Hypothalamus Nuclei & Limbic System & Memories 😊

Hypothalamus Nuclei → Mneumonic = The CAR

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Nucleus	Function
Anterior nucleus	sweating, vasodilation (cooling) Regulates sexual behaviour. Contains osmoreceptors.
Posterior nucleus	shivering, curling (Heating)
Lateral nucleus	Thirst & hunger, Anger Stimulated by Ghrelin
Ventromedial nucleus	Satiety. Stimulated by Leptin
Ventral Tegmental area (midbrain) → Trophy Medial forebrain bundle (hypothalamus) → Medal	Reward center The VTA initiates dopamine release in response to rewarding stimuli, and the MFB serves as a major pathway for these signals to areas like nucleus accumbens and prefrontal cortex.
Suprachiasmatic nucleus	Biological/circadian rhythm. give signal to → Pineal gland → Melatonin
SupraOptic SAD	ADH Release
ParaOptic/Paraventricular POX	Oxytoxin Supra and ParaOptic Nucleus Posterior Pituitary area appears Hotspot on T1W MRI d/t stored hormones
PreOptic	Thrist, sexual function, GnRH If not releasing → Kallman syndrome Pre op - have sex and thirst
Ventrolateral preoptic nucleus.	Sleep Center Sleepy eyelids → infront of eyes → pre optic
Medial preoptic nucleus	Thermoregulation in anterior region
Mammillary body.	Role in Memory Applied Aspect (Wernicke-Korsakoff Syndrome)
Periaqueductal gray matter (hypothalamus).	Punishment center. Stimulation causes rage. Page to punish

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Thalamic Nuclei Mnemonics - The Car

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Hypothalamopituitary axis involves

Hypothalamus
Anterior Pituitary
Adrenal Cortex.

Temperature Regulation

Anterior Nucleus

Analogy: Car's front fan.
Function: Produces cooling.
Body: Cools the body. Lowers body temperature.
Sweating, vasodilation, thirst (osmocoreceptor).

Posterior Nucleus

Analogy: Car's rear heat exhaust.
Function: Releases heat.
Body: Controls heat production. Increases body temperature.
Shivering, vasoconstriction, increased urinary frequency.

Feeding and Satiety

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Lateral Nucleus

Analogy: Fuel tank opening on the car's side.
Body: Thirst and Hunger center.
To increase food intake:

Neuropeptide Y (NPY) & Agouti related peptide (AgRP) act on Lateral nucleus.
Lateral nucleus releases Orexin neurotransmitter.

Medial Nucleus (or Ventromedial Nucleus)

Analogy: The fuel tank itself inside the car. When full, the car is satiated.
Body: Satiety center.
To decrease food intake:

Ventromedial nucleus (satiety center) acted on by

Alpha melanocyte stimulating hormone (MSH) &
Cocaine amphetamine regulated Transcript (CART)
Eating Skin and Cocaine causes satiety

Regulation of Sleep & Wakefulness

Wake / Arousal State:

Lateral nucleus: Orexin.
Posterior nucleus: Histamine.

Sleep Center:

Ventrolateral pre-optic nucleus.

Hormonal Regulation & Rhythms

Suprachiasmatic Nucleus

Analogy: Looking up (supra) from a car without a roof, seeing the sun and stars.
Body: Regulates circadian rhythms.

Dominant pacemaker / master clock:

Suprachiasmatic nucleus (SCN).
Synchronizes 24 hr bodily functions.
Controls cortisol production.

Supraoptic Nucleus

Analogy: Looking through the car's windshield (optic view). Rain (water) hits it, wipers activate.
Body: Releases ADH (Antidiuretic Hormone).

ADH controls water balance/osmolality.
Promotes water reabsorption in kidneys (distal convoluted tubule, cortical collecting tubule).

Paraoptic / Paraventricular nucleus

Analogy: Someone (e.g., girlfriend) sitting next to (para) you in the car, visible in your vision (optic).
Body: Releases Oxytocin.

Inhibitions of Pituitary hormones by hypothalamus

Dopamine (from arcuate nucleus):

Inhibits prolactin secretion from Anterior Pituitary
Tonic Inhibition
We get dopamine from arcade

Arcade → Dopamine — Arcade → Dopamine

Somatostatin (from periventricular nucleus):

Inhibits growth hormone (GH) secretion
But control over GH is primarily stimulatory

(via growth hormone-releasing hormone, GHRH)
rather than inhibitory.

Role in Memory

Involves mammillary body.

Applied Aspect

(Wernicke-Korsakoff Syndrome):

Chronic alcoholism → Impaired memory (due to degeneration of mammillary bodies).

Wernicke's Encephalopathy

Symptoms (Mnemonic: GOA):

G: Global Confusion.

Mammillary bodies/Papez circuit

O: Ophthalmoplegia

6th nerve palsy → most common

A: Ataxia.

Cerebellar neurons

Cause:

In acute thiamine deficiency.

e.g., those receiving dextrose infusion
without prior thiamine supplementation.

Neuropathology:

Lesions in

Mammillary bodies >>>
Hippocampus
Thalamus
Hypothalamus

Treatment: Thiamine Supplementation.

Reversible with early treatment
Rapid response is expected.

No response suggests

Pellagric encephalopathy
treat with Niacin

Wernicke Terms	ㅤ
Wernicke pupil	• OT lesion
Wernicke Korsakoff syndrome	• In Alcoholics • D/t Thiamine deficiency • CAS → Confusion, Ataxia, Squint

Korsakoff Syndrome

Develops from chronic, untreated thiamine deficiency.

Leads to nerve atrophy.

Affected: mammillary bodies > Frontal lobes

Symptoms:

Impaired recent memory.

Anterograde amnesia >>
Retrograde amnesia.

