The Cerebellum: Brain for an Implicit Self (58 page)
Read The Cerebellum: Brain for an Implicit Self Online
Authors: Masao Ito
Tags: #Science, #Life Sciences, #Medical, #Biology, #Neurology, #Neuroscience
mutual interactions,
14
nesting,
16
neuromodulation,
16
“The Integrative Action of the Nervous System,”
13
intelligence
,
20-21
intention tremor
,
26
internal forward model
model-based control system,
11
voluntary motor control,
167-170
climbing fiber signals
,
174-175
sensory/motor signals
,
172-174
internal inverse model
model-based control system,
11
voluntary motor control,
170-172
climbing fiber signals
,
174-175
sensory/motor signals
,
172-174
internal models
cerebellum as a neuronal machine,
41-42
future research,
208
voluntary motor control,
167
MOSAIC (modular selection and identification for control)
,
175
sensory cancellation
,
178-180
transition from reflex control to voluntary
,
176-179
intuitive thought
,
21
inverse models
eyeballs,
144-145
voluntary motor control,
170-172
IO function
,
207
IO neurons
,
97-99
IP3 (inositol-trisphosphate)
,
71
IPSCs (inhibitory postsynaptic currents)
,
29
IPSPs (inhibitory postsynaptic potentials)
,
29
Jones, Geoffrey Melvill
,
39
landmarks (longitudinal zones of cerebellum)
,
23-24
language acquisition, cerebellar mutism
,
201
lateral reticular nucleus, mossy fibers
,
62
lateral vestibular nucleus (LVN)
,
125
lateral vestibulospinal tract (LVST)
,
125
length-servo-assisted motion hypothesis, muscle contractions
,
123
lesions studies, motor skills
,
25-27
limb withdrawal reflex
,
127-128
limbic system
,
2
lipid signaling cascade
,
74
liquid state machine model
,
100-101
load compensation, voluntary motor control
,
150
lobular structures
,
23
lobules
,
23
lobulus petrosus of the paraflocculus
,
159
long-lasting memory, synaptic plasticity
,
88-89
long-latency stretch reflex
,
126
long-term depression (LTD)
,
35-37
basket/stellate cells,
83
conjunctive,
69
motor learning
,
206-207
properties
,
69-71
signal transduction pathways
,
71-80
synaptic plasticity
,
205-206
excitatory synapses,
85
homosynaptic
climbing fiber-Purkinje cell synapses
,
83
parallel fiber-Purkinje cell synapses
,
81
inhibitory synapses,
84
long-term potentiation (LTP)
,
69
basket/stellate cells,
83
mossy fiber-granule cell synapses,
84
longitudinal zones of cerebellum
,
23-24
LTD (long-term depression)
,
35-37
basket/stellate cells,
83
conjunctive,
69
motor learning
,
206-207
properties
,
69-71
signal transduction pathways
,
71-80
synaptic plasticity
,
205-206
excitatory synapses,
85
homosynaptic
climbing fiber-Purkinje cell synapses
,
83
parallel fiber-Purkinje cell synapses
,
81
inhibitory synapses,
84
LTP (long-term potentiation)
,
69
basket/stellate cells,
83
mossy fiber-granule cell synapses,
84
parallel fiber-Purkinje cell synapses,
81-82
Lugaro cells
,
55-56
LVN (lateral vestibular nucleus)
,
125
LVST (lateral vestibulospinal tract)
,
125
magnocellular nuclei (lateral reticular nucleus)
,
62
magnocellular red nucleus neurons
,
30
major part of the lateral reticular nucleus (mLRN)
,
62
MAO (medial accessory olive) subdivision
,
63
Marr
, David,
33
Marr-Albus model, cerebellum as a neuronal machine
,
33-35
mechanisms, neuronal circuitry
,
4
medial accessory olive (MAO) subdivision
,
63
medial superior temporal area (MST)
,
116
memory
synaptic plasticity,
88-89
sites
VOR adaptation
,
112
VOR/OKR adaption
,
144
mental activity
,
193
activity in the cerebellum,
198-201
cerebellar internal model for thoughts,
196
cerebral cortical model for thoughts,
195-196
disorders associated with cerebellar dysfunction,
201-203
explicit/implicit thoughts,
197-198
neural systems,
193-195
mental disorders, association with cerebellar dysfunction
,
201-203
mental models
cognitive functions,
19
cortical circuits,
195
mesencephalic-locomotor-center-evoked locomotion
,
130
mGluR1-initiated signal transduction
conjunctive LTD,
73
mGluR1a-expressed unipolar brush cells
,
47
microcomplexes
,
102-104
,
176
,
205
middle temporal area (MT)
,
116
mirror neurons
,
187-189
mLRN (major part of the lateral reticular nucleus)
,
62
model-based control systems
,
10-11
models
adaptive control systems
ocular reflexes
,
139-145
prototypes
,
146-149
saccadic eye movement
,
146-147
somatic reflexes
,
147-148
cognitive functions
cerebellar internal model
,
196
cerebral cortical model
,
195-196
network models for neuronal circuits,
90
granule cell-Golgi cell loop
,
94-97
inferior olive-climbing fiber system
,
97-99
mossy fiber-granule cell relay
,
90-92
multilayered network models
,
99-101
Purkinje cell models
,
92-94
nuclear circuits,
101-102
voluntary motor control,
167
internal forward model
,
167-175
internal inverse model
,
170-175
MOSAIC (modular selection and identification for control)
,
175
sensory cancellation
,
178-180
transition from reflex control to voluntary
,
176-179