Lecture 19 Basal Ganglia

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534 Neuroanatomy Flashcards on Lecture 19 Basal Ganglia, created by Mia Li on 02/12/2017.
Mia Li
Flashcards by Mia Li, updated more than 1 year ago
Mia Li
Created by Mia Li about 7 years ago
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Question Answer
Basal Ganglia receives input from all regions of the cerebral cortex and projects its output to __________. The same regions.
BG helps _______ motor programs and ________ motor programs during morot planning. establish motor programs select motor programs
Does the BG receive ascending sensory input? NO
Lesion in BG results in (excessive/diminished) movements. Both
T/F: BG also has executive and emotional functions. T.
BG is a collection of nuclei between _________ and ________. Thus they are ________ nuclei. Telencephalon and midbrain. 'subcortical nuclei'
T/F: BG is central, and both hemispheres share the same BG nuclei. F. Each hemisphere has its own BG.
Where is BG as compared to the thalamus? Lateral and slightly anteiror.
The 5 principle BG nuclei are: 1. caudate nucleus (head, body tail) 2. putamen 3. globus pallidus (external, internal) 4. subthalamic nucleus 5. substantia nigra (pars reticulata, pars compacta)
Which parts of the caudate nucleus form the lateral wall of the lateral ventricle? head and body.
The tail of caudate nucleus form the roof of ________________. inferior horn of lateral ventricle
Name the structures from caudate to thalamus. Caudate - putamen - globus pallidus external - globus palidus internal - thalamus
putamen + globus pallidi = Lenticular/ lentiform nucleus
What is superior to the putamen? the insulin cortex
What structure separates the thalamus and GPi? the internal capsule
What separates the caudate and putamen? the internal capsule
The caudate and putamen are embryologically related. They are called __________ together. corpus striatum.
The ventral part of the striatum is called __________. It is continuous with the _________ and belongs to both the ______ system and the ________ system. The ventral part of the striatum is called [accumbens]. It is continuous with the [putamen] and belongs to both the [BG] system and the [limbic] system.
The subthalamus is in the (ventral/dorsal) region of the diencephalon. Caudal.
The substantia nigra is located in the (rostral/caudal) part of midbrain. Rostral
The _______ is anterior to the substantia nigra. Cerebral peduncles.
The other nuclei at the same level with substantia nigra are 1. superior colliculus 2. red nucleus
Two parts of the substantia nigra 1. pars compacta (SNpc) 2. pars reticulata (SNpr)
The (SNpc/ SNpr) is the source of dopamine. SNpc.
Where does cortical input enter the BG? Name the pathway. Striatum (caudate and putamen) 'corticostriatal pathway'
The pathway where the substantia nigra project to the striatum is called nigrostriatal pathway
The nitrostriatal pathway modulates the _________ to the striatum. corticostriatal
T/F: the striatum only projects to the SNpc. F. The striatum projects to: 1. GPi 2. GPe 3. SNpr
Which structures are in the output circuit of the BG? 1. GPi 2. SNpr
GPi projects to VA/ VL thalamus
SNpr projects to the superior colliculus
What are the four transmitter systems in the BG? 1. glutamate 2. GABA 3. dopamine 4. acetycholine
Glutamate is (excitatory/ inhibitory) excitatory
GABA is (excitatory/ inhibitory) inhibitory
Dopamine is (excitatory/ inhibitory) BOTH excitatory and inhibitory
acetylcholine is (excitatory/ inhibitory) excitatory
The corticostriatal input is _________ (transmitter name). glutamatergic
Name another glutamatergic projection. subthalamic projection to globus pallidus.
Striatal projection to GPe and GPi are ________. GABAergic
VL receives input from ______ and _______, the transmitters are _________. GP and SNpr. GABAergic.
Internal circuits in striatum is ________. Cholinergic
Loss of internal circuits of striatum causes _______ disease. Huntington
The direct pathway (supports/blocks) movement while the indirect pathway (supports/blocks) movement. Direct: supports. Indirect: blocks.
Overall, GPi (inhibits/ supports) movement by ____________. Inhibits movement. By inhibiting VL thalamus.
GPi is (excited/inhibited) in the direct pathway while it is (inhibited/ less inhibited) in the indirect pathway. GPi is inhibited in the direct pathway. GPi is less inhibited in the indirect pathway.
In the direct pathway, GPi is inhibited by _____ transmitters from the ______ circuit. GABAergic from putamen
In the indirect pathway, GPi is excited by _______, which is previously inhibited by ______. subthalamic nucleus. It was previously inhibited by GPe. (Since GABAergic transmitter from putamen inhibits GPe, STN is disinhibited).
Dopamine strengthens the direct pathway to support movement by binding to ____ receptors. D1-like
Dopamine weakens the indirect pathway to support movement by binding to ____ receptors. D2-like
At resting potential, GPi is spontaneously active to ________. Inhibit VL thalamus.
T/F: GPi is not affected when corticostriatal neurons generate activity. F. GPi is briefly inhibited.
Eye saccades are driven by the _________ circuits, which is activated by ________. paramedial pontine reticular circuits. activated by superior colliculus.
Since superior colliculus is inhibited by ________, inhibition of the structure by the striatum can disinhibit superior colliculi. SBpr.
Horizontal saccades are coordinated by _______ while vertical saccades are coordinated by _______. horizontal: paramedial pontine reticular formation. vertical: interstitial nucleus of medial longitudinal fasciculus
T/F: Saccades must be inhibited for fixation. T.
_________ inhibits the saccade SNpr
What happens when GABA agonist is injected to SNpr? GABA is inhibitive --> SNpr is inhibited --> saccades are disinhibited
Loss of SNpc cells results in a reduced level of ______, which reduces the _____ of the direct pathway and _____ of the indirect pathway, accounting for hypokinetic symptoms. reduced level of dopamine. reduces excitation of direct pathway. reduces inhibition of indirect pathway.
Huntington's disease involves loss of cells in _________. Removing the braking circuits may generate movement disorders such as _______ and ______. loss of cells in striatum. disorders: chorea, athetosis.
the 4 channels of BG are 1. motor 2. occulomotor 3. prefrontal 4. limbic
Striatum portion involved in motor control: putamen
Striatum portion involved in occulomotor control: caudate body
Striatum portion involved in prefrontal control: caudate head
Striatum portion involved in limbic: accumbens
Outputs of motor channel: motor/premotor cortex
Outputs of oculomotor channel: frontal/ supplementary eye fields
Outputs of prefrontal channel: prefrontal cortex (associative channel)
Outputs of limbic channel: 1. medial orbital gyrus of frontal cortex 2. anterior cingulate cortex
OCD, schizophrenia, Alzheimer disease and Huntington disease are all associated with the _________ system. limbic
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