cerebellum yung-yang lin institute of brain science national yang-ming university 20090513 1...
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Cerebellum
Yung-Yang LinInstitute of Brain Science
National Yang-Ming University
20090513
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Reference:
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Outline • Anatomy• Cellular structure• Synaptic organization• Functional properties
• Balance and eye movement • Body and limb movement• Somatosensory information• Feed-forward mechanims• Planning movement• Cognitive function• Motor learning
• Pathology
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• Cerebellum – 10% of the total volume of the brain– More than half of all its neurons– Highly regular manner– Organized projection
• Receiving projection from brain and spinal cord• Projecting to different motor systems
– Motor system modulation• Evaluating disparities between intention and action• Adjusting the operation of motor centers
– Three aspects of the cerebellum’s organization1. Providing with extensive information2. Focusing on the premotor and motor system3. Modifying the synaptic transmission in the circuit modules
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Dorsal view
Ventral view
Midsagittal view
Deep nuclei
output
output
inputinput
Different views of cerebellum
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• Composition of cerebellum– Outer gray matter (cerebellar cortex)– Inner white matter– 3 pairs of deep nuclei
• Fastigial nucleus• Interpose nucleus (globose nucleus, emboliform nucleus)• Dentate nucleus
• Cerebellar tracts– Inferior cerebellar peduncle (afferent projection)– Middle cerebellar peduncle (afferent projection)– Superior cerebellar peduncle (efferent projection)
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Anatomically distinct lobes
– Distinct lobes (horizontal)• Anterior lobe• Primary fissure• Posterior lobe• Posterolateral fissure• Flocculonodular lobe
– Distinct lobes (longitudinal)• Vermis• Intermediate part of hemisphere• Lateral part of hemisphere
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Projections of cerebellum
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Cellular structure of cerebellum
– 3 layers• Molecular layer• Purkinje cell layer• Granular layer
– 5 neuronal types• Inhibitory (GABA)
– Stellate neuron– Basket neuron– Purkinje neuron– Golgi neuron
• Excitatory (Glu)– Granule cell
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Synaptic glomerulus
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• Excitatory input of cerebellum
– Mossy fiber• Originate: nuclei in the spinal cord and brain stem • Carry : sensory information• Terminate on: dendrites of granule cells
– Climbing fiber• Originate: inferior olivary nucleus• Carry: somatosensory, visual, or cerebral cortical information• Terminate on: cell bodies and proximal dendrites of purkinje neurons
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• Output of granule cell– Parallel fibers
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• Excitatory inputs to Purkinje cells– Parallel fibers • 1 Purkinje cells receives million inputs
– Climbing fibers • 1 climbing fiber contacts 1-10 Purkinje cells• Arranged topographically
• Inhibitory inputs to Purkinje cells– Stellate interneurons– Basket interneurons– Golgi interneurons
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Synaptic organization of cerebellum
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The geometry of the principal connections 15
Mossy fiber
Granule cell
Parallel fiber
Purkinje cell(+)
Climbing fiber
(+)
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• Complex spike– An initial large amplitude spike
followed by a high-frequency burst of smaller amplitude action potential
– Evoked by climbing fibers
• Simple spike– A brief excitatory postsynaptic
potential that generates a single action potential
– Evoked by parallel fibers
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Complex spikeSimple spike
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Mossy and climbing fibers encode peripheral and descending information
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Mossy fiber Granule cell Parallel fiber Simple spike
Spontaneous activity(ex. Sensory stimuli)
Change in firing frequency
Encode the magnitude and duration of peripheral stimuli
Climbing fiber Complex spike
Change in firing frequency
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Synchronization of complex spikes in the Purkinje neurons
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Climbing fibers modulate parallel fibers
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Mossy fiber Granule cell Parallel fiber Simple spike
Spontaneous activity(ex. Sensory stimuli)
Change in firing frequency
Encode the magnitude and duration of peripheral stimuli
Climbing fiber Complex spike
Change in firing frequency
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Climbing fiber activity produces long-lasting effects on the synaptic efficacy of parallel fibers
• Climbing fiber action potentials reduce the strength of the parallel fiber input to the Purkinje neurons.
• Activity in climbing fibers can induce selective long-term depression (LTD) in the synaptic strength of parallel fibers.
