Diencephalon
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Nov 06, 2015
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About This Presentation
Anatomy
Slide Content
SABIHA M. HAQ
IIMC
IIMC
Learning objectives
Describe the location and boundaries of
Diencephalon
Enumerate parts of Diencephalon and
describe each one briefly
Identify the location of these parts on
diagrams/models
Briefly describe the clinical effects of the
lesions of diencephalon
Describe the location and boundaries of
Diencephalon
Enumerate parts of Diencephalon and
describe each one briefly
Identify the location of these parts on
diagrams/models
Briefly describe the clinical effects of the
lesions of diencephalon
INTRODUCTION/LOCATION
It is the area which surrounds third
ventricle
It has two walls, a roof, ant wall and
floor
Posteriorly the roof and floor
converge. This is the point where third
ventricle meets the cerebral aqueduct
It is the area which surrounds third
ventricle
It has two walls, a roof, ant wall and
floor
Posteriorly the roof and floor
converge. This is the point where third
ventricle meets the cerebral aqueduct
Anterior wall
Formed by lamina terminalis which is a thin layer
of grey matter
Its lower end meets the optic chiasma in an angle
called the optic recess
Behind its upper end is ant commissure (connects
the two temporal lobes, olfactory tracts and
amygdala)
Behind ant commissure are ant columns of fornix
Behind each ant column is interventricular
foramen connecting third and lat ventricles
Formed by lamina terminalis which is a thin layer
of grey matter
Its lower end meets the optic chiasma in an angle
called the optic recess
Behind its upper end is ant commissure (connects
the two temporal lobes, olfactory tracts and
amygdala)
Behind ant commissure are ant columns of fornix
Behind each ant column is interventricular
foramen connecting third and lat ventricles
Floor
It is actually the
floor of third
ventricle
It extends across
optic chiasma,
tuber cinerium,
infundibulum and
mamillary bodies to
posterior perforated
substance
It is actually the
floor of third
ventricle
It extends across
optic chiasma,
tuber cinerium,
infundibulum and
mamillary bodies to
posterior perforated
substance
Side walls
These are the
lateral walls of third
ventricle
Formed by
thalamus,
hypothalamic
groove or sulcus
and hypothalamus
itself
These are the
lateral walls of third
ventricle
Formed by
thalamus,
hypothalamic
groove or sulcus
and hypothalamus
itself
Roof
Roof is formed by
pia mater and
choroid plexus
of third ventricle
Roof is formed by
pia mater and
choroid plexus
of third ventricle
Parts of Diencephalon
Thalamus
Hypothalamus
Epithalamus
Subthalamus
Thalamus
Hypothalamus
Epithalamus
Subthalamus
Thalamus
Largest part
Wedge shaped
Largest part
Wedge shaped
Thalamus
It has four surfaces, lateral, medial, superior and
inferior and two ends, anterior and posterior
Medial surface forms the lateral wall of third ventricle
& is lined by ependyma
It has an interthalamic connection
Posteriorly it diverges from the midline & ends in a
large convexity, the pulvinar
Lateral & medial geniculate bodies bulge out from
pulvinar
It has four surfaces, lateral, medial, superior and
inferior and two ends, anterior and posterior
Medial surface forms the lateral wall of third ventricle
& is lined by ependyma
It has an interthalamic connection
Posteriorly it diverges from the midline & ends in a
large convexity, the pulvinar
Lateral & medial geniculate bodies bulge out from
pulvinar
Thalamus
Lateral surface lies in contact with the internal
capsule
The ascending fibres from various tracts pass
through thalamic nuclei and leave the lateral
surface to join the internal capsule on their way
to the cortex
Superior surface is convex & triangular & tapers
anteriorly
A band of white matter called medullary stria
meets the stria from the other thalamus to form
U shaped habenular commissure
(The habenular nuclei are involved in pain processing, reproductive
behavior, nutrition, sleep-wake cycles, stress responses, and learning )
Lateral surface lies in contact with the internal
capsule
The ascending fibres from various tracts pass
through thalamic nuclei and leave the lateral
surface to join the internal capsule on their way
to the cortex
Superior surface is convex & triangular & tapers
anteriorly
A band of white matter called medullary stria
meets the stria from the other thalamus to form
U shaped habenular commissure
(The habenular nuclei are involved in pain processing, reproductive
behavior, nutrition, sleep-wake cycles, stress responses, and learning )
Thalamus
Inferior surface is narrow and joins the
hypothalamus medially
Posterolaterally it receives the lemnisci
from the midbrain
All four surfaces converge to the narrow
anterior pole which forms the posterior
