Complete Neuroanatomy for Medical Students and Chiropractic Students

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Complete Neuroanatomy for Medical Students and Chiropractic Students

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Title: Complete Neuroanatomy for Medical Students and Chiropractic Students

1
NEUROANATOMY

IMEC Inc.

2
Neural TransmissionDENTRITES?Axons
3
CNS/PNS Supportive cells

Astrocyte-physical support, repair, K metabolism
Microglia-Phagocytosis
Oligodendrocytes - CNS myelin production
Schwann cells- peripheral myelin production
Ependymal cell- Inner lining of ventricles

4
Glial Cells

Glia are derived from Neuroectoderm
Glial cells are the supporting cells for the
neuron and its cell processes
Astrocytes have round centers and believed to act
as buffers, detoxifiers, and suppliers of
nutrients. They are the principle cells in
neuronal repair
Oligodendrendocytes function for the myelin in
the Central Nervous System
Ependymal cells form a meshwork when injury
happens in the Central nervous system
Microglia function as the CNS Macr0phages

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Yolk Sac
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Neural Tube Development
8
Neural Tube
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Neural Tube

The neuroepithelium produces about
100 million neurons and neuroglial cell
These cells begin in the INNER ependymal layer.
and
These cells migrate from where they are formed in
the mantle layer to the marginal layer
This is essentially all the neural development in
living organisms, only a small amount of neuron
regenerate

10
The Neural Tube

The neural tube , specifically ependymal cells
form much of the spinal chords
The basal plate forms the anterior and lateral
horns
The marginal layer forms the white matter

11
Embryogenisis of Notochord
12
Brain Developement

The cranial end of the neural tube begins to
exhibit a series of swellings along its
longitudal axis at about three weeks of age.
The future begins to develop the
Forebrain
Midbrain
Hindbrain

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Brain Developement

The cranial end (ROSTAL) end of the neural tube
swells
The Telencephalon becomes the Cerebrum,
Cerebellum etc.
The Metecephalon forms the cerebellum
The Diencephalon is engulfed by the surrounding
Telenceohalon the and becomes THALAMUS,
HYPOTHALMUS optic chiasma
The Mesencephalon become the tubular portions of
the inner brain
The Hindencephelon becomes the lumen of the 4th
Ventricle

15
Choroidal plexus

The choroidal plexus is the cerebral spinal fluid
membrane surrounding the Telencephalon

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Brain Wall Developement

The brain wall as you will remember begins with
the Neuroepithelium and the Mantle layer
The future brain wall becomes the Corpus Striatum
Th neopalidium begins to thicken and spread

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BRAIN STEM

Brain stem consists of
PONS
MEDULLA
MID-BRAIN
The foramen magnum is the opening in which where
the spinal chord becomes the brain
The caudate equina begins at the end of the
spinal chordL2

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CRANIAL NERVES

MIDBRAIN
CN 3 and CN 4
PONS
CN 5, CN 6, CN 7, CN 8
MEDULLA
CN 9, CN10, CN 11, CN, 12

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Brain Consistancy

Grey matter consists of the cell bodies of the
neurons,
While white matter consists of the fibers

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Human Brain Structures
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Arachnoid mater

Intermediate one of the three layers of meninges
Arachnoid mater is a thin membrane which is
pressed against the inner surface of the dura
mater by cerebrospinal fluid pressure
The space deep to this layer (subarachnoid space)
has a spider web-like appearance

22
DURA MATER

Outermost of the meningeal layers covering the
brain and spinal cord
Latin for "tough mother" it is the most durable
of the meninges and provides support and
protection for the brain and spinal cord two
types are described which differ in structure
cranial and spinal

23
Cerebrum

The largest portion of the brain, which is
occupies the entire upper portion of the cranium.
The cerebrum is divided into two equal
hemispheres (left and right hemispheres), each of
which in turn is divided into (four lobes).
Cerebrum controls all the mental activity,
voluntary actions, and the sensory factors, each
center being responsible for a specific function
such as sight, hearing, taste, touch, and smell

24
Cerebellum

Is situated at the back of the cranium below the
cerebrum. Partially divided into three lobes, its
chief function is to coordinate muscular
activity.

