Brainstem Anatomy PDF

Summary

This document provides a summary of brainstem anatomy, including the medulla oblongata, pons, and midbrain. It discusses the functions, localization, and organization of the brainstem. The document also briefly touches on the reticular formation and cranial nerve nuclei.

Full Transcript

11/27/24

Encephalon
Animal Body Function VII
Luís Resende

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Summary
Know the anatomy of the Brainstem:
Medulla oblonga
Pons
Midbrain
Nuclei grey matter
White mater: association fibers, commissural fibers and
projection fibers

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https://regionalneurological.com/wp-content/uploads/2020/03/Regional-Neurological_Brain-Science.jpeg

Brain
(encephalon)
Functions:
control the organs of the body
responsible for the regulation,
co-ordination and integration of
the rest of the nervous system.
its abilities are resembled by its
morphological features.

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(Konig, 2020)

Localization:
Housed in the neurocranium
Frontal bones
Brain Parietal bones

(encephalon)

Occipital bone
Temporal bones Dyce, 2018)
Ethmoid bone
Sphenoid bone
Cranial cavity

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Brain (encephalon)
Can be divided anatomically and functionally
Anatomic division:
Rhombencephalon (hindbrain)
Myelencephalon – medulla oblongata
Metencephalon – pons (ventral) and
cerebellum (dorsal)
Mesencephalon (midbrain)
Prosencephalon (forebrain)
Diencephalon
Telencephalon

Functional division:
Brainstem
Cerebrum
Cerebellum

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Brainstem Cerebrum Cerebellum

Myelencephalon Diencephalon Dorsal
Medulla oblongata
Hipotalamus Metencephalon
Subtlamus
Talamencephalon Arquicerebellum
Epitalamus Paleocerebellum
Talamus ** Neocerebellum
Metatalamus

Ventral
Metencephalon Telencephalon
Arquipalium
Pons Paleopalium
Neopalium

Mesencephalon
(midbrain)
Tectum corpora
quadrigeminal, Tegmentum e
Cerebellar pedunculus
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Brainstem

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Brainstem

Functions:
Most basic and primitive
portion of the brain
Main contribution to regulate
homeostatic functions
Connects the cerebrum with the
spinal cord
Origin of cranial nerves (except
the olfactory)

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Brainstem
Localization:
Occupies the fossae of the floor of the
cranial cavity, caudal to the optic canals
(Konig, 2020)

Anatomic relations:
Cranial: Cerebrum, connected by internal
capsule and cerebral peduncles
Caudal: Spinal cord
Dorsal: Cerebellum, connected by three
cerebellar peduncles

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Brainstem
Organization:
Reticular formation
Grey matter (organized in nuclei)
White matter (organized in tracts)

Lorenz, 2011

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Brainstem
Reticular formation
An additional region distinct from the other regions
formed by grey matter nuclei and white matter tracts -
Grey and white matters are mixed together

Extensive area occupying the entire length of the
brainstem Lorenz, 2011

It exerts a facilitating or inhibitory action on the
cerebral cortex and spinal cord.

Neurons give rise to:
Reticulospinal tracts
Thalamic projections
Cerebellar relay sites
Visceral relay sites
Premotor nuclei
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Brainstem

Reticular formation
Anatomically individual reticular formation nuclei organized in three
longitudinal zones:

Lateral and medial zones (bilateral)
Lateral nuclei (parvocellular neurons) received spinal input and activate
reticulospinal neurons.
Medial nuclei gives (magnocellular neurons) rise to reticulospinal tracts
Project to the cerebellum.
Involved in the forebrain arousal and processing visceral information.

Raphe nuclei (Unpaired and located along the midline)
Neurons release serotonin that affect mood and sensitivity to noxious
stimuli
Send axons rostrally that affects limbic system and affective behaviours

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Brainstem
Reticular formation

Gray substance organized in nuclei:
Cranial nerves nuclei
Gracilis and cuneiform nuclei
Pre-cerebellar nuclei
Pre-cerebellar system: Nuclei responsible for
receiving information from cerebral cortex and
spinal cord and send it to cerebellum
Essential for motor coordination
Tectal nuclei
Red nucleus and substantia nigra
Hypothalamus nuclei

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Brainstem

Cranial nerves nuclei -
overview
Neurons associated with
cranial nerves are found at all
levels of the brainstem.

Individual cranial nerve nuclei
form interrupted longitudinal
columns that extend from the
midbrain caudally, even
entering the spinal cord

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Brainstem
Cranial nerves nuclei - overview

General Somatic afferent column - red
General Visceral afferent column - orange
Special somatic afferente column
Special visceral afferent column

General Somatic efferent column – dark blue and light blue
Visceral efferent (parasympathetic) column - green
Special visceral efferent

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Cranial nerves - Organized according to their function: Sensory nerves with receptors in
head, body and limbs
General Somatic Afferent
Pathways (GSA)
CN V (and spinal nerves)

Sensory neurons from visceral
Motor neurons that innervate skeletal structures – head, body cavities
striated muscle of the head (and and blood vessels
skeleton) General Visceral Afferent
General Somatic Efferent Pathways Pathways (GVA)
Efferent pathways

(GSE)
CN VII, IX, X (and spinal nerves)
Cranial Nerve (CN) III, IV, VI, XII (and

Afferent pathways
spinal nerves)

Vision and hearing
Motor neurons that innervate skeletal
striated muscle of the head with Special Somatic Afferent
different embryonic origin of the GSE. Pathways (SSA)
Special Visceral Efferent Pathways CN II, VIII
(SVE)

CN V, VII, IX, X, XI
Associated with the vestibular
system

Motor neurons of the autonomic Special Proprioception (SP)
nervous system
CN VIII
General Visceral Efferent Pathways
(GVE)

