Module 5 - Central Nervous System PDF

Summary

This document contains lecture slides on the central nervous system. It covers the anatomy and physiology of the brain and spinal cord, including various structures such as the medulla, pons, midbrain, cerebellum, and diencephalon (thalamus and hypothalamus). It also discusses the reticular formation and the limbic system. The slides also mention the pituitary gland and its relationship to the hypothalamus.

Full Transcript

Ch 9. The Central Nervous System
Anatomy of the CNS: Brain and spinal cord
-Separated into gray matter and white matter
Gray: consists of unmyelinated somas, dendrites and axons
White: mainly myelinated axons
Spinal Cord
 Spinal Cord
Major pathways for information flowing back and forth
between the brain and the skin, joints and muscles of the
body
Divided into four regions and each region is further divided
into segments:
– Cervical (8)
– Thoracic (12)
– Lumbar (5)
– Sacral (5)
– Coccygeal (1)

Each segment gives rise to a bilateral pair
of spinal nerves, each nerve splits into
roots
 Spinal cord

Afferent (in)

Nuclei: clusters of cell bodies in CNS
Ganglia: clusters of cell bodies in PNS Efferent (out)
Spinal Cord

Dorsal and external lateral

Ventral and interior lateral
 Spinal reflex
The spinal cord can act as the integrating center to initiate a
response to a stimulus without receiving input from the brain

Particularly important in body movement
 Brain
-Organ providing human species with its unique attributes
-The ultimate emergent property: how do chemical and electrical
signals in neurons lead to complex behaviours
Individual neurons Groups of neurons Complex behaviour
Reductionist (circuits, pathways,
networks)
Brain: 1400g, 1.4 Kg
85 billion neurons, many containing
thousands of synapses

6 major divisions:
1. Cerebrum
2. Cerebellum
3. Diencephalon
4. Medulla
5. Midbrain midbrain
6. Pons
 Brainstem
Oldest and most primitive region of the brain, 4 major regions
-ascending and
descending tracts run
through the brainstem

-contain 11 of 12 cranial
nerves: carry sensory
and motor info for head
and neck (not olfactory
nerve)

-contain many nuclei
(groups of cell bodies)
-involved in many basic processes in the body including arousal and
sleep, muscle tone and stretch reflexes, coordination of breathing,
blood pressure regulation and modulation of pain
 Medulla
-White matter contain all
ascending
somatosensory tracts
and descending
corticospinal tracts

-90% of corticospinal tracts
decussate (crossover) at the
pyramids

-nuclei in the medulla control many involuntary functioning: including
the cardiovascular center and the medullary respiratory center

-contain the vomiting center
-contains the deglutition center (swallowing)
-coughing, sneezing and hiccupping
 Pons and midbrain
Pons: contains nuclei and tracts
-relays information between the
cerebellum and cerebrum
-assists the medulla in the
coordination of breathing

Midbrain (mesencephalon): junction (mesencephalon)
between lower brainstem and
diencephalon (nuclei and tracts)
-primary function is controlling eye
movement
-also relays auditory and visual
reflexes (movement of body in
response to these stimuli)
-contains the substantia nigra
 Reticular formation
-extends throughout the brainstem: small clusters of neuronal cell
bodies interspersed among tracts (ascending and descending)

-important in
consciousness,
arousal, attention -sends sensory
and alertness info to cortex,
filters

-RAS inactivated
during sleep,
damage can induce
coma

-regulates muscle tone,
assists in vital functions
 Cerebellum
-Second largest brain structure
-two cerebellar hemispheres

-processes sensory information and
coordinates the execution of
movement

-sends feedback signals to
motor areas of the cerebral
cortex, via its connections to
the thalamus helping to
correct any errors and smooth
the movements

-regulates posture and balance
 Diencephalon
-lies between the brain stem and cerebrum
-two primary structures:
thalamus and hypothalamus

-two endocrine structures: pineal
gland and pituitary

Thalamus (relay center): receives
sensory info from optic tract,
ears, spinal cord and motor info
from cerebellum and projects
info to cerebrum for processing

Pineal gland- cyclically releases
melatonin involved in sleep/wake
 Diencephalon
Hypothalamus: the
center for homeostasis
-influences autonomic
and endocrine function
 Pituitary
Endocrine output of the hypothalamus

Posterior pituitary is neural tissue

Anterior pituitary is endocrine tissue
Posterior pituitary (neurohypophysis)
Anterior pituitary

Hypothalamic-
hypophyseal portal
system
 Cerebrum
Largest and most distinctive
part of the brain
Gray matter include:
Cerebral cortex, basal
ganglia, and limbic system
Area of higher processing
Two hemispheres divided
into 4 lobes, connected by
corpus callosum
 Basal ganglia (nuclei)
-three nuclei collectively
termed the basal ganglia
(nuclei)
-globus pallidus
-putamen
-caudate nucleus

-major job is regulating the
initiation and termination of
movement

-receives input from cerebral
cortex and provides output
to motor portions of the
cortex
 Limbic system
Limbic system “emotional
brain” plays a primary role in
a range of emotions,
including pain, pleasure,
docility, affection, and anger.

Also believed to play a major
role in learning and memory

3 major components:
Cingulate gyrus
Amygdala
Hippocampus
 Cerebral cortex
-outermost layer of the cerebrum
-integrating center for the CNS Sulci vs gyri

Functionally divided into three specializations:
1. Sensory areas (translate sensory input into perception)
2. Motor areas (direct skeletal muscle movement)
3. Association areas (integrate information from sensory and motor
areas and help direct voluntary behaviours
Each hemisphere is anatomically divided into four lobes
 Cerebral lateralization (dominance)
Distribution of functional areas in the two hemispheres is not
symmetrical

Cortex can
undergo
plasticity