Anatomy Lec Nervous System PDF

Summary

This document is a lecture on the nervous system, covering the functions, structural classification, and different aspects including the central nervous system (CNS) and the peripheral nervous system (PNS). The material provides a broad overview of the anatomy and physiology of the nervous system, including discussion of neuron structure and function.

Full Transcript

ANAPHY LEC NERVOUS SYSTEM
The Nervous System Nervous Tissue: Support Cells
Functions of the Nervous System Functions of the (Neuroglia)—glia
Nervous System
Sensory input– gathering information a) Astrocytes
To monitor changes occurring inside and outside ▪ Abundant, star-shaped cells
the body ▪ Brace neurons
Changes = stimuli ▪ Form barrier between capillaries and neurons
Integration and make exchanges between the two
To process and interpret sensory input and decide ▪ Control the chemical environment of the brain by
Integration if action is needed capturing ions and neurotransmitters
Motor output
A response to integrated stimuli
The response activates muscles or glands

Structural Classification of the Nervous System

Central nervous system (CNS)
▪ Brain and Spinal cord
▪ Acts as integrating and command center– b) Microglia
interpret incoming sensory information and issue ▪ Spider-like phagocytes
instructions incoming sensory information and ▪ Dispose of debris dead cells and bacteria
issue instructions based on past experiences and
current conditions
Peripheral nervous system (PNS)
▪ Nerves outside the brain and spinal cord
▪ Link all parts of the body by carrying impulses
to the CNS and back
c) Ependymal cells
Functional Classification of the Peripheral Nervous ▪ Line cavities of the brain and spinal cord
System ▪ Circulate cerebrospinal fluid with cilia

Sensory (afferent) division
Nerve fibers
that carry
information d) Oligodendrocytes
to the ▪ Wrap their flat extensions tightly around the
central nerve around the nerve fibers
nervous ▪ Produce myelin sheath around nerve fibers
system in the central nervous system

Motor (efferent) division
Nerve fibers that carry impulses away from the
central nervous system
Two subdivisions
a) Somatic nervous system = voluntary nervous
nervous system
▪ Skeletal muscle reflexes such as stretch e) Satellite cells
reflex are initiated involuntarily by same fibers ▪ Protect neuron cell bodies
b) Autonomic nervous f) Schwann cells
system = involuntary ▪ Form myelin sheath in the peripheral nervous
nervous system system system
▪ Sympathetic and g) Neuroglia are not able to transmit nerve impulses but
parasympathetic do not lose their ability to divide, unlike neurons
divisions
Organization of the Nervous Nervous Tissue: Neurons
System
Neurons = nerve cells
▪ Cells specialized to transmit messages
Major regions of neurons
▪ Cell body– nucleus and metabolic center of the
cell
▪ Processes– fibers that extend from the cell
body
ANAPHY LEC NERVOUS SYSTEM
Neuron Anatomy Functional Classification of Neurons Functional
a) Sensory (afferent) neurons
▪ Cell bodies in a ganglion outside the CNS
▪ Carry impulses from the sensory receptors to
CNS
o Cutaneous (skin) sense organs
o Proprioceptors– detect stretch or tension
in muscles, tendons, joints
b) Motor (efferent) neurons
▪ Cell bodies found in the CNS
▪ Carry impulses from the central nervous system
c) Interneurons (association neurons)
▪ Found in neural pathways in the central nervous
system
o Cell bodies in the CNS
Cell body --------------------------------------- ▪ Connect sensory and motor neurons
▪ Nissl substance
specialized rough endoplasmic reticulum
▪ Neurofibrils
intermediate cytoskeleton that maintains cell
shape
▪ Nucleus
▪ Large nucleolus
Extensions outside the cell body-------
▪ Dendrites
conduct impulses toward the cell body
▪ Axons
conduct impulses away from the cell body
Structural Classification of Neurons Structural
Axons and Nerve Impulses
Multipolar neurons– many extensions from the cell body
❖ Axons end in axonal terminals
❖ Axonal terminals contain vesicles with
neurotransmitters
❖ Axonal terminals are separated from the next
neuron by a gap
▪ Synaptic cleft– gap between adjacent neurons
▪ Synapse– junction between nerves Bipolar neurons– one axon and one dendrite
✓ Rare in adults– in eye and ear only
Nerve Fiber Coverings