CN III, VII, IX, X (and spinal nerves)
General Proprioception (GP) CN V (and spinal nerves)

Recommendation: Do not memorize fiber type content per cranial nerve or Taste and Smell
nucleus. Rather, learn what a nerve/nucleus innervates and then you can
Special Visceral Afferent
deduce its fiber type content! Fiber type understanding provides a useful Pathways (SVA)
overview of a nerve's innervation role CN I, VII, IX, X
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Brainstem
Efferent nuclei of the cranial nerves
General Somatic efferent column
motor nucleus of the hypoglossal nerve (XII)
motor nucleus of the abducente nerve (VI)
motor nucleus of the trochlear nerve (IV)
motor nucleus of the oculomotor nerve (III)
General Visceral efferent (parasympathetic) column
parasympathetic nucleus of the vagus nerve (X)
parasympathetic nucleus of the glossopharyngeal nerve (IX)
parasympathetic nucleus of the facial nerve (VII)
parasympathetic nucleus of the oculomotor nerve (III)
Special visceral eferente column
motor nucleus of the trigeminal nerve (V)
motor nucleus of the facial nerve (VII)
nucleus ambigus (motor nucleus of vagal nerve and
glossopharyngeal nerves)
motor nucleus of the accessory nerve (XI)

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Brainstem

Efferent nuclei of the cranial nerves
General Somatic efferent column
motor nucleus of the hypoglossal nerve (XII)
muscles of the tongue
motor nucleus of the abducente nerve (VI)
rectus lateral and eyeball retractor muscles
motor nucleus of the trochlear nerve (IV)
dorsal oblique muscle
motor nucleus of the oculomotor nerve (III)
dorsal, medial and ventral rectus muscle,
levator palpebrae superioris muscle, and
ventral oblique muscles

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Brainstem
Efferent nuclei of the cranial nerves
General Visceral efferent (parasympathetic) column
parasympathetic nucleus of the vagus nerve (X)
abdominal and thoracic organs
parasympathetic nucleus of the glossopharyngeal
nerve (IX)
parotid and zigomatic salivary glands
parasympathetic nucleus of the facial nerve (VII)
nasal, lacrimal,mandibular, and sublingual
glands
parasympathetic nucleus of the oculomotor nerve
(III)
Constrictor muscles of the pupil and ciliary
muscles of the eye

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Brainstem

Efferent nuclei of the cranial nerves

Special visceral efferente column
motor nucleus of the trigeminal nerve (V)
motor nucleus of the facial nerve (VII)
nucleus ambiguous (motor nucleus of
vagal nerve and glossopharyngeal
nerves) 1st visceral arch - muscles of mastication
motor nucleus of the accessory nerve (XI) 2nd visceral arch – muscles of the face or facial expression
3rd, 4th, and 6th visceral arches – striated muscles of the
larynx and pharynx (vocalization and swallowing), and some
of the neck
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Brainstem
Afferent nuclei of the cranial nerves
General Somatic afferent column
mesencephalic nucleus of the trigeminal nerve (V)
Propioceptive sensation of the teeth, mouth,
temporomandibular joint, eye muscles, and mastication.
principal (pontine) sensory nucleus of the trigeminal nerve
(V)
Tactile sensations or detailed pressure of the ipsilateral side
of the head.
nucleus of the descending (spinal) tract of the trigeminal
nerve (V)
Pain and temperature of the head by the 3 branches of the
trigeminal N. They receive fibers from the glossopharyngeal
and vagus N. (sensitivity of the skin of the inner surface of
the pinna, internal acoustic meatus, tympanic membrane
and meninges).

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Brainstem
Afferent nuclei of the cranial nerves

General Visceral afferent column (general and
special)
nucleus of the solitary tract (vagus nerve (X),
glossopharyngeal nerve (IX), and facial nerve
(VII))
rostral part- related to taste. It receives the
fibers with taste sensitivity from the facial
and glossopharyngeal nerves.
caudal part - receives the intraceptive
information collected by the vagus and
glossopharyngeal nerves at the level of the
carotid body, lungs and bronchi.

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Brainstem

Afferent nuclei of the cranial nerves

Special somatic afferente column
vestibular and cochlear nuclei of the
vestibulocochlear nerve (VIII)
Vestibular nuclei - maintain head
position, coordinate eye movements,
maintain balance and trunk posture.
Cochlear nuclei - receive acoustic
stimuli.

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Brainstem
Other nuclei
Gracillis nucleus
Medial cuneate nucleus
Nucleus Z
Olivary nucleus
Lateral cuneate nucleus
Caudal colliculus
Rostral colliculus
Red nucleus
Substantia nigra

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Brainstem
Anatomic parts:
A. Diencephalon or interbrain
Thalamus, hypothalamus, epithalamus
and subthalamus
B. Mesencephalon or midbrain
Tectum, cerebral aqueduct, tegmentum
and cerebral peduncles

C. Metencephalon (ventral)
Pons
D. Myelencephalon or afterbrain
Medulla oblongata and caudal part of IV
ventricle

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Diencephalon http://www.cvmbs.colostate.edu/

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Diencephalon
Functions:
Provides sensorial information to
cerebral cortex
Control of hypophysis
Influence behavior and autonomic
nervous system
Regulate sexual activity and the
circadian cycle
Associated with the limbic system

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Diencephalon
Rostral extent of the brainstem
Internal capsule: mass of corticopedal
and corticofugal projection axons
connecting the diencephalon bilaterally to
each cerebral hemisphere
Third Ventricle
Divided in 5 regions:
Epithalamus
Thalamus
Metathalamus
Hypothalamus
Subthalamus

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Diencephalon telencephalon medulla oblongata: myelencephalon

Epithlamus
Thalamus

Hipothalamus

http://www.cvmbs.colostate.edu/
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en dessous y’a mesencephalon

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Diencephalon

Epithalamus – dorsal view
The most dorsal part of the diencephalon,
forming a film over the thalamus. The smallest
and oldest portion of the diencephalon.
Formed by: pineal gland, habenular nuclei and
caudal commissure (conects the rostral
colliculus)
Function: functionally and anatomically
related to the limbic system. It is a reflex area
of smell.

