Term
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Definition
Striatum= main input side of BG system
GP & SNR= major output structures
In a resting state, BG suppress mvmt by inhibiting the motor thalamus & inhibiting the pre-motor cortex...generation of mvmt results from DISINHIBITION of the thalamus
Disinhibition: one neuron inhibits the inhibition of another neuron resulting in activation/facilitation |
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Term
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Definition
| internal circuits= connect the striatum (input) with the GPi & SNR (output)---can be direct/indirect----this allows the striatum to exert complementary but opposing effects on the GPi and SNR |
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Term
| The direct pathway is responsible for bringing the execution of _____ ______ to the forefront while the indirect pathway is responsible for ____ _____ movements |
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Definition
direct= execution of desired movement
indirect= suppression of unwanted mvmt
Normal BG function depends on a balance b/t the 2 systems-BG disorders reflect an imbalance in the 2 circuits |
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Term
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Definition
MSN (SP/DYN/D1)-->GPi/SNR-->VA--> PMCTX
1. Arises from the MSNs (which contain subs. P & dynorphin and express D1 dopamine receptors)
2. MSNs sned their axons to the GPi and SNR where they inhibit neurons projecting to the thalamus
3. neurons in the GPi/SNR are inhibitiory to thalamic neurons projecting to the cortex & continuiously active, suppressing movement
4. Excitation of the MSNs by cortical inputs inhibits GPi/ SNR neurons resulting in the removal of inhibition (disinhibion) of thalamic neurons, allowing for mvmt to occur |
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Term
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Definition
MSN (ENK; D2)-->GPe-->STN-->GPi/SNR-->VA-->PMCTX
1. arises from MSNs (contain enkephalin & express D2 dopamine receptors)
2. MSNs send their axons to the GPe where they inhibit neurons projecting to the subthalamic nucleus
3. GP3 neurons are inhibitory to STN neurons
4. Neurons in the Subthalamic Nuclues are excitatory & send their axons to the GPi & SNR
5. Excitation of the indirect pathway MSNs inhibits GPe neurons resulting in "disinhibtion" of the STN
6. Disinhibtion of the STN increases their excitation of GPi/SNR leading to increased inhibtion in the thalamus, suppressing mvmt |
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Term
| Dopamine & the Basal Ganglia |
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Definition
dopamine is the key monaaminergic transmitter modulating BG re-entrant circuit
serotonin & noradrenaline also important |
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Term
| Dopaminergic neurons innnervating the caudate & putamen are located in the... |
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Definition
| SNC and their axons form the NIGROSTRIATAL PATHWAY |
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Term
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Definition
Dopaminergic axon terminal end on the dendrites of the MSNs in the striatum
dopamine relase in the striatum precedes mvmt
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Term
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Definition
differnt than direct/indirect pathway
runs from striatum to the SNC
beleived to be the main activator of SNC |
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Term
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Definition
involved in the selection of initiation of a desired mvmt...current thinking is that this is achieved by dopamine acting differently on direct & indirect pathways via their differnt dopamine receptors
Dopamine excitatory: direct
Dopamine inhibitory: indirect |
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Term
| Dopamine is excitatory to ... |
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Definition
MSNs possessing D1 receptors (direct pathway to GPi/SNR)
Excitation of direct MSNs inhibits GPi/SNR casuing a reduction in their inhibition of the thalamus....
LEADING TO MOVEMENT |
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Term
| Dopamine is inhibitory to... |
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Definition
MSNs possessing D2 receptors
D2 containing MSNs from the indirect pathway to GPi & SNR
Inhibition of these indirect MSNs reduces inhibition of GPe neurons leading to increased inhibition of the STN
Reduced excitation by STN inputs to the GPi & SNR also leads to reduced inhibition of the thalamus |
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Term
| Motor disorders of the BG |
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Definition
1. Parkinson's
2. Huntington's chorea
3. Hemiballismus (lesion in STN)
4. Progressive supranuclear palsy
5. Tourette Syndrome
6. Dystonias |
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Term
| Hypokinetic disorders-Parkinson's |
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Definition
Hypokinetic= absence (akinesia) or paucity & slowness (bradykinesia) of mvmt
Parkinson's= progressive loss of dopaminergic neurons in the SNC resulting in a substantial decrease in dopamine in the striatum (primary the PUTAMEN)
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Term
| Loss of striatal dopamine in Parkinson's lead to: |
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Definition
1. Loss of excitation of direct pathway MSNs resulting in increased inhibition (loss of disinhibition) of the thalamus by GPi & SNR
2. Loss of inhibitino of indirect pathway MSNs resulting in increased activity in the STN & increased inhibition of the thalamus by GPi & SNR
Increased thalamic inhibition reduceds motor cortex ativity leading to akinesia |
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Term
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Definition
GOAL: reducing inhibition of the thalamus
1. L-DOPA (dopamine precursor) to restore striatal dopamine levels
2. Lesion of the GPi- to reduce thalamic inhibition
3. High frequency stimulation of the STN-to "jam" its excitatory input to GPi/SNR |
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Term
| Hyperkinetic disorders-Huntington's Chorea |
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Definition
sudden, involuntary & purposeless jerking mvmts of the head, limbs & trunk
Pathological hallmark=degeneration of MSNs in the stiratum (mostly the CAUDATE) leading to loss of inhibition in the thalamus and increased activity in the motor cortex
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Term
| MSNs containing _________ are the first to be lost in Huntington's chorea |
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Definition
Enkephalin
This loss of MSNs in the indirect pathway increases inhbition of the STN by GPe
Loss of excitatory input (from STN) input to GPi/SNR reduces the inhibition of thalamus |
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