Basal Ganglia PDF

Summary

This presentation provides an overview of the basal ganglia, including their components, functions, and connections. The document explains the roles of the basal ganglia in motor control, voluntary movements, and subconscious functions. It also describes the neurotransmitters involved in basal ganglia modulation.

Full Transcript

BASAL GANGLIA

Presenter : Dr. Mohamed Hassan
- Basal ganglia: A group of nuclei, act as a unified
functional unit.
- The basal ganglia, like the cerebellum, constitute another
accessory motor system that functions usually not by
itself but in close association with the cerebral cortex and
corticospinal motor control system.

- the basal ganglia receive most of their input signals from
the cerebral cortex itself and also return almost all their
output signals back to the cortex.
 Basal Ganglia – Consists of Four Principal Nuclei
1. Striatum
2. Globus pallidus
3. Subthalamic nucleus,
4. Substantia nigra
 Striatum
The striatum is the input nucleus of the basal ganglia,
receiving afferent projections from the cerebral cortex.

Three subnuclei comprise the striatum:

1. The caudate nucleus, which participates in eye movement
control and cognition;
2. The putamen, which participates in control of limb and trunk
movements; and
3. The nucleus accumbens, which participates in emotions.
 Globus pallidus

The Globus pallidus consists of
two separate nuclei, the
external and internal segments.
The internal segment is one of
the major output structures of
the basal ganglia, whereas the
external segment is part of their
intrinsic circuitry.
 Substantia nigra
includes two separate nuclei: the pars compacta and pars
reticulata.
the pars compacta contains dopaminergic cells that project
heavily to the striatum.
The pars reticulate of the substantia nigra and the internal
segment of the globus pallidus can be viewed as a single
output structure divided by the internal capsule.
 Subthalamic nucleus

is a small nucleus situated between the thalamus and the
substantia nigra.
It receives projections from the external segment of the globus
pallidus, the cerebral cortex, thalamus, and brain stem, and sends
output to both segments of the globus pallidus and to the
substantia nigra pars reticulata.
Basal ganglia Input
1. Parietal cortex (primary and secondary somatosensory
information, secondary visual information),
2. Temporal cortex (secondary visual and auditory
information),
3. Cingulate cortex (limbic and emotional status
information),
4. Frontal cortex (primary and secondary motor
information),
5. Prefrontal cortex.
 Cortico–Basal Ganglia– Thalamocortical Circuits

There are two important pathways through which striatal information
reaches GP(internal) - the direct pathway and the indirect pathway.

In the direct pathway, striatal cells project directly to GP(internal)
while indirect pathway project to GP(external).

The consequence of this pathway is to increase the excitatory drive
from thalamus to cortex.
 Cortex
Direct pathway

Striatum Excitation (glutamate)

Inhibition (GABA)

VA/VL
* GPe

STN
* GPi/SNr
 Cortex
Direct pathway
pathway:
facilitates
movement
Striatum
Excitation (glutamate)

Inhibition (GABA)

VA/VL
* GPe
Disinhibition

STN
* GPi/SNr
Brain stem/
Spinal cord
 Cortex

Striatum
pathway:
Indirect pathway
inhibits
movement

VA/VL
* GPe
Excitation (glutamate)

Disinhibition Inhibition (GABA)

STN
* GPi/SNr
Brain stem/
Spinal cord
 Cortex
Direct pathway:
facilitates
movement
Striatum
D2 D1 Indirect pathway:
inhibits
movement
SNc
VA/VL
* GPe
Excitation (glutamate)

Inhibition (GABA)

STN
* GPi/SNr
Brain stem/
Spinal cord
Direct and indirect pathways
Neurotransmitters in the basal ganglia
Dopaminergic And Cholinergic Modulation Of Direct And Indirect Pathways

the effect of the dopaminergic nigrostriatal projection is to
increase motor activity.
the effect of the cholinergic striatal interneurons is to decrease
motor activity by inhibit striatal cells of the direct pathway and
excite striatal cells of the indirect pathway.
 Functions of basal ganglia.

1. Voluntary movement
Initiation of movement
Control of ramp movement
Change from one pattern to other
Programming and correcting movement while in progress
(thalamocortical circuts)
2. Postural control
Righting reflex
Automatic associated movement (walking)
3. Control of muscle tone
4. Role in arousal mechanism
5. Speech , lesion of left caudate results in disturbed speech dysarthria
 Control of voluntary motor activity.

Cognitive control of motor
activity.
Neural discharge in Basal Ganglia
begins well before the
movement begins.
Most of the motor actions occur
as a consequence of thought
process in mind.
So basal ganglia is involved in
planning & programming of
movements
Timing & scaling of intensity of movements.

How rapidly & how much large
the movement should be.
Subconscious execution of some movements.
Swinging of arm while
walking.
Crude movements of
facial expressions with
emotions.
Movements of limbs while
swimming.
Lesions of Basal Ganglia
globuspallidus
– athetosis - spontaneous writing movements of the hand,
arm, neck, and face.
putamen
– chorea - flicking movements of the hands, face, and
shoulders
substantianigra
– Parkinson's disease - rigidity, tremor and akinesia
– loss of dopaminergic input from substantianigra to the
caudate and putamen
 Lesions of Basal Ganglia

subthalamus
hemiballismus - sudden flailing movements of the entire
limb.
caudate nucleus and putamen
huntington’s chorea - loss of GABA containing neurons
to globus pallidus and substantia nigra.