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Diencephalon
Epithalamus – dorsal view
Pineal gland (25)
Habenular commissure (3)
Habenula

3rd ventricle
Habenular striat

Habenula

Habenular comissure

Pineal gland
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Diencephalon
Epithalamus – dorsal view
Pineal gland (17)
Endocrine gland situated between the habenular nuclei
and the caudal commissure
Composed of pinealocytes and glial cells contained within
connective tissue trabeculae derived from meninges.
Lacks a blood-brain barrier.
Pinealocytes secrete melatonin and its production is
inhibited by daylight (circadian rhythm)
Habenula:
Receives information from the limbic system and basal
nuclei
Formed by habenular nuclei (25) and habenular
commissure (16).
It connects the forebrain and midbrain within the
epithalamus.
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Diencephalon
Thalamus – medial view
Largest part of the diencephalon and
can be divided in dorsal thalamus and
subthalamus
The thalamus is bilateral, both parts
fuse to each other across the thirth
ventricule.
Closely linked to the cerebral cortex,
via reciprocal connections – is the
major relay station that integrates
sensory and motor signals before
projecting to the cerebral córtex.
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Diencephalon

Thalamus – medial view
Dorsal thalamus
Several nucleus divided in groups: Rostral, lateral, medial and
reticular thalamic nuclei
Afferent and efferent pathways
Provide information to brain, including sense organs (taste, vision,
acoustic, vestibular)
Part of the limbic system
Thalamocortical circuits are essential for movement.
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Diencephalon
Thalamus – medial view
Thalamus - bilateral
Interthalamic adhesion (33)

3rd ventricle (32)

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Diencephalon

Thalamus – medial
view
Interthalamic adhesion (33)
Connects both parts of
the thalamus at their
medial surfaces
contains thalamic nuclei
but not commissural
axons.

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Diencephalon

Thalamus – medial view
3rd ventricle (3)
Narrow chamber separating right and left halves of the
diencephalon, except where the interthalamic adhesion occupies
the center of the ventricle
Bilaterally a dorsolateral interventricular foramen allows the third
ventricle to communicate with the lateral ventricle on each side.
The rostral wall of the third ventricle is formed by lamina
terminalis
Combined ependyma and pia mater, constituting tela choroidea
forms the roof of the third ventricle and gives rise to paired
choroid plexuses.
Ventrally, the third ventricle exhibits an optic recess (5) between
the optic chiasm and the lamina terminalis, a neurohypophyseal
(infundibular) recess (4)

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Diencephalon

Metathalamus or dorsal
caudal thalamus – dorsal view

The metathalamus consists of lateral
(4) and medial (4) geniculate bodies
(nuclei), which function like thalamus
but are specialized for vision and
audition, respectively

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Diencephalon
Methathalamus or caudal
dorsal thalamus

lateral geniculate nucleus
located dorsal, rostral, and
slightly lateral to the medial
geniculate body
receives fibers of the optic
tract, then projects visual
signals to the visual cortex
and to the rostral colliculus
(visual reflex center of the
midbrain)
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Diencephalon
Methathalamus or caudal
dorsal thalamus

medial geniculate nucleus
comprises the caudal extent of
the diencephalon. It is attached
to the lateral surface of the
midbrain.
mediate the auditory signals to
the auditory cortex. Connected
to the caudal colliculus
(auditory reflex center of the
midbrain)
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Diencephalon

Hypothalamus

Functions:
Maintenance of homeostasis, body temperature, eating and drinking habits, circadian
cycles and sleep-wake cycle.
Important in affective behaviors, contributing to behaviors related to anger, escape,
pleasure, reproductive behavior and stress response - Limbic System.
Controls the autonomic nervous system:
Stimulation of the rostral region of the hypothalamus –parasympathetic stimulation
Stimulation of the caudal region of the hypothalamus – sympathetic stimulation

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Diencephalon
Hypothalamus
Ventral to the thalamus and medial to the
subthalamus; occupies the floor and the wall of
the third ventricle
Ventral surface of the diencephalon shows only
hypothalamic regions:
Rostral end – dorsal to the optic chiasm
(rostral) (34)
Tuber cinereum (level of the hypophysis) (31)
Infunfibulum (neurohypophysis) (30)
Hypophysis = neurohypophysis (26) +
adenohypophysis (28)
Bilateral mamillary bodies (caudally) (27)

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Diencephalon
Hypothalamus

rostral end is above the optic chiasm – Optic nerve (II) - 75% (dogs and cats) of optic nerve
axons cross in the optic chiasm and travel through the optic tracts to the lateral geniculate
nucleus (thalamus)

tuber cinereum - is the swollen region of the ventral hypothalamic surface. It gives rise to an
infundibulum with an attached neural lobe. Together these constitute the neurohypophysis.

hypophysis – controls endocrine activity
neurohypophysis - includes the infundibulum and neural lobe of the pituitary
paraventricular nucleus and supraotic nucleus (neurohypophysis) – produced vasopressin
and oxytocin
adenohypophysis – glandular epithelial tissue

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Diencephalon
Hypothalamus

Infundibulum – a funnel-shaped, ventral extension of the hypothalamus
connecting the hypophysis with the hypothalamus

Mammillary bodies – mammillary nuclei:
Caudal and ventral hypothalamus
Receive axons from the hippocampus and thalamus.
They are associated with memory and the Limbic System.

