A 60-year-old man has resting tremor, pill-rolling movements, rigidity, and bradykinesia. Which of the following is most likely to be decreased in this man?

Dopamine neurons in the substantia nigra

GABA neurons in the caudate nucleus and putamen

Serotonin neurons in the raphe nuclei

Acetylcholine neurons in the forebrain

Basal Ganglia for FMGE: High-Yield Anatomy Lessons

Introduction & Components - Brain's Control Crew

Group of subcortical nuclei vital for motor control, learning, executive functions, behavior, and emotions. Coronal view of basal ganglia nuclei and related structures

Components & Key Roles:
- Striatum: Input hub.
  - Caudate Nucleus
  - Putamen
  - Nucleus Accumbens (Ventral Striatum)
- Globus Pallidus: Output relay.
  - External segment (GPe)
  - Internal segment (GPi)
- Subthalamic Nucleus (STN): Modulatory role.
- Substantia Nigra:
  - Pars compacta (SNc): Dopaminergic neurons.
  - Pars reticulata (SNr): Output.
📌 Mnemonic (Major Groups): "STRong Guys Punch Submarines" (STRiatum, Globus Pallidus, Subthalamic Nucleus, Substantia Nigra).

⭐ The striatum (caudate + putamen) is the primary input station for the basal ganglia, receiving extensive projections from the cerebral cortex.

Connections & Pathways - Neural Traffic Control

Basal Ganglia Direct and Indirect Pathways

Overview: Basal ganglia modulate movement via two main pathways originating from the cortex and passing through the striatum, ultimately influencing thalamocortical circuits.
- Main Input: Cerebral Cortex (Glutamate, excitatory) → Striatum.
- Main Output: Globus Pallidus internus (GPi) / Substantia Nigra pars reticulata (SNr) (GABA, inhibitory) → Thalamus (VA/VL nuclei).
Direct Pathway (GO): Cortex (+) → Striatum (D1) → GPi/SNr (activity ↓, less GABA release) → Thalamus (disinhibited, activity ↑) → Cortex (movement ↑).
Indirect Pathway (NO-GO): Cortex (+) → Striatum (D2) → GPe (activity ↓) → STN (disinhibited, activity ↑, Glu release ↑) → GPi/SNr (activity ↑, more GABA release) → Thalamus (inhibited, activity ↓) → Cortex (movement ↓).
Dopamine (from SNc):
- Activates Direct Pathway (via D1 receptors).
- Inhibits Indirect Pathway (via D2 receptors).
- Net effect: Facilitates desired movements.

⭐ Dopamine from SNc excites the direct pathway via D1 receptors and inhibits the indirect pathway via D2 receptors, thus promoting movement.

Key Neurotransmitters:
NT Role Key Locations (Source/Target)
Glutamate Excitatory Cortex, STN
GABA Inhibitory Striatum, GPe, GPi/SNr
Dopamine Modulatory SNc → Striatum (D1 & D2 receptors)

NT	Role	Key Locations (Source/Target)
Glutamate	Excitatory	Cortex, STN
GABA	Inhibitory	Striatum, GPe, GPi/SNr
Dopamine	Modulatory	SNc → Striatum (D1 & D2 receptors)

Functions & Loops - Movement & Mind

Motor Functions:
- Initiation, planning, scaling of voluntary movement.
- Suppression of unwanted movements.
- Motor learning (habit formation).
Cognitive Functions:
- Executive functions (planning, working memory, attention switching).
- Procedural learning.
Limbic/Emotional Functions:
- Motivation, reward processing (Nucleus Accumbens).
- Emotional expression.
Key Functional Loops:
- Motor Loop (Putamen circuit): Voluntary movement.
  
  ⭐ The motor loop, critical for voluntary movement, involves projections from the motor and premotor cortex to the putamen, then through BG circuits back to the supplementary motor area.
- Oculomotor Loop (Caudate body circuit): Eye movements.
- Prefrontal Loop (Caudate head circuit): Cognition.
- Limbic Loop (Ventral striatum/N. Accumbens circuit): Emotion, motivation. Mnemonic: "My Old Preppy Lab Partner Can't Catch Very well" for Loops & key structure (Motor-Putamen, Oculomotor-Caudate body, Prefrontal-Caudate head, Limbic-Ventral striatum/N.Accumbens).

Clinical Correlates - Circuits Gone Wrong

Basal Ganglia Pathways Diagram

Hypokinetic Disorders: (e.g., Parkinson's Disease)
- Cause: Loss of Substantia Nigra pars compacta (SNc) dopaminergic neurons → ↑Indirect pathway / ↓Direct pathway activity.
- Symptoms: 📌 TRAP (Tremor at rest, Rigidity, Akinesia/Bradykinesia, Postural instability).
⭐ Parkinson's disease is characterized by the degeneration of dopaminergic neurons in the substantia nigra pars compacta, leading to a hypokinetic movement disorder.
Hyperkinetic Disorders:
- Huntington's Disease: Autosomal dominant (CAG repeats). Degeneration of striatal neurons (mainly indirect pathway) → ↓Indirect pathway activity. Symptoms: Chorea, athetosis, dementia.
- Hemiballismus: Subthalamic Nucleus (STN) lesion → ↓Globus Pallidus internus (GPi) inhibition of thalamus → contralateral wild, flinging movements.
Other Conditions: Dystonia, Tourette syndrome (brief mention).

Feature	Parkinson's Disease	Huntington's Disease
Affected Pathway(s)	↑Indirect / ↓Direct	↓Indirect (striatum)
Key NT Change	↓Dopamine (SNc)	↓GABA, ↓ACh (striatum)
Movement Type	Hypokinetic (Bradykinesia, rigidity)	Hyperkinetic (Chorea, athetosis)

High‑Yield Points - ⚡ Biggest Takeaways

Core components: Striatum (Caudate + Putamen), Globus Pallidus (GPi/GPe), Subthalamic Nucleus (STN), Substantia Nigra (SNc/SNr).

Direct pathway (D1): GO signal for movement; disinhibits thalamus.

Indirect pathway (D2): NO-GO signal for movement; inhibits thalamus.

Parkinson's Disease: SNc dopamine loss → TRAP symptoms (Tremor, Rigidity, Akinesia, Postural instability).

Huntington's Disease: Caudate GABA neuron loss → chorea, dementia.

Key Lesions: Hemiballismus (STN lesion); Athetosis/Chorea (Striatal lesions).

Blood Supply: Mainly lenticulostriate arteries (from MCA).

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Basal Ganglia