❖ Schwann cells
o produce myelin
sheaths in jelly-roll
like fashion Unipolar neurons– have a short, single process leaving
❖ Nodes of Ranvier from the cell body
o gaps in myelin sheath ✓ Axon conducts nerve impulses both to and from
along the axon the cell body

Neuron Cell Body Location

Most are found in the central nervous system in clusters
called nuclei
Bundles of nerve fibers in CNS = tracts
✓ Gray matter– cell bodies and unmyelinated
Functional Properties of Neurons
fibers
Two main functions impulse
✓ White matter– myelinated fibers
Irritability– ability to respond to stimuli
Bundles of nerve fibers in PNS = nerves
Conductivity– ability to transmit an impulse
Ganglia– collections of cell bodies outside the central The plasma membrane at rest is polarized
nervous system
Fewer positive ions (usually K+) are inside the cell than
outside the cell (usually Na+)
 ANAPHY LEC NERVOUS SYSTEM
Starting a Nerve Impulse The Reflex Arc
Reflex– rapid, predictable, and involuntary responses
1) Depolarization– a stimulus to stimuli
depolarizes the neuron’s Reflex arc– direct route from a sensory neuron, to an
membrane interneuron, to an effector
2) A deploarized membrane allows
sodium (Na+) to allows sodium
(Na) to flow inside the membrane
3) The exchange of ions initiates an
action potential (nerve impulse) in
the neuron
The Action Potential

If the action potential (nerve impulse) starts, it is
propagated over the entire axon– all-or-none response
Potassium ions rush out of the neuron after sodium
ions rush in, which repolarizes the membrane
membrane
The sodium-potassium pump restores the original
configuration
This action requires ATP
Until repolarization occurs, a neuron cannot conduct Types of Reflexes and Regulation
another impulse
a) Autonomic reflexes
Nerve Impulse Propagation ▪ Smooth muscle regulation
▪ Size of eye pupils
The impulse continues to ▪ Heart and blood pressure regulation
move toward the cell body ▪ Regulation of glands and sweating
Impulses travel faster ▪ Digestive system and elimination regulation
when fibers have a myelin b) Somatic reflexes
sheath ▪ Activation of skeletal muscles
Nerve impulse literally Reflex arcs have a minimum five elements
jumps from node to ▪ A sensory receptor– reacts to stimuli
node because it cannot ▪ An effector receptor– muscle or gland
cross myelin insulation stimulated
▪ Afferent and efferent neurons connecting the two
Continuation of the Nerve Impulse between Neurons ▪ The CNS integration center
▪ Impulses are unable to cross the synapse to
another nerve Central Nervous System (CNS)
▪ Neurotransmitter is released from a nerve’s axon CNS develops from the embryonic neural tube– a
terminal simple tube
▪ The dendrite of the next neuron has receptors that are ▪ The neural tube becomes the brain and spinal cord
stimulated by the neurotransmitter ▪ The opening of the neural tube becomes the
▪ An action potential is started in the dendrites of the ventricles
next neuron Four chambers within the brain
▪ Transmission of an impulse is an electrochemical Filled with cerebrospinal fluid
event
Regions of the Brain
How Neurons Communicate at Synapses ▪ Cerebral hemispheres
▪ Diencephalon
▪ Brain stem
▪ Cerebellum
ANAPHY LEC NERVOUS SYSTEM
Cerebral Hemispheres (Cerebrum) Specialized Area of the Cerebrum
▪ Paired (left Cerebral areas involved in special senses
and right) Gustatory area (taste)
superior Visual area
parts of the Auditory area
brain Olfactory area
▪ Include Interpretation areas of the cerebrum
more than Speech/language region
half of the Language comprehension region
brain mass General interpretation area
▪ The surface
is made of
elevated ridges (gyri) and shallow grooves
(sulci)
Lobes of the Cerebrum
▪ Fissures (deep grooves) divide the cerebrum
into lobes
▪ Surface lobes of the cerebrum– named for
cranial bone over them cranial bone over them
Frontal lobe
Parietal lobe
Occipital lobe Layers of the Cerebrum
Temporal lobe
1) Gray matter
Outermost layer
Composed mostly of neuron cell bodies
Cerebral cortex
2) White matter
Fiber tracts inside the gray matter
Example: corpus callosum connects
hemispheres
3) Basal nuclei → internal islands of gray matter
Helps regulate voluntary motor activities by
modifying instructions sent to the skeletal muscles