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Diencephalon
Hypothalamus
Subdivisions:
rostral (supraquiasmatic) region
that is dorsal to the optic chiasm
and bounded rostrally by lamina
terminalis.
intermediate (tuberal) region at
the level of the tuber cinereum
caudal (mammilary) region that
includes the mamillary body

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Diencephalon
Hypothalamus – rostral transverse region -
suprachiasmatic
Dorsal to the Optic chiasm – Optic nerve (II):

Nuclei:
Preotic nucleus: more rostral - parasympathetic activity
Rostral hypothalamic nucleus: body temperature reduction
(panting, sweating)
Suprachiasmatic nucleus: receives retinal input and controls
circadian rhythms (e.g., body temperature, sleep and
wakefulness, hormone levels)
Paraventricular nucleus and supraotic nucleus: form tracts
ending in the neurohypophysis - Neurons of both nuclei
produce vasopressin (antidi- uretic hormone) and oxytocin
hormones.

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Diencephalon
Hypothalamus – intermediate
transverse region - tuberal
Region at the level of the tuber cinereum

Nuclei:
Dorsomedial hypothalamic nucleus
Ventromedial hypothalamic nucleus: Satiety
center
Lesion: voracious appetite
Lateral hypothalamic nucleus: Feeding center
Lesion: anorexia and weight loss

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Diencephalon

Hypothalamus – caudal
transverse region - mammilary
Mammillary bodies

Nucleus:
Caudal hypothalamic nucleus -
controls sympathetic activity

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Diencephalon

Subtathalamus
Ventral to the thalamus and lateral to the
hypothalamus - continuation of the
midbrain tegmentum.
It features multiple nucleus.
It contains the zona incerta,
subthalamic nucleus, and white matter
fields that border these nuclei.
Part of the Limbic system and motor
control

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Diencephalon Form the optic nerve
Nerve fibers originate in that passes through the

CN II – Optic nerve the retina
sclera and enters in the
skull through the optic
canal

It is not a true nerve but a nervous tract (it
is surrounded by cranial meninges and
myelin is produced by oligodendrocytes):

Pass the optic chiasm
Then continues as optic (diencephalon)
tracts to the
(decussation)

The optic tracts (fibers split and follow two paths): -Special
somatic afferent pathway
Conscious pathway: Lateral geniculate body to the
Occipital lobe (visual cerebral cortex)
Reflex pathway: pretectal region and rostral colliculi
(mesencephalon)

Ø The proportion of fibres that are exchanged with the opposing optic nerve is correlated with the Dyce, 2010
degree of binocular vision enjoyed by the species.
Ø In most birds, vision essentially monocular, all fibres decussate.
Ø In the dog and cat, binocular vision, approximately 75% of the optic nerve fibres decussate
Ø In primates, binocular vision is best developed, approximately 50% of the fibres decussate.
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CN II – Optic nerve Optic quiasma
Optic tracts

Counscious visual Reflex pupillary
perception pathway pathway

The optic tract synapses in Some fibres leave the optic
the lateral geniculate tract to terminate in the
nucleus (5) and in the optic rostral colliculi (7) of the
thalamus. midbrain and pretectal nuclei

From the thalamus second-stage neurons Synapse on neurons of the
project, via the optic radiation (6) of the oculomotor nerve located in the
internal capsule, on the visual cortex midbrain (pretectal region) that
located within the occipital lobe of each are responsible for reducing
hemisphere. pupillary diameter in response to

http://www.cvmbs.colostate.edu/vetneuro/index.html
light

Information from the rostral
colliculi pass through the middle
cerebellar peduncle to the
cerebellum)

Neurologic exam (Menace response) Synapse on lower motor neurons
https://vmerc.uga.edu/CranialNerves/mrp.html in the cervical spinal cord –
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Brainstem -
Mesencephalon
or midbrain
Functions:
Determined by cranial nerves III
and IV, reflex center for audition
(caudal colliculus) and vision
(rostral colliculus)
Coordination of voluntary motor
function, locomotion, muscle
tonus and body posture

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Brainstem -
Mesencephalon
or midbrain
Formed by:
Tectum of the midbrain:
Rostral colliculi (paired)
Caudal colliculi (paired)
Mesencephalic aqueduct
Cerebral peduncles (paired):
midbrain region located ventral
to the tectum and aqueduct
3 regions: tegmentum,

substantia nigra, crus cerebri.
Cranial nerves: Trochlear (IV) and https://www.google.com/url?sa=i&url=http%3A%2F%2Fvanat.cvm.umn.edu%2FneurLab3%2Fpages%2FMidDgMed1074.html&psig=AOvVaw0HIZSD00VjthHAhg-

oculomotor (III)
qdKNo&ust=1699879016165000&source=images&cd=vfe&opi=89978449&ved=0CBIQjRxqFwoTCNjxrfy8voIDFQAAAAAdAAAAABBH

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Lateral view Dorsal view

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Brainstem -
Mesencephalon
or midbrain
Formed by – medial view
Tectum of the midbrain:
Rostral colliculi (paired)
Caudal colliculi (paired)
Comissure of rostral and caudal
coliculli (14)
Mesencephalic aqueduct (27´´)
Cerebral peduncles (paired):
midbrain region located ventral to
the tectum and aqueduct
3 regions: tegmentum, substantia

nigra, crus cerebri (19).
Cranial nerves: Trochlear and
oculomotor

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Brainstem -
Mesencephalon
or midbrain
Formed by – ventral view
Crus cerebri (12)
Interpeduncular fossa (13)
Depression between the two
peduncles
Interpeduncular nucleus:
associated with the limbic
system
Mesencephalic reflex center
Cranial nerves: Trochlear
(IV) and oculomotor (III)

