Central Nervous System PDF

Summary

This document provides an overview of the central nervous system, detailing various components like the brain, medulla oblongata, pons, midbrain, cerebellum, thalamus, and hypothalamus. It also discusses their functions and interactions.

Full Transcript

CENTRAL NERVOUS SYSTEM
Brain
Receives and processes sensory information, initiates Cerebrum
responses, stores memories, generates thoughts and emotions ◦Left and right hemisphere
Medulla Oblongata ◦Functions: conscious experience of sensation
◦Crucial for life and initiation of voluntary movement
◦Regulates heart rate, blood pressure, breathing, walking, ‣ Extensively folded
sleeping, swallowing ‣ Gyrus = outward fold
Pons ‣ Sulcus = inward fold
◦Influences cortex to maintain consciousness and alertness ‣ Fissure = deep sulcus
◦Regulation of posture, locomotion, and visceral function ◦Structure
◦Provides pathway for nerve fibers to relay sensory ‣ Cerebral cortex = mapped according to
information cerebellum cerebral cortex function
Midbrain ‣ White matter = myelinated axons
◦Location of the BRAINSTEM UMN PATHWAYS cerebrum Projection fibers = leave white
◦Subconscious posture and voluntary skilled/learned matter and terminate in basal nuclei,

É
movements brainstem, or spinal cord
Cerebellum
EÉÉÉÉ i mm◦Originate in thalamus and

terminate in cerebral cortex
thalamus
◦Helps synchronizing muscle activity and controlling
hypothalamus midbrainpons medulla
oblongata

equilibrium and eye movement Association fibers = connects
◦Intimate contact with cerebral cortex, brainstem, spinal regions of cerebral cortex within
cord ONE hemisphere
◦Capable of assessing disparities between intended motor Commissural fibers = connects
action and muscular response vortices from R to L
◦Sensory information from skin, joints, muscle, vestibular ‣ Basal Nuclei = cluster of neuron cell
system, visual system bodies graymatter

Thalamus and Hypothalamus Project output via the thalamus into
◦Thalamus = large nucleus that extends into each the supplementary and premotor
hemisphere orvreeerstoitastnemailman cortices
‣ KEY STRUCTURE that preprocesses most Also send output directly to
information reaching cerebral cortex brainstem
◦Hypothalamus = center of homeostasis Inhibitory output - when this stops
‣ Fighting, fleeing, feeding, sex working a motor system become
‣ Coordinates adenohypophysis, heart rate, blood active that is not supposed to
pressure, body temp, water balance, food intake,
circadian rhythm, gonadal function, and emotions
‣ Secretes = GnRH, TRH, CRH, GHRH, PTH,
somatostatin
 Cerebral Cortex
6 separate horizontal layers parallel to surface of cortex
Different columns organized into functional areas raga lobe
occipital

Primary cortical sensory areas = areas that receive area
say

i
sensory signals from CNS premotor

◦Parietal Lobe = somatic sensory area; pain
processing
◦Temporal Lobe = auditory + vestibular area olfactory
bulb
◦Frontal Lobe = primary motor and premotor cortex
◦Occipital Lobe = visual interpretation
Spinal Cord
◦Olfactory = olfactory bulb; sense of smell
Protected by vertebral column
Motor cortex = gives rise to PYRAMIDAL TRACT
Transverse section of spinal cord is tubular with a
◦Primary motor area = muscle activation
small central canal filled with CSF
◦Premotor frontal cortex: plan and organize the
OUTSIDE = white matter
sequence of movement oppositeofthebrain
INSIDE = gray matter
◦Supplementary motor cortex: preparatory
Sensory signal travels to 2 separate destinations
orientation of the body to execute a particular motor
◦Gray matter or higher levels
task
Sensory info enters cord DORSALLY
Association areas = learning and intelligent behavior
Motor info enters cord VENTRALLY
◦Integration and interpretation of information
◦Integrate sensory inputs, memory, and behavior
centers to produce a specific learned output

SPINAL NERVES
36 PAIRS
Communicate the spinal cord with sensory receptors, i
i
muscles, viscera, and vessels
cervical
in
tumescence

i coay
Each segment gives rise to paired spinal nerves
Exit vertebral canal via the lateral vertebral foramen of thei
atlas or via intervertebral foramen
Neurons innervating the limbs are confined to cervical and
lumbar INTUMESCENCES
Fibers:
Structure: IIa
i
man afferent efferent

i.i ◦Somatic sensory = enter DORSAL root

ii
e
◦Root = dorsal and ventral
ion i.s ◦Visceral sensory = enter DORSAL root
◦Main trunk
◦Somatic motor = exit VENTRAL root
‣ Gives off dorsal communicating branch —>
◦Visceral motor = exit VENTRAL root
sympathetic trunk
◦Peripheral branches
 PERIPHERAL NERVOUS SYSTEM
Sensory/Afferent
Motor/Efferent
Brings information to the CNS from receptors in
Carries motor commands from CNS to peripheral
peripheral tissues and organs
tissue and systems
Visceral Sensory: provides information about internal
Somatic Motor: controls skeletal muscle
organs (visceral receptors + sensory neurons)
contraction (voluntary control)
Somatic Sensory: provides information about
Visceral Motor: provides autonomic regulation of
position, touch, pressure, pain, and temperature
smooth muscle, cardiac muscle, glands and
(somatic receptors + sensory neurons)
adipose tissue (involuntary control)
Receptors
◦Sympathetic = fight or flight
◦Axon project via cranial and spinal nerves into
◦Parasympathetic = rest or digest
CNS
Neurons
◦Make connections with local circulatory for reflex
◦Upper Motor Neuron = completely
functions or travel in cord to specific areas of
this
c oncept contained inside CNS
brain back
comes
◦Lower Motor Neuron = cell body in CNS
◦Free Nerve Endings: unmyelinated axons
and axons in PNS
◦Complex Receptors: enclosed nerve ending
with layers of connective tissue to feel pressure
◦Special Senses Receptors: receptors with hair
in auditory/vestibular system CRANIAL NERVES
Neurons
12 PAIRS
◦Primary (first-order) = receive signal and send
receptor
stoner Most arrive in the brainstem
information to CNS
Individual nerves have specific
spinaicora
orbrainstem

◦Secondary (second-order) = conduct impulses order
and
sensory and/or motor, somatic
from spinal cord to brainstem to thalamus
and/or autonomic functions
thalamus

‣ Cross over to opposite side before reaching
sraorder
a somatosensory
cortex Useful to group by function
thalamus nutnorder

withinas
◦Tertiary (third-order) = conduct impulses from
thalamus to primary somatosensory cortex
◦Quaternary (fourth-order) = located in
sensory area of cerebral cortex