebellar tumor
a. Sways to the right in
standing position
b. Steady on the
right leg
c. Unsteady on the
left leg
d. ataxic gait d

84. Cerebellar Medulloblastoma Cerebellar tumors on vermis
- Truncal Ataxia
- Frequent Falling
The child in this picture:
- would not try to stand
unsupported
- would not let go of the bed rail
if she was stood on the floor.

85. Thank you for your attention