boundary of interventricular foramen
Inferior surface is narrow and joins the
hypothalamus medially
Posterolaterally it receives the lemnisci
from the midbrain
All four surfaces converge to the narrow
anterior pole which forms the posterior
boundary of interventricular foramen
Thalamic nuclei
A, Y shaped sheet of
white matter int
medullary lamina
divides the thalamus
into three parts
Anterior
Medial
Lateral
Each part contains
several nuclei
A, Y shaped sheet of
white matter int
medullary lamina
divides the thalamus
into three parts
Anterior
Medial
Lateral
Each part contains
several nuclei
Thalamic nuclei
Anterior thalamic nuclei are concerned
with the emotional tone and recent
memory
Medial thalamic nuclei are concerned with
the behavior and expression
Lateral thalamic nuclei are connected to
sensory and motor pathways including
sense of taste and balance
Anterior thalamic nuclei are concerned
with the emotional tone and recent
memory
Medial thalamic nuclei are concerned with
the behavior and expression
Lateral thalamic nuclei are connected to
sensory and motor pathways including
sense of taste and balance
Other thalamic nuclei
Medial geniculate
body concerned
with auditory relay
through inf colliculi
Lateral geniculate
body concerned
with visual relay
through superior
colliculi
Medial geniculate
body concerned
with auditory relay
through inf colliculi
Lateral geniculate
body concerned
with visual relay
through superior
colliculi
Functions of thalamus
Plays an important part in the integration
of sensory and motor systems
Recieves precortical sensory input from all
the sensory systems except the olfactory
system
Centre for Visual reflexes
Centre for Auditory reflexes
Taste pathways
Plays an important part in the integration
of sensory and motor systems
Recieves precortical sensory input from all
the sensory systems except the olfactory
system
Centre for Visual reflexes
Centre for Auditory reflexes
Taste pathways
Hypothalamus
The floor of diencephalon is called
hypothalamus
It maintains the internal environment of
the body through 3 systems
Autonomic NS
Endocrine system
Limbic system
The floor of diencephalon is called
hypothalamus
It maintains the internal environment of
the body through 3 systems
Autonomic NS
Endocrine system
Limbic system
Hypothalamus
Parts of hypothalamus visible from the ventral
surface
Infundibulum
Mamillary bodies
Tuber cinereum
Median eminence which is responsible for the
production of neurosecretory substances which
control the ant pitutary
Posterior perforated substance
This is one of the few parts of brain which has no
blood brain barrier
Parts of hypothalamus visible from the ventral
surface
Infundibulum
Mamillary bodies
Tuber cinereum
Median eminence which is responsible for the
production of neurosecretory substances which
control the ant pitutary
Posterior perforated substance
This is one of the few parts of brain which has no
blood brain barrier
Functions of hypothalamus
Thirst and water balance (supraoptic &
paraventricular nuclei)
Production of releasing factors for
Adenohypophysis
Precursors of ADH & Oxytocin
Hunger centre
Autonomic regulation centre
Temperature regulation centre
Thirst and water balance (supraoptic &
paraventricular nuclei)
Production of releasing factors for
Adenohypophysis
Precursors of ADH & Oxytocin
Hunger centre
Autonomic regulation centre
Temperature regulation centre
Subthalamus
This is the caudal part of thalamus,
contains
Subthalamic nucleus
Cranial part of red nucleus
Cranial part of substantia nigra
It is a part of basal ganglia and the
reticular activating system of brain (RAS)
This is the caudal part of thalamus,
contains
Subthalamic nucleus
Cranial part of red nucleus
Cranial part of substantia nigra
It is a part of basal ganglia and the
reticular activating system of brain (RAS)
Epithalamus
It consists of
Fornix
Habenular nuclei and commissure
Pineal gland
Posterior commissure (concerned with bilateral pupillary
reflex)
The pineal gland secretes Melatonin which sets
the day and night clock of the body
It becomes calcified in old age
It consists of
Fornix
Habenular nuclei and commissure
Pineal gland
Posterior commissure (concerned with bilateral pupillary
reflex)
The pineal gland secretes Melatonin which sets
the day and night clock of the body
It becomes calcified in old age
Lesions of diencephalon cause:
Poor temperature control
Abnormal appetite
Lack of ADH causing polyuria and polydypsia
These lesions rarely ever occur alone. Usually they
occur in conjunction with cerebral lesions.
Poor temperature control
Abnormal appetite
Lack of ADH causing polyuria and polydypsia
These lesions rarely ever occur alone. Usually they
occur in conjunction with cerebral lesions.
THE END
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