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Brainstem -
Mesencephalon
or midbrain
Mesencephalic aqueduct:
Links the fourth ventricle (hindbrain) with the third ventricle
(diencephalon)
Surrounded by periaqueductal grey matter - important for
endogenous analgesia system (high concentration of opiace
receptors)

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Dorsal view
Brainstem -
Mesencephalon
or midbrain
Tectum of the midbrain:
Rostral colliculi (paired), 3 layers:
Conections with the lateral geniculate body
(4)
Superficial layer receive axons from both the
optic tract and visual cortex via the brachium
of the rostral colliculus
Intermediate layer gives rise to the
tectonuclear and medial tectospinal tracts
that leave the colliculus for orientation
reflexes and eye movements
Deep layer receive auditory and spinal cord
axons

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Dorsal view
Brainstem -
Mesencephalon
or midbrain
Tectum of the midbrain:
Caudal colliculi (8)(paired):

Executes auditory reflex* via the medial
tectospinal tract that leave the colliculus for
orientation reflexes and eye movements
* (e.g. turning the head in response to
sound)

Receives axons from the lateral lemniscus,
commissure of the caudal colliculi (7),
medial geniculate body (5), auditory area of
the cerebral cortex, and the cerebellum

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Brainstem -
Mesencephalon
or midbrain
Tectum of the midbrain:
Tectal nucleus: Any of nuclei
residing in colliculus; relay
functions for the visual and
auditory systems and integrate
reflex functions

Pre-tectal nucleus: Between the
colliculus and diencephalon;
Controls the eye movement and
pupillary light reflex.

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Brainstem -
Mesencephalon
or midbrain
Cerebral peduncle (bellow the tectum)
Formed by:
1. Tegmentum:
Ventral to the mesencephalic aqueduct and
dorsal to the substantia nigra
Contains:
gray matter (sensory and motor nuclei)
Red nucleus and nuclei associated with
reticular formation, cranial nerves
white matter (ascending and descending tracts)
interwoven gray and white matter – reticular
formation

Red nucleus receives input from the motor cortex
to drive voluntary movement

Reticular formation receives axonal input from
spinoreticular and spinothalamic - responsible for
maintaining awake status
neuromodulation, and the mesencephalic locomotor region

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Brainstem -
Mesencephalon
or midbrain
Cerebral peduncle (bellow the tectum)
Formed by:
1. Tegmentum:
Red nucleus – in the rostral midbrain tegmentum,
ventrolateral to the periaqueductal gray.
Part of the motor system:
receives input from the three motor centers
(cerebral cortex, basal nuclei, and cerebellum)
to drive voluntary movement
gives rise to the rubrospinal tract and rubro-
olivary fibers

Motor and parasympathetic nucleus of the
oculomotor nerve (III)
Motor nucleus of the trochlear nerve (IV)
Mesencephalic nucleus of trigeminal nerve (V)

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Brainstem -
Mesencephalon
or midbrain
Cerebral peduncle (bellow the tectum)
Formed by:
2. Substantia nigra:
Grey matter immediately dorsal to
the crus cerebri
It participates in the control of
movements – part of the motor system -
but is not directly related to the spinal
cord, exercising its function through
connections with the basal nuclei of th
cerebral cortex.
Reticular (dorsal) and compact (ventral) Human brain neurons in the substantia nigra contain
portion
black pigments, and degeneration of this neurons
results in Parkinson´s disease.

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Brainstem -
Mesencephalon
or midbrain
Cerebral peduncle (bellow the tectum)
Formed by:
3. Crus cerebri (12):
covers the ventral surface of the
midbrain.
Massive bundle of motor fibers of
corticonuclear, corticopontine, and
corticospinal tracts.
motor fibers that arise from neuron cell
bodies in the motor cerebral cortex and
descend in the internal capsule that runs
lateral to the to the thalamus and
caudate nucleus and go to the brainsteam
and spinal cord.

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Brainstem -
Mesencephalon or midbrain
* pyramidal tract
3. Crus cerebri:
corticonuclear tracts* – terminates in all
cranial motor nuclei of the brainsteam and
some fibers terminates in the spinal cord; -
control of voluntary motor functions: eye
movement, mastication, blinking, and
swallowing.

corticopontine tracts* – terminates in the
pons and projects to the contralateral
cerebellum; - mediate the motor information
to the cerebellum.

corticospinal tracts – reaches the contralateral
side of the spinal cord to terminate in the
spinal motor nuclei. - voluntary control of the
skeletal muscles.

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Brainstem - Mesencephalon – Midbrain

Cranial nerves nuclei

Mesencephalic nucleus of trigeminal nerve (V)
Motor nucleus of the trochlear nerve (IV)
Motor and parasympathetic nuclei of the oculomotor nerve (III)

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CN III – Oculomotor
nerve

General somatic efferent pathways (A) and
general visceral efferent pathways (B)
A. Somatic efferent axons – innervate skeletal
muscle of extraocular muscles - Oculomotor
nuclei of the rostral mesencephalon

B. Parasympathetic efferent axons – innervate
ciliary smooth muscle - Parasympathetic
nucleus of the oculomotor nerve (rostral to the
motor nuclei)

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CN III – Oculomotor
nerve Oculomotor nerve emerge from
the mesencephalon in the Pass through the orbital fissure
interpedencular fossa

A. Somatic efferent axons – innervate
skeletal muscle of extraocular muscles –
Origin: Oculomotor nuclei of the rostral
mesencephalon
Entering in the orbita the nerve is
divided into
*The ventral branch also present the Dorsal branch – Dorsal rectus muscle, levator
parasympathetic efferent axons palpebrae superioris muscle

Ventral branch* – medial and ventral rectus
muscles and ventral oblique muscle
http://www.cvmbs.colostate.edu/vetneuro/index.html

