2. HYPOTHALAMUS
The hypothalamus is a very small, but extremely important part of the diencephalon that is involved in the mediation of :
endocrine,
autonomic and
behavioural functions.

3. General information Part of diencephalon Weighs about 4 grams
The whole brain weighs grams
Occupies the bottom and infero-lateral walls of the 3rd ventricle

4. The Diencephalon
Landmarks that are visible on the ventral and medial (ventricular) surfaces of the brain define the boundaries of the hypothalamus. The rostral boundary visible on the ventral surface of the brain is formed by the optic chiasm while the mammillary bodies define the posterior boundary. Between these structures the oval prominence from the floor of the third ventricle is the tuber cinereum and evaginating from this is the median eminence which then tapers into the infundibular stalk which together form the inferior boundary of the hypothalamus. On the medial (ventricular) surface of the brain other structures contributing to the rostral boundary that are visible include the lamina terminalis and the anterior commisure. Also visible on the medial surface of the brain is the hypothalamic sulcus, which is the rostral continuation of the sulcus limitans that defines the superior boundary of the hypothalamus. Finally, the internal capsule that is only visible on coronal or horizontal sections of the brain forms the lateral boundary.

5. The Diencephalon fornix thalamus Epithalamus (Pineal & hypothalamus
Habenula)
hypothalamus
subthalamus
Optic chiasm
Mammillary
body
pituitary

6. Hypothalamus Hypothalamic sulcus Anterior commissure Lamina terminalis
Mamillary
body
Optic chiasma

7. Hypothalamus Position: Boundaries 3. Superiorly: hypothalamic sulcus
lies ventral to thalamus
Boundaries
Anteriorly:
Lamina
terminalis
2. Posterior: continues with midbrain tegmentum i
iii ii
4. Inferiorly:
i. optic chiasma,ii. tuber cinereum, infundibulum, and iii. mamillary body

8. Organization
In the sagittal plane, it is customary to divide the hypothalamus into three regions: These are from medial (3rd Vent.) to lateral:
Periventricular,
Medial, and
Lateral
In the coronal plane, the hypothalamus can be divided into:
1.Anterior (supraoptic),
2. Middle (tuberal), and
3. Posterior (mammillary).
Since in a deep plane the structures in in the SO region extend beyond the lamina terminalis, therefore the preoptic region is also included in hypothalamus

9. Divisions of the Hypothalamus

10. Three rostral to caudal regions
are distinguished in the hypothalamus that correspond to three prominent features on its ventral surface:
1) The supraoptic or anterior region at the level of the
optic chiasm,
2) the tuberal or middle region at the level of the tuber cinereum (also known as the median eminence—the bulge from which the infundibulum extends to the hypophysis), and
3) the mammillary or posterior region at the level of the mammillary bodies

11. Hypothalamus Chiasma opticum Infundibulum (median eminence)
Tuber cinereum
Mamillary body
Optic tract 1 2 3
Ventral view

13. 3rd Ventricle Medial Zone Lateral Zone Fornix Periventricular zone
Preoptic, Supraoptic, Suprachiasmatic,
Anterior, Paraventricular
Anterior
chiasmatic
Dorsomedial Ventromedial Arcuate Nucleus
Middle
Tuberal
3rd Ventricle
Fornix
Periventricular zone
Medial Forebrain Bundle
Posterior
Mamillary
Caudal
Mammilary

16. Hypothalamic Connections
Receives indirect sensory inputs from all sensory systems
Sends neural outputs to various motor control nuclei
Sends neural outputs to sympathetic and parasympathetic nervous systems
Sends both neural and hormonal outputs to pituitary

17. MAJOR CONNECTIONS OF HYPOTHALAMUS
LIMBIC SYSTEM
 1. MEDIAL FOREBRAIN BUNDLE
septal nuclei, olfactory regions HYPOTHALAMUS & brain stem
 2. FORNIX
Hippocampal Complex Mammillary Bodies of Hypothalamus
 3. STRIA TERMINALIS
Amygdala Hypothalamus
 4. MAMMILLOTHALAMIC TRACT
Hypothalamus Thalamus (anterior nucleus)

18. ENDOCRINE CONNECTIONS
AUTONOMIC CONNECTION
 5. DORSAL (posterior) LONGITUDINAL FASCICULUS
Hypothalamus Brain Stem Reticular Formation
Hypothalamus Brain Stem Nuc (e.g. Vagus)
Intermediolateral Cell Column
ENDOCRINE CONNECTIONS
 6. HYPOTHALAMOHYPOPHYSIAL TRACT
Hypothalamus Neurohypophysis
 7. Tuberoinfundibular Tract
Tuberal Nuclei Sinusoids, Portal Veins Adenohypophysis

20. Hypothalamus
Functions

21. The Hypothalamus Neural Influences Hormonal Influences Endocrine
System
Autonomic
Nervous
Limbic

22. Functions of the Hypothalamus
Autonomic nervous system regulation
Hormone production
Endocrine regulation
Circadian rhythm regulation
Limbic system interaction
Various
Temperature regulation
Feeding