Specialized Areas of the Cerebrum Diencephalon—interbrain
▪ Sits on top of the brain stem
❖ Somatic sensory area in parietal lobe- ▪ Enclosed by the cerebral hemispheres
receives impulses from the body’s sensory ▪ Made of three parts
receptors (except special senses) ✓ Thalamus
Occipital lobe– vision and temporal lobe– auditory ✓ Hypothalamus
✓ Epithalamus
❖ Primary motor area– sends impulses to skeletal
muscles– frontal lobe
❖ Broca’s area– involved in our ability to speak– base of
the precentral gyrus

Thalamus
Surrounds the third ventricle of the brain
The relay station for sensory impulses passing
upward to the sensory cortex
Transfers impulses to the correct part of the
cortex for localization and interpretation
ANAPHY LEC NERVOUS SYSTEM
Hypothalamus Cerebellum
Under the thalamus Two hemispheres with convoluted surfaces
Important autonomic nervous system center Provides involuntary coordination of body
✓ Helps regulate body temperature movements– of skeletal muscles, balance
✓ Controls water balance movements– of skeletal muscles, balance and
✓ Regulates metabolism equilibrium
An important part of the limbic system Automatic pilot– continually comparing brain’s
(emotions)– emotional-visceral brain intentions with actual body performance
The pituitary gland is attached to and regulated
by the hypothalamus
Epithalamus
Forms the roof of the third ventricle
Houses the pineal body (an endocrine gland)
Includes the choroid plexus– forms
cerebrospinal fluid
Brain Stem
Attaches to the spinal cord
Parts of the brain stem
o Midbrain
o Pons
o Medulla oblongata Protection of the Central Nervous System
Midbrain ▪ Scalp and skin
Mostly composed of tracts of nerve fibers ▪ Skull and vertebral column
The cerebral aqueduct– the canal that connects ▪ Meninges
the 3rd ventricle of the diencephalon to the 4th ▪ Cerebrospinal fluid
ventricle ▪ Blood brain barrier
Has two bulging fiber tracts– cerebral peduncles–
convey ascending and descending impulses
Has four rounded protrusions– corpora
quadrigemina– Reflex centers for vision and
hearing
Pons
The bulging center part of the brain stem
Mostly composed of fiber tracts
Includes nuclei involved in the control of
breathing
Medulla Oblongata
Meninges
The lowest part of the brain stem
a) Dura mater
Merges into the spinal cord
Double-layered external covering the brain
Includes important fiber tracts
▪ Periosteum– attached to surface of the skull
Contains important control centers
▪ Meningeal layer– outer covering of the brain
✓ Heart rate control
and continues as the dura matter of the
✓ Blood pressure regulation
spinal cord
✓ Breathing
Folds inward in several areas that attaches the
✓ Swallowing
brain to cranial cavity
✓ Vomiting
b) Arachnoid layer
Reticular Formation
Middle layer that is web-like
Diffuse mass of gray matter along the brain
c) Pia mater
stem organs
Internal layer that clings to the surface of
Involved in motor control of visceral organs
the brain following every fold
Reticular activating system plays a role in
d) Subarachnoid space filled with cerebrospinal fluid
awake/sleep cycles and consciousness
Arachnoid villi– projections of arachnoid
Damage here results in a permanent coma
membrane protruding through the dura matter
Cerebrospinal Fluid
Similar to blood plasma composition
Less protein, more vitamin C, different ions
Formed by the choroid plexus
Forms a watery cushion to protect the brain
Circulated in arachnoid space, ventricles, and
central canal of the spinal cord
ANAPHY LEC NERVOUS SYSTEM
Alzheimer’s Disease
▪ Progressive degenerative brain disease
▪ Mostly seen in the elderly, but may begin in
middle age
▪ Structural changes in the brain include abnormal
protein deposits and twisted fibers within
neurons
▪ Victims experience memory loss, irritability,
confusion and ultimately, hallucinations and
death