Dyce, 2010

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CN III – Oculomotor
nerve

B. Parasympathetic efferent axons – innervate ciliary
smooth muscle - Parasympathetic nucleus of the
oculomotor nerve (rostral to the motor nuclei)

Parasympathetic (PS) innervation of the eye
Origin PS nucleus of oculomotor nerve (CN III) in midbrain
Preganglionic pathway Oculomotor nerve

Ganglion and location Ciliary ganglion (1) just caudal to the eye

Postganglionic pathway With somatic motor fibers of the oculomotor nerve - de Lahunta, 2015
short ciliary nerves - innervate the ciliary m. (in the
eye) Sympathetic Nervous System:
Postganglionic fibers of the sympathetic system will also form the short
Target organ and function Iris and ciliary body ciliary nerves:. Pupillary light reflex and accommodation
Postganglionic fibres of the cranial cervical ganglion (sympathetic):
Innervation: contracts the sphincter pupillary m - contracts the di l at or pupi l l ar y muscle - dilate the pupil
Constrict the pupil Neurologic exam (Pupillary reflex)
2024 Instituto Universitário Egas Moniz - MIMV https://vmerc.uga.edu/CranialNerves/plrp.html
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CN IV – Trochlear Cell bodies of neurons are in the
Trochlear nucleus of midbrain
nerve (mesencephalon) Pass through the orbital fissure
Single cranial nerve with a dorsal
origin (emerge caudally to the
contralateral caudal colliculus
General somatic efferent pathway
The only cranial nerve that innervates
only the contralateral side from which it
originates
Single cranial nerve with a dorsal origin
Somatic motor nerve:
(emerge caudally to the contralateral caudal
colliculus innerve dorsal oblique muscle
of the eye on the contralateral side

Dyce, 2010

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Brainstem -
Metencephalon
(ventral)– Pons
Ventral portion of the metencephalon: Pons
and cranial part of the IV ventricle
Pons:
between the midbrain (mesencephalon)
rostrally and medulla oblongata caudally
distinguished by transverse fibers along its
ventral surface

Dorsal part: Tegmentum
Ventral part: Transverse pontine fibers
Dyce, 2018

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Brainstem -
Metencephalon
(ventral)– Pons
Dorsal part:
cerebellar peduncles and rostral
portion of the fourth ventricule

Tegmentum: ventral to the fourth
ventricule and dorsal to the base of
the pons
gray matter (sensory and motor
nuclei), White matter (ascending and
descendig tracts) and reticular
formation

Ventral part:
between the crus cerebri and the
trapezoid body
covered by transverse pontine
fibers

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Brainstem -
Metencephalon
(ventral)– Pons
External anatomy – Dorsal view
Rostral cerebellar peduncle (11)
Caudal cerebellar peduncle (10)
Middle cerebellar peduncle (9)
Median sulcus in fourth ventricle
(17) - midline of the rhomboid fossa
(floor of the 4th ventricle)
15´
Sulcus limitans (19) 22
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Brainstem -
Metencephalon
(ventral)– Pons

Cerebellar peduncles
Brainstem is connected to the
cerebellum by axons within three
cerebellar peduncles:

Rostral cerebellar peduncle (11)
Middle cerebellar peduncle (9) 22
15´
23
Caudal cerebellar peduncle (10)
24

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Brainstem -
Metencephalon
(ventral)– Pons
Rostral cerebellar peduncle
(11)
Connects the cerebellum with
the midbrain (mesencephalon)
Undirectional bundle:
it is largely composed of
efferent fibers leaving the
cerebellum to synapse in the
midbrain, red nucleus, reticular 15´
22
formation, and thalamus 23

cerebellum rapidly influence 24
the motor cortex

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Brainstem -
Metencephalon
(ventral)– Pons
Middle cerebellar peduncle (9)
Connects the pons to the cerebellum
Origin in the transverse pontine fibers
Afferent fibers – only – from the pons
(part of the corticopontocerebellar tract =
corticopontine + pontocerebellar tracts).

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Brainstem -
Metencephalon
(ventral)– Pons
Caudal cerebellar peduncle (10)
Connects the medulla oblongata to
the cerebellum
Bidirectional bundle:
Afferent fibers (proprioceptive)
from the brain steam and spinal
cord ,as well as from the
vestibular nuclei, the olivary
nucleus, and the reticular
formation.
Efferent fibers from the 22
15´
flocculonodular nuclei to the 23
vestibular nuclei and reticular 24
formation

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Brainstem -
Metencephalon (ventral)– Pons

External anatomy - Ventral view
Basilar sulcus – (basilar artery)
Pons (14) – transverse pontine
fibers Dyce, 2018

Cranial nerves V

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Brainstem -
Metencephalon (ventral)– Pons

Transverse pontine fibers (14)
Arise from contralateral pontine
nuclei
Run along the ventral surface of
the pons and form the Dyce, 2018
contralateral middle cerebellar
peduncle
Part of the pre-cerebellar system
Receives input from cerebral
cortex and sends to cerebellum

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Brainstem -
Metencephalon (ventral)– Pons

Trigeminal nerve (CN V)
Origin in the lateral region of the
pons
Afferent neurons:

Spinal tract of the trigeminal nerve – nucleus of the
spinal tract of V (medulla): nociception and temperature Somatic efferent neurons:
from the head
Motor nucleus of the trigeminal nerve (pons):
Pontine sensory nucleus of the trigeminal nerve (pons): Axons form a motor root that joins the mandibular
discriminative touch from the head nerve from the trigeminal nerve.
Innervate muscles of mastication.
Nucleus of the mesencephalic tract of V
(mesencephalon): proprioception from the head
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Brainstem -
Myelencephalon –
Medulla oblongata

Medulla oblongata
Located in the fossa medullae oblongata, dorsal to the Dyce, 2018

basioccipital
Dorsally contact with the cerebellum (metencephalon)
Rostrally contact with the pons (metencephalon)
Caudally continuous with the spinal cord
the border between the two is arbitrarily defined as the
transverse plane just rostral to the first cervical nerves.
Its rostral part is widened as the result of an
accumulation of nuclei; and the central canal of the
spinal cord opens into the fourth ventricle Dyce, 2018

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Brainstem -
Myelencephalon – Medulla oblongata
Functions:
Coordinates respiration and circulation (together with higher centres of the córtex)
Nuclei of cranial nerves (VI to XII)
Nuclei for several reflexes:
protection of the eye (palpebral reflex, lacrimal secretion)
upper respiratory tract (sneezing and coughing)
food intake (suckling, swallowing)
Nerve fibres extending between the different nuclei form the basis of central reflex arcs.