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Pons

Lies between the cerebral hemispheres, serves
chiefly as a connecting point between the nerve
from different parts of the nervous system and
the nerve fibers which join the various parts of
the brain. It involved in sleeping, waking and
dreaming.

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Medulla

Lies at the base of the brain and is actually
part of the spinal cord. It controls all
involuntary activity, e.g., respiration,
circulation, and digestion. The nerve fibers
passing from the brain to the spinal cord cross
in the medulla, so that nerve centers on one side
of the brain control the movement and sensation
of the opposite side of the body.

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Thalamus

A structure consisting of two egg-shaped masses
of nerve tissue, each about the size of a walnut,
deep within brain. The thalamus receives
information and relays this information to the
cerebral cortex. The cerebral cortex also sends
information to the thalamus which then transmits
this information to other areas of the brain and
spinal cord.

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Thalamic Nuclei
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Medial Geniculate Nuclei
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Lateral Geniculate Nuclei
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Hypothalamus

The hypothalamus, which is a tiny structure at
the base of the brain, regulates many basic
functions, such as eating, sleeping, temperature
control, and reproduction. One part of the
hypothalamus responsible for sexual behavior is
larger in male brains than in female brains.

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Hypothalamus

Light daylength and photo for generating
circadian and seasonal rhythms
Olfactory stimuli, including pheromones
Steroids, including gonadal steroids and
corticosteroids
Neurally transmitted information arising in
particular from the heart, the stomach, and the
reproductive tract
Autonomic inputs
Blood-borne stimuli, including Leptin, Ghrerlin
and insulin to messaging to the , pituitary
hormones, cytokines, plasma concentrations of
glucose and osmolarity etc
Stress
Invading microorganisms by increasing body
temperature, resetting the bodys thermostat
upward.

The corpus callosum is a thick band of fibers
located between the cerebral hemispheres. It
connects right and left hemisphere to allow for
communication between the hemispheres.

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Amygadala

The amygdalae, especially the basolateral nuclei,
are involved in mediating the effects of
emotional arousal.
Also include basic Pavlovian tasks such as
inhibitory avoidance.

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Hippocampus

Part of the brain located inside the temporal
lobe (humans and other mammals have two
hippocampi, one in each side of the brain). It
forms a part of the limbic system and plays a
part in memory and spatial navigation.
In Alzhiemers Dx, the hippocampus becomes one of
the first regions of the brain to suffer damage
memory problems and disorientation appear amongst
the first symptoms.
Damage to the hippocampus can also result from
oxygen starvation.

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Lateral CNs 3 through 6
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Trigeminal Regions
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Facial Nerve CN VII
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Olfactory Nerve
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Auditory System
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Vestibular Nerve Nuclei
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Vestibular Labrinyth
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Nervous System

Within the nervous system
31 pair of spinal nerves
12 pair of cranial nerves
Note that below Thoracic nerve 1 the nerves
present below the vertebrae
Above Cervical Nerve 7 the nerves present above
the vertebrae

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Atlas (C1)

Atlas (C1)
It has no vertebral body, only anterior
posterior arches it articulates with the
odontoid process of the axis (Greek, atlas refers
to a titan who supported the earth on this
shoulders as the atlas vertebra supports the
head)

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Axis (C2)

The second cervical vertebra
The odontoid process (dens) projects superiorly
from its body it articulates with the anterior
arch of the atlas (Latin, the axis provides the
odontoid process which is the pivot about which
the atlas vertebra rotates)

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Cervical Nerves

Cervical Nerves (8 pairs)
These nerves supply the head, neck, shoulders,
arms, and hands.