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Functional properties of cerebellum
• Balance and eye movement • Body and limb movement• Somatosensory information• Feed-forward mechanims• Planning movement• Cognitive function• Motor learning
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• Balance and eye movement – Vestibulocerebellum
(flocculonodular lobe)• Receives input from :
semicircular canals and otolith organs• Senses motion of head and
position relative to gravity
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• Lesion– Impairing • Eye movement during head rotation• Movement of limbs and body during
standing and walking
– Difficulty maintaining balance– Pattern• Separating their feed widely• Moving legs irregularly
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Precerebellar neuclei
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Sensory maps in cerebellum
–Vermis• Head and trunk
–Cerebellar hemisphere• Limb
–Fractured somatotropy• The same body part in
different locations
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Somatotopy in deep cerebellar nuclei
– Arranging to receive projection• Two maps
– Dorsal and ventral surfaces – Intermediate and lateral zone
– Projecting arrangement • Magnocellular red nucleus• Primary motor cortex via thalamus
– Intermediate zone (spinocerebellum)
– Lateral zone (cerebrocerebellum)
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The Spinocerebellum Modulates the Descending Motor Systems in the Brain Stem and Cerebral Cortex
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Vermis
Fastigal nucleus
Brain stem reticular formation
Lateral Vestibular nucleus
Spinal cord
Thalamus
Control motor cortex
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Lateral hemisphere
Dentate nucleus
Thalamus
Motor cortex
Control motor cortex
Intermediate hemisphere
interposed nuclei
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The Spinocerebellum Uses Feed-Forward Mechanisms to Regulate Movements
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position
velocity
biceps
triceps
Vilis and Hore, 1977
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• Lesion – Cerebellar hypotonia• Reducing the excitability of motor neurons and muscle tone
– Dysmetria (abnormal measure)• Disrupting the accuracy of reaching movement
– Ataxic (loss of order)• The path of hand in reaching is curved
– Terminal tremor • Hands oscillate irregularly around the target
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Cerebrocerebellum Is Involved in Planning Movement and Evaluating Sensory Information for Action
• Cerebrocerebellum (Lateral hemisphere)– Part of a high-level internal feedback circuit– Regulating cortical motor programs– Pathway
cortical input pontine nucluei middle cerebellar peduncle contralateral dentate nucleus lateral hemisphere
– Lesions • disrupting motor planning and prolonging
reaction time• Decomposition of movement
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Cognitive functions in cerebellum33
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Cerebellum participates in motor learning34
Normal Patients
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Distinctive symptoms and signs in cerebellar disease
• A lesion in the right cerebellar hemisphere– Delaying the initiation of movement
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• Dysmetria – Inaccuracy in range and direction
• Decomposition of movement
• Tremor increasing
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• Dysdiadochokinesia– Irregular pattern of alternating movements
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Thanks for attention
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39Anatomy The Cerebellum Has Three Functionally Distinct RegionsCellular structureCerebellar Circuits Consist of a Main Excitatory Loop and an Inhibitory Side-LoopNeurons in the Cerebellar Cortex Are Organized into Three LayersSynaptic organization The Purkinje Cells Receive Excitatory Input From Two Afferent Fiber Systems and Are Inhibited by Three Local InterneuronsMossy and Climbing Fibers Encode Peripheral and Descending Information DifferentlyClimbing Fiber Activity Produces Long-Lasting Effects on the Synaptic Efficacy of Parallel FibersFunctional propertyThe Vestibulocerebellum Regulates Balance and Eye MovementsThe Spinocerebellum Regulates Body and Limb MovementsSomatosensory Information Reaches the Spinocerebellum Through Direct and Indirect Mossy Fiber PathwaysThe Spinocerebellum Contains Sensory MapsThe Spinocerebellum Modulates the Descending Motor Systems in the Brain Stem and Cerebral CortexThe Spinocerebellum Uses Feed-Forward Mechanisms to Regulate Movements
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The Cerebrocerebellum Is Involved in Planning Movement and Evaluating Sensory Information for ActionThe Cerebrocerebellum Is Part of a High-Level Internal Feedback Circuit That Regulates Cortical Motor ProgramsLesions of the Cerebrocerebellum Disrupt Motor Planning and Prolong Reaction TimeThe Cerebrocerebellum Also Has Purely Cognitive FunctionsThe Cerebellum Participates in Motor LearningPathology Cerebellar Diseases Have Distinctive Symptoms and Signs