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Brainstem -
Myelencephalon –
Medulla oblongata
External anatomy - Ventral view
Ventral median fissure
Trapezoid body (15)
Pyramids (pyramidal tract) (17) Dyce, 2018

Pyramidal decussation, level of (18)
Cranial nerves VI to XII

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Brainstem -
Myelencephalon –
Medulla oblongata
Pyramids (17) – prominent longitudinal
bulge on the midventral surface of the
medulla oblongata.
pair of descending motor tracts on the
ventral medulla oblongata, with origin
in the cerebral cortex.
they descend as part of the internal
capsule, form the crus cerebri ant the
ventral midbrain, run through the
pons, and reappear to form the
pyramid.
Axons within the pyramids go to:
the medulla oblongata (corticonuclear
and corticoreticular axons)
the spinal cord (corticospinal axons)
The axons synapse on interneurons
that regulate both efferent neurons
(motor units) and projection neurons
(cranial projecting pathways)

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Brainstem -
Myelencephalon –
Medulla oblongata
Trapezoid body (15) – large band of transverse fibers on the
ventral surface of the rostral medulla oblongata, caudal to the
ventral pons and lateral to the rostral end of the pyramids.
Auditory fibers (axons) primarily from the ventral cochlear
nucleus and the dorsal nucleus of the trapezoid body.
is part of the pathway projecting auditory stimuli rostrally
(both sides of the brain) and terminate in:

Dorsal nucleus of the trapezoid body (majority): prominent
immediately dorsal to the trapezoid body with encapsulated
appearance. Important in sound localization and it triggers
reflex contraction of middle ear muscles

Ventral nuclei of the trapezoid body (minority): neuronal cell
bodies scattered among the axons of the trapezoid body

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Sensory receptors (spiral organ) exist in
the cochlea (modiolus) in the inner ear

afferent neurons ends in the Spiral
ganglion (sensory ganglion).
Axons of the cochlear component of the
vestibulocochlear nerve

synapse within the dorsal and ventral
cochlear nuclei (2) located on the dorsal
surface of the brainstem

second-order axons from the ventral
cochlear nucleus then proceed to synapse
within either an ipsilateral or a group of axons travels to and caudal cerebellar peduncle
(for the auditory reflexes –
contralateral nucleus of the trapezoid (3) synapses within the caudal colliculus e.g. movements of the ears
(6) - towards the sound)

The pathway is then continued by axons
of third-stage neurons carried within the
group of axons, (conscious perception of
lateral lemniscos (4)
sound), synapse in the medial geniculate
nucleus of the thalamus (7), which in turn
sends axons to the auditory córtex (9),
located within the temporal lobe.

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Brainstem -
Myelencephalon –
Medulla oblongata
Pyramidal decussation (18) –
ventrocaudal medulla oblongata at the
spinomedullar junction – where the
pyramids become less prominent.
Most corticospinal axons (75% in the
Pyramidal decussation
dog) turn dorsally and cross the
midline (pyramidal decussation) to Lateral corticospinal tract
reach the dorsal half of the
contralateral lateral funiculus, where Ventral corticospinal tract
they project caudally as the lateral
corticospinal tract. Dyce, 2018
A minority of axons delay decussation
until they terminate in spinal gray
matter; these run in the ipsilateral The decussation of pyramidal axons and other
lateral corticospinal tract or in the caudally projecting tracts explains why one side of the
ventral funiculus as the ventral
corticospinal tract. brain controls voluntary movement on the
contralateral side of the body.

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Brainstem -
Myelencephalon – Medulla oblongata
External anatomy - Lateral view
Cranial nerves VI to XII

External anatomy – Medial view
Caudal part of the fourth ventricle (27´´´)

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Brainstem -
Myelencephalon –
Medulla oblongata
External anatomy – Dorsal view
Emergency of cranial nerve – VIII
Fasciculus gracilis (15) e nucleus gracilis (15´)
Fasciculus cuneatus (14)
Cuneate tubercule (medial cuneate nucleus) (13)
Spinal tract of trigeminal nerve (22)
Superficial arcuate fibers (16)
Median sulcus in fourth ventricule (17)
Medial eminence (18)
Cochlear nucleus (dorsal and ventral) (12)
15´
Sulcus limitans (19) 22
23
Obex (23)
24
Area postrema (24)
Rhomboid fossa

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Brainstem -
Myelencephalon –
Medulla oblongata
Fourth ventricle
Belongs to the ventricular system;
covers the rostral 2/3 of the medulla
oblongata – open part; caudal to this we
have the central canal – closed part
Rhomboid fossa – floor
Median sulcus – divides in two halfs
Sulcus limitans – mark the transition
between the floor and the walls
Tela choroidea – roof
Rostral medullary velum
Caudal medullary velum
Choroide plexus – produce cerebrospinal
fluid

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Brainstem -
Myelencephalon –
Medulla oblongata