Spinal Cord
▪ Extends from the
medulla oblongata to
the region of T12
▪ Below T12 is the cauda
equina (a collection of
equina (a collection of
spinal nerves)
▪ Enlargements occur in
the cervical and lumbar
regions

Blood Brain Barrier Spinal Cord Anatomy
▪ Includes the least permeable capillaries of the
body– only H2O, glucose, and essential amino Internal gray matter- mostly cell bodies that surround the
acids get through central canal of the cord
▪ Excludes many potentially harmful substances Dorsal (posterior) horns
▪ Useless against some substances Anterior (ventral) horns
o Fats and fat soluble molecules ▪ Contains motor neurons of the somatic
o Respiratory gases nervous system, which send their axons out the
o Alcohol ventral root
o Nicotine Together they fuse to form the spinal nerves
o Anesthesia Nerves leave at the level of each vertebrae
Cell bodies of sensory neurons, whose fibers enter the
Traumatic Brain Injuries cord by the dorsal root, are found in an enlarged area
called the dorsal root ganglion
a) Concussion Damage to this area causes sensation from the body
Slight brain injury– dizzy or lose area served to be lost
consciousness briefly Exterior white mater– conduction tracts
No permanent brain damage
Posterior, lateral, and anterior columns
b) Contusion
▪ Each contains a number of fiber tracts make up of
Nervous tissue destruction occurs- does not
axons with the same destination and function
regenerate
Central canal filled with cerebrospinal fluid
If cortex is damaged, coma for hours or life
c) Cerebral edema
Peripheral Nervous System
Swelling from the inflammatory response
Nerves and ganglia outside the central nervous system
May compress and kill brain tissue
Nerve = bundle of neuron fibers
Cerebrovascular Accident (CVA) Neuron fibers are bundled by a connective tissue sheath
Commonly called a stroke Structure of a Nerve
The result of a clot or a ruptured blood vessel ▪ Endoneurium surrounds
supplying a region of the brain each fiber
Brain tissue supplied with oxygen from that ▪ Groups of fibers are
blood source dies bound into fascicles
Loss of some functions or death may result bound into fascicles by
perineurium
▪ Fascicles are bound
together by epineurium
ANAPHY LEC NERVOUS SYSTEM
Classification of Nerves Spinal Nerves
Classified according to the direction in which they transmit There is a pair of spinal nerves at the level of each
impulses vertebrae for a total of 31 pairs
Mixed nerves– carry both sensory and motor fibers– Spinal nerves are formed by the combination of the
spinal nerves motor fibers– spinal nerves ventral and dorsal roots of the spinal cord
Afferent (sensory) nerves– carry impulses toward Spinal nerves are named for the region from which
the CNS they arise
Efferent (motor) nerves– carry impulses away from
the CNS
Cranial Nerves
▪ 12 pairs of nerves that mostly serve the head
and neck
▪ Numbered in order, front to back– names reveal
structures they control
▪ Most are mixed nerves, but three are sensory
only
Optic, olfactory, and vestibulocochlear
▪ I Olfactory nerve– sensory for smell
▪ II Optic nerve– sensory for vision
Anatomy of Spinal Nerves
▪ III Oculomotor nerve– motor fibers to eye
Spinal nerves divide soon after leaving the spinal cord
muscles
a) Dorsal rami–
▪ IV Trochlear– motor fiber to eye muscles
serve the skin
▪ V Trigeminal nerve– sensory for the face; motor
and muscles of
fibers to chewing muscles
the skin and
▪ VI Abducens nerve- motor fibers to eye muscles
muscles of the
motor fibers to eye muscles
posterior trunk
▪ VII Facial nerve– sensory for taste; motor fibers
posterior trunk
to the face
b) Ventral rami–
▪ VIII Vestibulocochlear nerve- sensory for
forms a complex
balance and hearing
of networks
▪ IX Glossopharyngeal nerve– sensory for taste;
(plexus) for the
motor fibers to the pharynx
anterior, which serve the motor and sensory needs of
▪ X Vagus nerves– sensory and motor fibers for
the limbs
pharynx, larynx, and viscera fibers for pharynx,
larynx, and viscera
▪ XI Accessory nerve– motor fibers to neck and
upper back
▪ XII Hypoglossal nerve– motor fibers to tongue