Confabulation:

Making stories to fill memory gaps.

Sensory agnosia

Cause: Thiamine (Vitamin B1) deficiency.

Treatment:

Thiamine supplementation.

100 mg,
2-3 times/day for 3-12 months.

Prognosis:

Irreversible.
Full recovery in only 20% of patients.

Limbic System

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Structures related to emotions

Generation of emotions: Limbic system / Limbic Cortex

Aka Smell brain/rhinencephalon.
Emotions, smell & memory.
Oldest part of human body in terms of evolution.
Rim of cortical tissue.

Regulation of emotions: Frontal lobe.

Window of limbic system

Amygdala
Genesis of emotions / seat of emotions

Alexithymia

Inability to express or understand emotions

Clinical Aspects (Lesions)

Klüver-Bücy syndrome

Lucy

Lesion at Bitemporal region, amygdala →

Visual agnosia (Objects not recognized on sight).
Hypermeteramorphosis

Compulsion to explore environment

Placidity

No tears / anger

Hyperorality / Hyperphagia

Indiscriminate habit of eating

Hypersexuality
Sham Rage

Sham Rage

Sham rage = Aggressive, rage-like behaviour without actual provocation.

In healthy individual:

Cerebral cortex inhibits

Hypothalamus (especially dorsomedial nucleus)
Result: Sham rage not seen

On decortication (removal of cerebral cortex):

Inhibitory control from cortex is lost.
Hypothalamus acts unopposed
Result: Sham rage is seen

Mesial temporal lobe epilepsy

Lesion at Medial temporal lobe → No explicit memory

Complex partial seizure.
Uncinate fits (Smell / taste hallucination).
Deja vu (Unfamiliar environment seems familiar).
Jamais vu (Familiar environment seems unfamiliar).

Mesial temporal lobe sclerosis
Sea horse

Papez Circuit – (Posterior to anterior)

Present in both sides of the brain

Connects memory & emotion of limbic system.

Hippocampal formation

↓ via Fornix

Mammillary bodies

↓ via Mammillothalamic tract

Anterior nucleus of the thalamus

↓

Cingulate gyrus

↓ via Cingulum

Entorhinal cortex
→ projects back to hippocampus

Pointed structure → Mammillary Body — Pointed structure → Mammillary Body

Structures in Memory and associated functions

Area	Functions
Prefrontal Cortex • Anterior frontal lobe	• Executive functions: • Planning, decision-making • Working Memory (Short term) → Eg: Phone numbers
Anterior nucleus of thalamus	• Recent memories • Relay station in the limbic circuit.
Amygdala	• Associates memory with emotions • Especially fear • Applied: Kluver - Bucy syndrome • though not part of original Papez circuit, it's a part of limbic system
Hippocampal formation	• Memory encoding. • Anterograde amnesia ↳ Lesions in hippocampus or Papez circuit.
Mamillary bodies	• Recollective memory • Degeneration → Wernicke-Korsakoff psychosis • (seen in alcoholics)
Parietal Association Cortex	• Spatial awareness • Damage can cause hemispatial neglect. • Parietal - Periphery - spatial awareness Inferior parietal lobule • Hand eye coordination Superior Parietal lobule • A/w Tactile agnosia
Temporal Association Cortex	• Memory, object recognition, and language comprehension. • Includes Wernicke’s area on the dominant hemisphere.
Inferior Temporal Cortex	• Face recognition by sight ↳ Prosopagnosia
Limbic Association Area	• Part of limbic lobe; • Connects with hippocampus and amygdala • Involved in emotion, motivation, and memory.
Entorhinal cortex (of limbic cortex)	• Associates memory with smell • Also in Spatial memory • Interface between hippocampus and neocortex.

Lesion: Prosopagnosia → Loss of recognition of faces

Fusiform Gyrus → Temporo occipital lobe
Mnemonic: Cant recognise face after using Pro Soap (Prosop - Agnosia) → IT jobs

Alzheimer’s disease

Structure	Braak Staging	Example Symptom
Entorhinal Cortex	I–II (earliest)	Forgetting recent events (e.g., breakfast)
Hippocampus	III–IV (next)	Cannot recall recent conversation
Nucleus Basalis	Early–mid, with cortical spread	Poor attention

Memory Types

By Duration:

Type of Memory	Duration	Area Involved
Working memory ↳ Eg Phone numbers	18–20 seconds	• Prefrontal cortex
Immediate memory	ㅤ	• Assessed by Digital Subtraction test
Short-term memory	Seconds to minutes (0.5 - 5 mins)	• Ventral hippocampus (CA1 neuron).
Long-term memory	Weeks to months	• Stored: Neocortex • Conversion: hippocampus • [via Long Term Potentiation (LTP)]

Lesions in hippocampus

Anterograde amnesia

Inability to form new long term memories.

Intact memories:

Recent
short term
procedural
past

By Recall:

Hippocampus — Hippocampus

Concept	ㅤ	Definition / Key Point
Priming	Neocortex	• Exposure to a stimulus (clue) • Example: Clue triggers retrieval of a related memory
Explicit Memory (Declarative)	Hippocampus, Medial Temporal Lobe	• Needs conscious processing: • E.g., first day of college, Words, rules, language • Ex (explicit) Gf memories → • Campusil (Hippocampus) poi, • Mani Temple (Medial Temporal) il poi Ex: Semantic memory • General knowledge and facts about the world • Sem exam → semantic → GK
Implicit Memory (Non-declarative)	Striatum	• Unconscious recall of information or Skill memory • Without awareness • No hippocampus/ conscious processing needed. • Reflex-like: Brushing teeth, cycling, procedural tasks • Implicit → Vaishna → Sthree (Striatum)
Associative Learning	ㅤ	• Forming associations between stimuli and responses

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