Neurophysiology II: Functional Anatomy of the Brain and Spinal Cord (CNS) Lecture 3 PDF

Summary

This lecture presentation covers the functional anatomy of the brain and spinal cord, including learning objectives and detailed descriptions of various brain regions (cerebrum, cerebellum, diencephalon, brain stem). It also explains topics like the cerebrospinal fluid (CSF), blood-brain barrier, and cranial/spinal nerves. Discusses the structure and function of the central nervous system for a possible undergraduate course in biology or neuroscience.

Full Transcript

Neurophysiology II:
Functional Anatomy of the
Brain and Spinal Cord (CNS)

ANSC 3080 G. Bedecarrats
 Learning Objectives

 Describe the primary structure of the brain and
spinal cord
 Understand the structure/function of the central
nervous system
 Organization of the CNS
Brain
Cerebrum (Forebrain)
Diencephalon (thalamus, hypothalamus)
Cerebellum
Mesencephalon, Pons, Medulla oblongata (brain stem)
Spinal cord
 Task of the CNS
 Receives continuous flow of information
 From outside and inside the body
 Analyzes and interprets the information
 Makes sense of the internal and external info
 Sends commands to the body to:
 Maintain function of vital systems and organs
 Respond to external environment
 What sequence of events would be required for a horse
to jump a fence?
 Although very complex, the brain can be organized by
structural (anatomical) features and function
Meninges and Cerebrospinal Fluid
Meninges:
 3 layers surrounding the brain and spinal cord
 Outer meninx = dura mater (thick, tough)
 Supports the brain
 Inserted between cerebral hemispheres
 Forms the venous sinus, collects most of the blood and
cerebrospinal fluid from the brain
 Middle meninx = arachnoid
 Inner meninx = pia mater, tightly attached to the neural
tissue
 Between arachnoid and pia mater is the sub-arachnoid
space (filled with cerebrospinal fluid)
Cerebrospinal fluid (CSF):
 Formed by capillaries of specialized areas of the pia mater
called choroid plexus
 Circulates from the brain’s ventricles down to the central
canal of the spinal cord
 Diffuses from 4th ventricle to the subarachnoid space and
circulates around the brain and the spinal cord
 Drained into venous sinus before entering blood circulation
 Roles:
 Provides nutrients to the CNS
 Protection (shock absorber)
 Ionic concentration ideal for optimum neuronal function
 Blood- CSF barrier: at choroid plexus, uptake of nutrients and
drugs into CSF
Blood-Brain Barrier

 NO CELLS or PROTEINS, low amino acids, only liposoluble
substances (such as gases) can diffuse
 Cerebrum

Cerebral cortex (grey matter)
 Acquired late in evolution, most superficial layer
 Responsible for the conscious experience of sensory
input
 Site of high nervous association
 Marked by a high degree of educability
 Primary cortical areas have been mapped (mainly in
humans)
 (somesthetic)

Based on anatomical structure Based on response to stimulation
Areas without define reactions = association cortex
Neocortex: most complex part of the cerebrum
Rhinencephalon = olfactory brain
Mesencephalon = processes visual info in birds (part of the midbrain)

FYI
Representation of body parts
in the somatosensory cortex

Representation of body parts
in the motor cortex

Equivalent representation of
body parts in the
somatosensory cortex of the
rabbit and cat
White matter:
 Beneath the cortex, composed of myelinated nerve fibers
 Includes:
 Association fibers between parts of the cortex
 Commissural fibers between the two hemispheres
 Projection fibers: connect cortex to other brain structures and
spinal cord
Basal nuclei:
 Deep within the cerebrum (close to the thalamus)
 Paired nuclei composed of large pools of neurons
 Control complex semi-voluntary movements (walking, running)
 Work in conjunction with the cortex and cerebellum
 In birds, also control voluntary movements
 Cerebellum
 Not involved in consciousness and sensation but…
 Receives information from the inner ear (equilibrium),
proprioceptive receptors (muscles, tendons and joints), and
cortex (visual and motor)
 Main role is to prevent distortion of intended movement
 Receives info regarding the status of the body, intended
movement, and makes adjustment for a smooth completion
 Corrective signals are sent via the thalamus to the cortex
and spinal nuclei commanding the muscles
 Well developed in animals requiring precise adjustment for
locomotion (air, ground, water)
 Diencephalon
 Also called inter brain = hypothalamus, thalamus, and
epithalamus
 Thalamus = relay station for sensory information,
cerebellum and basal ganglia, and the cerebral cortex
 Epithalamus = contains olfactory correlation center and
the pineal gland
 Hypothalamus:
 Produces neuropeptides that control the anterior pituitary
 Produces neurohormones released by the posterior pituitary
 Principal regulator of autonomic nervous system; with the brain
stem, it is the most important region for the control of
homeostasis
 Brain Stem
Includes nuclei that govern body function by reflexes
Also contains large amount of white matter (conveyers)
Mesencephalon:
 Visual reflex center:
receives visual info,
controls eye movement
(for focus)
 Auditory reflex center:
turn head for noise
 In birds, well developed
to process visual info
 Most mammals’
midbrain very small,
covered by cortex
Pons and Medulla Oblongata:
 Contain center for postural reflexes (hopping,
righting, placing)
 Control respiratory movements
 Medulla oblongata crucial for control of:
 Heart activity
 Blood pressure
 Relative distribution of blood to organs
 Cranial Nerves
 12 pairs
 I (olfactory) and II (optic) are the only purely
sensory nerves and remain in the brain
 III – XII all exit from the brain stem and innervate
structures of the head and neck; most are both
sensory and motor (mixed)
 Exception is X = Vagus nerve: most widely
distributed nerve throughout the body (from neck to
abdomen)
 Parasympathetic fibers to visceral structures in the
thorax and abdomen
FYI
 Spinal Cord

 Cervical, thoracic, lumbar, sacral, and coccygeal regions
 Number differs between species
Species C T L S Co
Horse 7 18 6 5 15-20
Ox 7 13 6 5 18-20
Sheep 7 13 6-7 4 16-18
Goat 7 13 7 4 12
Hog 7 14-15 6-7 4 20-23
Dog 7 13 7 3 20-23
Chicken 14 7 14 6
Human 7 12 5 5 4
Central canal Dorsal surface

Dorsal horn

Ventral horn
White matter
Contains myelinated (giving the white
appearance) and unmyelinated nerve fibers
(axons)
Arranged in columns or “tracts”
Grey matter
Contains cell bodies and dendrites
Shaped like a butterfly
Dorsal horn = sensory
Ventral horn = motor (skeletal muscles) and
autonomic fibers
Middle zone = association
From
FOX
Spinal nerves
Entry/exit of neurons from spinal cord
Formed by joined dorsal and ventral roots, which
merge within spinal canal
Number = number of the vertebra they originate from
Emerge from intervertebral foramina
Each spinal segment receives sensory information
from a section of the skin (dermatomes) and sends
information to muscles (myotomes)
Predicts the effect of spinal cord injury
FYI