Autonomic Nervous System
❖ The involuntary branch of the nervous system
❖ Consists of only motor nerves
❖ Divided into two divisions
a) Sympathetic division– mobilizes the body
b) Parasympathetic division– allows body to
unwind

Differences Between Somatic and Autonomic Nervous
Systems
Nerves
Somatic– one motor neuron– axons extend all the way to
the skeletal muscle they serve
Autonomic– preganglionic and postganglionic nerves
ANAPHY LEC NERVOUS SYSTEM
Effector organs Autonomic Functioning
Somatic– skeletal muscle
Autonomic– smooth muscle, cardiac muscle, and glands Sympathetic– “fight-or-flight”
Neurotransmitters ✓ Response to unusual stimulus
Somatic– always use acetylcholine ✓ Takes over to increase activities
Autominic– use acetylcholine, epinephrine, or ✓ Remember as the “E” division = exercise,
norepinephrine excitement, emergency, and embarrassment
Parasympathetic– housekeeping activites
✓ Conserves energy
✓ Maintains daily necessary body functions
✓ Remember as the “D” division- digestion,
defecation, and diuresis

Development Aspects of the Nervous System
❖ The nervous system is formed during the first month of
embryonic development
❖ Any maternal infection can have extremely harmful
effects
❖ The hypothalamus is one of the last areas of the
brain to develop– contains centers for regulating
body temperature
❖ No more neurons are formed after birth, but growth
Anatomy of the Parasympathetic Division and maturation continues for several years largely
Originates from the brain stem and S2– S4 due to myelination
Neurons in the cranial region send axons out in cranial ❖ The brain reaches maximum weight as a young
nerves to the head and neck organs adult
They synapse with the second motor neuron
They synapse with the second motor neuron in a terminal
ganglion
Terminal ganglia are at the effector organs
Always uses acetylcholine as a neurotransmitter
Anatomy of the Sympathetic Division–– thoracolumbar
division thoracolumbar division
Originates from T1 through L2
Preganglionic axons leave the cord in the ventral root,
enter the spinal nerve, then pass through a ramus
communications, to enter a sympathetic chain
communications, to enter a sympathetic chain ganglion at
the sympathetic chain (trunk) (near the spinal cord)
Short pre-ganglionic neuron and long postganglionic
neuron transmit impulse from CNS to the effector
Norepinephrine and epinephrine are neurotransmitters to
the effector organs
ANAPHY LEC NERVOUS SYSTEM