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8 Cervical Spine
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Vertebra prominens

The seventh cervical vertebra (more properly, the
vertebral spine of C7)
It has a long, non-bifid spinous process which is
prominent at the nape of the neck, hence its name

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Brachial Plexus

The brachial plexus is an arrangement of nerve
fibres (a plexus) running from the spine
(vertebrae C5-T1), through the neck, the axilla
(armpit region), and into the arm. The brachial
plexus is responsible for cutaneous and muscular
innervation of the entire upper limb, with two
exceptions the trapezius muscle innervated by
the spinal accessory nerve and an area of skin
near the axilla innervated by the
intercostobrachialis nerve. Therefore, lesions
of the plexus can lead to severe functional
impairment.

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Brachial Plexus
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Thoracic Nerves

Thoracic Nerves (12 pairs)
Connects portions of the upper abdomen and
muscles in the back and chest areas.

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12 Thoracic Spine
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5 Lumbar Spine

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Lumbar Nerves

Lumbar Nerves (5 pairs)
Feeds the lower back and legs.

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LUMBAR VERTEBRA
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Sacral Nerves

Sacral Nerves (5 pairs)
Supplies the buttocks, legs, feet, anal and
genital areas of the body.

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5 Sacral Spine

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1 Coccygeal

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Caudate Equina

The sacral portion of the spinal cord ends at the
Caudate Equina.
This is a area in which has many branches into
the region

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Spinal Cord Disks
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Dermatomes

Dermatomes
Areas on the skin surface supplied by nerve
fibers from one spinal root.

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Nerve Pathways

There are many nerve pathways that transmit
signals up and down the spinal cord. Some supply
sensation from the skin and outer portions of the
body. Others supply sensation from deeper
structures such as the organs in the belly, the
pelvis, or other areas. Other nerves transmit
signals from the brain to the body. Still others
work at the level of the spinal cord and act as
"go betweens" in the signal transmission process.

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Upper Motor Neuron

The upper motor neuron refers to injuries that
are above the level of the anterior horn cell.
This results in a spastic type of paralysis.

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Lower Motor Neuron

Lower motor neuron injury refers to an injury at
or below the anterior horn cell that results in
the flaccid type paralysis.

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Spinothalmic Tract

The tracts that carry sensations of pain and
temperature to the brain are in the middle part
of the spinal cord. These tracts are called the
"spinothalamic."

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Dorsal Columns

These nerve impulses are carried along the back
part of the spinal cord in what are called
"dorsal columns" of the spinal cord transmitting
position and light touch

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Autonomic Function
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Parasympathetic Nerves

The parasympathetic nerves act in an opposite
manner to the sympathetic nerves. These nerves
tend to dilate blood vessels and slow down the
heart. The most important nerve that carries
sympathetic fibers is the vagus nerve. This nerve
carries parasympathetic signals to the heart to
decrease heart rate. Other nerves supply the
blood vessels to the organs of the abdomen and
skin.
The parasympathetic nerves arise from two areas.
Upper and Lower

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Sympathetic Nerves

The sympathetic nerves also cause constriction of
the blood vessels throughout the body. When this
happens, the amount of blood that is returned to
the heart increases. These effects will increase
blood pressure. Other effects include an increase
in sweating and increased irritability or a
sensation of anxiety.
When spinal cord injury is at or above the T6
level the sympathetic nerves below the injury
become disconnected from the nerves above.

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Syringomyelia

A post-traumatic enlargement of the central canal
of the spinal cord is termed syringomyelia. It
occurs in approximately 1-3 of all spinal
cord-injured individuals. The primary risk of
syringomyelia is a loss of function above the
level of the original spinal cord injury. For
example, in a patient with a thoracic-level
spinal cord injury may complain to his or her
physician of numbness and weakness involving the
extremities.

