14
Motor system III
Hierarchic organization of motor
system
http://www.slideshare.net/drpsdeb/presentations
Basal ganglia
• Corpus striatum
– Nucleus caudatus
– Putamen
• Globus pallidus
(Pallidum)
– Externum
– Internum
• Nucleus subthalamicus
• Substantia nigra
– Pars compacta
– Pars reticulata
• Thalamic motor nuclei
http://www.slideshare.net/CsillaEgri/presentations
Basal ganglia
• Corpus striatum
– Nucleus caudatus
– Putamen
• Globus pallidus
(Pallidum)
– Externum
– Internum
• Nucleus subthalamicus
• Substantia nigra
– Pars compacta
– Pars reticulata
• Thalamic motor nuclei
http://www.slideshare.net/CsillaEgri/presentations
Basal ganglia - inputs
Corpus striatum
• Connections from all cortical
areas with two exceptions –
primary visual and primary
auditory cortex
• The most of connections from
– Frontal and parietal association
areas
– Motor areas
http://www.slideshare.net/CsillaEgri/presentations
Basal ganglia - inputs
Corpus striatum
• Connections from all cortical
areas with two exceptions –
primary visual and primary
auditory cortex
• The most of connections from
– Frontal and parietal association
areas
– Motor areas
http://www.slideshare.net/CsillaEgri/presentations
Basal ganglia
• Motor control realized by two circuits
– Direct pathway
• Motor cortex activation
– Indirect pathway
• Motor cortex inhibition
Direct pathway
Cortex
Corpus striatum
Globus pallidus internus
(Gpi)
Thalamus
Cortex
http://www.slideshare.net/drpsdeb/presentations
Direct pathway
http://www.slideshare.net/drpsdeb/presentations
• Thalamic motor nuclei
activate motor cortex
• Tonic inhibitions of
thalamic motor nuclei by
GPi
• Activated corpus striatum
transiently inhibits Gpi,
resulting in transient
disinhibition of thalamic
motor nuclei
Direct pathway
http://www.slideshare.net/drpsdeb/presentations
• Thalamic motor nuclei
activate motor cortex
• Tonic inhibitions of
thalamic motor nuclei by
GPi
• Activated corpus striatum
transiently inhibits Gpi,
resulting in transient
disinhibition of thalamic
motor nuclei
Direct pathway
• Thalamic motor nuclei
activate motor cortex
• Tonic inhibitions of
thalamic motor nuclei by
GPi
• Activated corpus striatum
transiently inhibits Gpi,
resulting in transient
disinhibition of thalamic
motor nuclei
http://www.slideshare.net/drpsdeb/presentations
Indirect pathway
Cortex
Corpus striatum
Globus pallidus externus
(GPe)
GPiNucleus
subthalamicus
(NS)
http://www.slideshare.net/drpsdeb/presentations
• NS activates GPi
• GPe tonically
inhibits NS
• Corpus striatum
transiently inhibits
GPe
NS disinhibition
Gpi activation
Indirect pathway
http://www.slideshare.net/drpsdeb/presentations
• NS activates GPi
• GPe tonically
inhibits NS
• Corpus striatum
transiently inhibits
GPe
NS disinhibition
Gpi activation
Indirect pathway
http://www.slideshare.net/drpsdeb/presentations
• NS activates GPi
• GPe tonically
inhibits NS
• Corpus striatum
transiently inhibits
GPe
NS disinhibition
Gpi activation
Indirect pathway
http://www.slideshare.net/drpsdeb/presentations
• NS activates GPi
• GPe tonically
inhibits NS
• Corpus striatum
transiently inhibits
GPe
NS disinhibition
Gpi activation
Indirect pathway
http://www.slideshare.net/drpsdeb/presentations
Indirect pathway
http://www.slideshare.net/drpsdeb/presentations
• NS activates GPi
• GPe tonically
inhibits NS
• Corpus striatum
transiently inhibits
GPe
NS disinhibition
Gpi activation
Indirect pathway
• NS activates GPi
• GPe tonically
inhibits NS
• Corpus striatum
transiently inhibits
GPe
NS disinhibition
Gpi activation
• Less important is a direct inhibition of Gpi by GPe
http://www.slideshare.net/drpsdeb/presentations
Direct and indirect pathway differences
• Direct pathway
 Motor cortex
activation
• Indirect pathway
 Motor cortex
inhibition
http://www.slideshare.net/drpsdeb/presentations
Direct and indirect pathway differences
• Direct pathway
 Motor cortex
activation
• Indirect pathway
 Motor cortex
inhibition
http://www.slideshare.net/drpsdeb/presentations
Dopaminergic projections
http://www.slideshare.net/drpsdeb/presentations
• Dopaminergic
projections are crucial
for the function of
corpus striatum
• S. nigra pars compacta
• Direct pathway
activation
 D1 receptors
• Indirect pathway
inhibition
 D2 receptors
Dopaminergic projections
• Dopaminergic
projections are crucial
for the function of
corpus striatum
• S. nigra pars compacta
• Direct pathway
activation
 D1 receptors
• Indirect pathway
inhibition
 D2 receptors
http://www.slideshare.net/drpsdeb/presentations
Basal ganglia
• Beside motor loop there are other loops associated with other
thalamic nuclei
• „Gating“ of the other sort of information
• Association loop
• Limbic loop
• Basal ganglia play an important role in information processing
in general and this is crucial for thinking process
• Connections of corpus striatum are plastic what allows
learning and this was very important during evolution
Cerebellum
http://www.slideshare.net/HarshshaH103/cerebellum-its-function-and-releveance-in-psychiatry
Coordination
Cerebellum
Cerebellum plays an important role not only
in the coordination of movement, but also in
the "coordination" of thoughts