Obex (24)
Region where the fourth ventricle
narrows to a point to become the
central canal of the spinal cord.
Lesions at the location can result
in obstructive hydrocephalus
15´
22
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Brainstem -
Myelencephalon –
Medulla oblongata
Internal anatomy
Grey matter nuclei
Nuclei of the cranial nerves VI-XII
Gracillis nuclei
Medial cuneate nuclei
Lateral cuneate nuclei
Olivary nuclei
Solitary tract nucleus
Nucleus ambiguus
White matter tracts
Ascending and descending fiber tracts that The medullary reticular formation is crucial for life as it
connect the spinal cord with higher regions
of the brain contains the vital centers that regulate visceral functions:
Cranial nerves axons. heart rate and blood pressure
Axonal connections with the cerebellum. waking and sleeping
Tract axons traversing or terminating in the
medulla oblongata. breathing
Mixed grey and white matter. swallowing
Reticular formation Medulla oblongata also plays a role in coordinating
locomotion and posture.

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Brainstem -
Myelencephalon –
Medulla oblongata
Area postrema (23)
Densely vascularized (fenestrated
capillaries) grey matter
immediatly adjacente to the
obex.
the CTZ is located in here and his
function an emetic centerin the
medulla oblongata (activated by 23

apomorphine). 22
15´

24

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Brainstem -
Myelencephalon – Medulla oblongata
Fasciculus gracilis (nucleus gracilis) (15´)
narrow tract flanking the dorsal median
sulcus of the caudal medulla oblongata
the fasciculus ascend along the spinal cord
in this position, carrying fiber from the
sacral, lumbar, and lower thoracic (T6-T13)
dorsal roots.
terminates in the nucleus gracilis
receives and relays information from
specialized touch, pressure, vibration and
joint receptors from the pelvic limbs and
caudal trunk.
axons from neurons in the nucleus gracilis
decussate in the deep arcuate fibers and 15´
travel rostrally as part of the medial
lemniscus to the contralateral thalamus
and somatosensory cortex (conscious
proprioception).

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Brainstem -
Myelencephalon – Medulla oblongata
Fasciculus cuneatus(14)
On the dorsal aspect of the caudal
medulla oblongata, lateral to the
fasciculus gracilis.
formed by long ascending fibers from
upper thoracic (T1-T5) and the cervical
spinal cord.
terminates in the nucleus cuneatus (13)
receives and relays information from
specialized touch, pressure, vibration and
joint receptors from the thoracic limbs and
cranial trunk.
Axons from neurons in this nucleus 15´
decussate in the deep arcuate fibers and
travel rostrally as part of the medial
lemniscus to the contralateral thalamus
and somatosensory cortex (conscious
proprioception).

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Brainstem -
Myelencephalon – Medulla oblongata

Superficial arcuate fibers (16).
On the dorsal medulla oblongata rostral
to the rostral end of the spinal tract of
the trigeminal nerve
mediate proprioception from the
thoracic limbs to the cerebellum
origin from the lateral cuneate nucleus
(12)
receives and mediate proprioceptive
input from the thoracic limb and neck via
the fasciculus cuneatus.
This fibers merge with the dorsal
spinocerebellar tract (mediates
proprioception from the trunk and pelvic
limb) to form the caudal cerebellar
peduncle (10)
15´
subconscious proprioception

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Brainstem -
Myelencephalon – Medulla
oblongata

Dorsal spinocerebellar tract
ventral to the spinal trigeminal tract
ascending sensory tract for
proprioception of the trunk and pelvic
limbs to the cerebellum
form the caudal cerebellar peduncle

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Brainstem -
Myelencephalon – Medulla
oblongata

Spinal tract of the trigeminal nerve
groove on the lateral surface of the
medulla oblongata, lateral to the
fasciculus cuneatus
proceeds caudally to end in the medulla
oblongata
part of the trigeminal system – sensory
fibers for pain and temperature of the
face

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Brainstem -
Myelencephalon –
Medulla oblongata
Olivary nucleus
On the caudal medulla oblongata. It is
located dorsolateral to the pyramid and
lateral to the medial lemniscus.
Afferent fibers from the cerebellum, from
the cerebral cortex via the pyramids, and
from the red nucleus and periaqueductal
grey matter (PAG) via the central
tegmental tract, and from the spinal cord.
Efferent axons from the olivary nuclei
decussate and reach the cerebellum via
the caudal cerebellar peduncle.
It has an important function in the
regulation of motor feedback

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Brainstem -
Myelencephalon – Medulla oblongata

Nucleus of the solitary tract

Dorsolateral to the parasympathetic
nucleus of the vagus (X)
Contains axons from vagus,
glossopharyngeal and facial nerves
Conveys afferent information from
stretch receptors and
chemoreceptors in the walls of the
cardiovascular, respiratory, and
intestinal tracts.

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Brainstem -
Myelencephalon – Medulla
oblongata

Nucleus ambiguous
Ventral to the nucleus of the spinal tract
of the trigeminal nerve
Some visceral efferent neurons innervate
the heart
Via vagus (CN X) and glossopharyngeal
(CN IX) nerves, the neurons send axons to
striated muscles of the pharynx, larynx,
and esophagus.
Lesions of nucleus ambiguous results in
nasal speech, dysphagia, dysphonia, and
deviation of the uvula toward the
contralateral side.

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Brainstem -
Myelencephalon –
Medulla oblongata
Cranial nerves nuclei
Nucleus of the spinal tract of the
trigeminal nerve (V)
Motor nucleus of the abducent nerve (VI)
Vestibular and cochlear nuclei of the
vestibulocochlear nerve (VII)
Motor and parasympathetic nuclei of the
facial nerve (VII)
Parasympathetic nucleus of the vagus
nerve (X)
Motor nucleus of the accessory nerve
(XI)
Motor nucleus of the hypoglossal nerve
(XII)

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