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Oculomotor Palsy

Loss of Medial Gaze in Right Eye

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Eye Pathways

Ciliary Reflex
Ciliary Ganglion
Occulomotor
Occulomotor
Occulomotor
Lat Gen Nuc
Edinger-West
Edinger-west
Periquaductal
Pre-tect

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Eye

CN 7 CLOSES EYE
CN 3 PILLAR EYE OPEN

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4th Nerve Palsy-SO4
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6th Nerve Palsy-LR6
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Edinger-Westphall _at_ (CN11)
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OLFACTORY BULB
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RETICULAR/VESTIBULARNUCLEUS
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BLOOD BRAIN BARRIER

Choroid plexus
Intercerebral capillaries
Arachnoid
CIA

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Blood Brain Barrier of Astrocyte
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BLOOD SUPPLY

There are two main pairs arteries in the brain
Two internal carotid arteries
Splits into MCA and ACA
Two vertebral arteries
Otherwise called Basilar Arteries at pons
Posterior cerebral at cerebellum

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BLOOD SUPPLY

Middle Cerebral Artery (MCA)
MCA OCCUSION IS UPPER BODY
4 direct/6 indirect branches
Anterior Cerebral Artery (ACA)
ACA OCCLUSION IS LOWER BODY
Posterior Cerebral Artery (PCA)
Posterior Inferior Cerebellar Artery (PICA)
Feeds must of the cerebellum
LOOK AT HAL (Head, Arms, Legs)
Next slide

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THE CIRCLE OF WILLIS

8 branches of intrancranial arteries from the
AORTA
MS-----------medial striate
LS------------lateral striate
Ach----------anterior choroidal
IC------------internal carotid
EC-----------external carotid
CC-----------common carotid
V-------------vertebral
S--------------subclavian

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THE CIRCLE OF WILLIS

The Circle of Willis is fed by the
BASILAR ARTERY
Which if obstructed would lead to total blindness
VERTEBRAL ARTERY
No deficit because other vertebral would
compensate

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Contrast Media to Brain

If media is place on the right side via the right
brachial to right subclavian route at the level
of the right vertebral
FRONT AND BACK CEREBRAL
If media is placed in the left side only
posterior circulation, since the left common
carotid comes directly from the aorta
POSTERIOR CIRCULATION

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VEINS

NO COUNTERPART TO WILLIS
SINUSES
SUPERIOR SAGITTAL SINUS
DRAINS SPINAL FLUID
CAVEROUS SINUS
EYE, PERIORBITAL AND FACIAL
INFERIOR SAGITTAL SINUS
IN FALX CEREBRA
STRAIGHT SINUS
IN TENTORIUM OF CEREBELLI
TRANSVERSE SINUS
CEREBELLI

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HEMORRHAGES (P.A.D) pia/arachnoid/dura

Sub-arachnoid hemorrhage
Sub-dural hemorrhage is tearing of bridging
vein---more of an oozing
Epidural hemorrhage- very serious as with the
MCA-Coincides many times with skull fracture and
shifting
PCA is most frequently damaged with severe
seizure activity

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Epidural Hematoma
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INTRAPARENCHTMAL HEMORRHAGE (possible MCA)
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CSF

The walls of ventricle contain choroid plexus,
which secrete CSF
CSF flows from two lateral ventricles through the
two intraventicular foramen into a single third
ventricle
From there it travels though the adaeduct of
Sylius to the 4th ventricle
There is travel through one of 3 openings
a middle foramen of Magendie and
two foramen of Luschka entering the subarachoid
space
OBSTRUCTION OF THIS PATHWAY LEADS TO
HYDROCEPHALUS

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HYDROCEPHALUS
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BLOCKS