23. Functions of the Hypothalamus
Autonomic nervous system regulation
Anterior area influences PSNS through projections to brainstem PSNS nuclei
Posterior area influences SNS through projections to the lateral gray horn

24. Functions of the Hypothalamus
Supraoptic and paraventricular nuclei produce oxytocin and vasopressin (ADH)
Transported via axonal transport systems (hypothalamohypophysial tract) to neurohypophysis
Released in circulation
Clinical Correlate
Damage to supraoptic n.  diabetes insipidus
Hormone production

25. Functions of the Hypothalamus
Endocrine regulation
Stimulating or inhibiting hormones are transported via the tuberoinfundibular tract and released in to the pituitary portal system and ultimately to the adenohypophysis

26. Functions of the Hypothalamus
Circadian rhythm regulation
Input from retina to suprachiasmatic nucleus is then sent through poorly defined projections to the pineal gland

27. Functions of the Hypothalamus
Limbic system interaction
Preservation of species
securing food, defense mechanisms, sexual behavior
Emotions
Affective behavior
Memory
Motivation
Mammillary body

28. Functions of the Hypothalamus
Various
Temperature regulation
Feeding
Temperature
Posterior n. conserves heat
Anterior n. dissipates heat
Fever starts – sweating
Fever ends – chills
Feeding
Lateral n. induces eating
Ventromedial n. inhibits eating

29. ADENOHYPOPHYSIS NEUROHYPOPHYSIS
Connected with the hypothalamus via the hypophyseal portal system
NEUROHYPOPHYSIS
Connected with the hypothalamus via the hypophyseal tract

30. Tubero-infundibular tract

31. Posterior Pituitary Hormones
Antidiuretic hormone (ADH) or vasopressin and Oxytocin synthesized primarily in the supraoptic nuclei & Paraventricular nuclei of the hypothalamus
Hypothalamohypophysial tract

32. Anterior ( Supraoptic ) Region
Preoptic Nucleus
Control of parasympathetic function
Supraoptic Nucleus
Synthesis and secretion of vasopressin. Damage causes diabetes insipidus.
Suprachiasmatic
Nucleus
Fibers from the retina; fibers to the pineal body. Controls circadian rhythms.
Anterior
Controls temperature and sexual behavior.
Paraventricular
Synthesis and secretion of oxytocin (milk secretion & uterine contraction). Controls food intake

33. Middle or Tuberal Dorsomedial Nucleus Ventromedial Nucleus
- center of satiety
- on stimulation rage, cruelty
Ventromedial Nucleus
- on stimulation depression of appetite
Arcuate Nucleus
- periventricular in tuber cinereum
- secretes releasing-factors
- dopaminergic neurons inhibit release of prolactin
One important function that has been attributed to the ventromedial nucleus is control of eating. Bilateral lesions of the ventromedial nucleus in animals and probably humans as well, result in overeating (hyperphagia) and extreme obesity as well as a chronically irritable mood and increase in aggressive behavior (termed hypothalamic rage). By contrast,bilateral lesions in the lateral hypothalamic area result in anorexia (lack of appetite). Animals with lesions in this area may die of starvation. As a result of these lesion studies (along with supporting stimulation studies),
the ventromedial nucleus has been referred to as a satiety center and the lateral hypothalamic area as a feeding center.
SET POINT THEORY OF WEIGHT CONTROL

34. Posterior or Mamillary Region
Mamillary Nucleus
- impulses from hippocampal formation via fornix
- impulses from tegmental nuclei, nuclei raphae via mamillary peduncle
- projections to anterior thalamic nucleus via mamillothalamic peduncle
Nucleus posterior
- controls thermoregulation (preserving temperature and producing heat)
- damage causes poikilothermia – inability of thermoregulation

35. Lateral zone 1. lateral preoptic Nucleus Clinical Correlate
Crossed by Medial forebrain bundle
Contains two nuclei:
1. lateral preoptic Nucleus
2. lateral hypothalamic Nucleus
Clinical Correlate
- when stimulated feeling of hunger
- when destroyed anorexia nervosa and fast

36. Neurotransmitters in the Hypothalamus
The hypothalamus has been referred to as a “pharmacological museum” by virtue of the plethora of neurotransmitters that it contains.
The list of putative neurotransmitters includes:
ACh,
GABA,
glutamate,
serotonin,
dopamine, and
norepinephrine as well as literally dozens of peptides that have been identified in recent years.

37. SUMMARY
Dorsomedial

38. MAJOR FIBER TRACTS OF HYPOTHALAMUS

40. Lesion of lateral hypothalamic area leads to starvation
Lesions of VMN leads
to morbid obesity

41. The hypothalamus is supplied with blood by
small branches of the Circle of Willis

43. Diabetes Insipidus
Damage to the anterior hypothalamus blocks the production of ADH,
resulting in diabetes insipidus,
which is characterized by
rapid water loss from the kidneys.

46. Thank You