Saddle block- S2
Lumbar block-L2
CSF dram _at_ FMg, base of skull

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Zones

AREAS (44-45) BROCAs SPEECH AREA
AREA (3, 2, 1)Primary SOMATIC-Contralateral
impairment of , touch, pressure, and
proprioception
AREA (41, 42)---auditory area (unilateral) bilat
usually CN 8
AREA (22)---auditory aphasia, speaks babble
AREA (40)association tracts, body image
AREA (39)read and write (alexia and agraphi)
AREA (17, 18, 19) total destruction blindness
also object recognition
AREA 8frontal eye field-voluntary opposite side
AREA 4---Primary motor, flaccid paralysis,
possible Babinski reflex
AREA 6 Supplementary motor, spacticity, inc deep
tendon reflex

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CRANIAL NERVES
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CRANIAL NERVES

On-------------------?Olfactory
Old------------------?Optic
Olympus------------?Oculomotor
Towering-----------? Trochlear
Tops-----------------?Trigeminal
A---------------------?Abducens
Finn------------------? Facial
And------------------? Vestibulocochlear
German-------------? Glossopharygeal
Viewed--------------? Vagus
Some----------------? Accessory
Hops-----------------? Hypoglossal

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CRANIAL NERVES Motor or sensory

Some-------------------------CN 1 OLFACTORY
Says--------------------------CN 2 OPTIC
Make ------------------------CN3 OCULOMOTOR
Money-----------------------CN4 TROCHLEAR
But ---------------------------CN5 TRIGEMINAL
My----------------------------CN6 ABDUCENS
Brother-----------------------CN7 FACIAL
Says---------------------------CN8
VESTIBULOCOCHLEAR
Big----------------------------CN9
GLOSSOPHARNYGEAL
Breasts------------------------CN10 VAGUS
Matter-------------------------CN11 ACCESSORY
Most---------------------------CN12 HYPOGLOSSAL

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Medullary Blood Supply
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Types of Respiratory Patterns

Periodic breathing
Consider abnormal (10-20 second pauses)
Cheyne-Stokes
Cerebral brain damage (starts and stops)
Apneustic
Occurs at pons, shuts off insp ramp
Apnea
Pauses in breathing greater than 20 seconds
Kussmaul
At MIDBRAIN, can be seen in keto-acidosis,
Very fast, deep, regular breathing

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PATHWAYS
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Cervical to lumbar
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Basal Ganglia
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Basal Ganglia Disorders

Parkinsonism- degeneration of basal ganglia and
substantia nigra
Ridgidity,
mask-like face
shuffling gait,
Chorea
Sudden Jerky Movements
Syndhams found with rheumatic fever
Huntingtons found as inherited disorder
Athestosis
Slow snakelike movements in fingers and wrists
Hemiballismus
A sudden wild flail-like movement in one arm

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THALAMUS
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Functions of Thalamic Nuclei

Lateral geniculate-
Visual
Medial geniculate
Auditory
Ventral posterior nucleus
Body senses (pain, touch,properioception,
vibration)
Ventral posterior nucleus
Facial sensation (including pain)
Ventral anterior/lateral
Motor

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Coronel section
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Cerebellum
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Cerebellar Disorders

ATAXIA-Awkward gait.
Overshooting a goal in mechanical movement
Inability to do rapid alternating movements
Irregularily spaced speech
Decreased tendon reflex
Asthenia-Muscle tire more easily
Tremor-usually an intention tremor
Nystagmus

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DIENCEPHALON
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Hypothalamus Lesions

Can cause HYPERPHAGIA, INCREASED CSF, VISUAL
PROBLEMS, THIRST, CHANGE IN TEMPERATURE

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Hypothalamus

Posteriorconserves body heat
Suprachiasmic- circadian rhythm
Ventramedial- (hunger)
Septate nuclei- sexual urges
Mammilary body- memory
Anterior- cool down, (autonomic regulation)
PARAMYPATHETIC
Para ventricular nucleus-
ADH, oxytocin
Supraoptic-
ADH, oxytocin (THIRST AND WATER )

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Papez circuit
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Neuro-transmitters