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Transcript
Anatomy Lecture Notes
Chapter 12
A. functions of nervous system
1. monitors changes in internal and external environment
2. processes and interprets sensory input
3. controls effector organs (muscles and glands)
B. organization of nervous system (NS)
1. components
CNS
brain
spinal cord
PNS
cranial nerves
spinal nerves
2. organization
afferent/sensory = carrying information toward the CNS
efferent/motor = carrying information away from the CNS
somatic - skeletal muscles, bones and skin
visceral - cardiac muscle, smooth muscle and glands
CNS
PNS
sensory
somatic
visceral
receptors
Strong/Fall 2008
motor
somatic
visceral
effectors
page 1
Anatomy Lecture Notes
Chapter 12
C. nerve tissue
1. neurons = specialized to transmit electrical signals
extreme longevity
do not divide
high metabolic rate
2. neuroglia (supporting cells, glial cells)
non-excitable
function is to support the neurons
make up 50% of brain mass
ratio in brain is about 10 glial cells per neuron
can divide to replace themselves
D. neurons
1. structure
a. cell body/soma/perikaryon
nucleus
chromatophilic bodies (rER and ribosomes)
neurofibrils
b. processes/fibers - extensions of the cell body
dendrites:
most neurons have many dendrites
enlarge the surface area of the cell
receive signals from other neurons and send it to the cell body
axon:
one per neuron
arises from axon hillock in most neurons
axonal transport delivers materials from cell body to distant
parts of cell
branches are called collaterals
axons end in smaller branches called telodendria or terminal
branches
at the ends of the telodendria are small enlargements called
axon terminals or synaptic knobs; they contain
neurotransmitters
axons carry signals away from the cell body
Strong/Fall 2008
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Anatomy Lecture Notes
Chapter 12
2. structural classification - number of processes:
a. multipolar - most common (>99%)
b. bipolar - occur in sensory pathways
c. (pseudo)unipolar - sensory neurons
3. functional classification - direction of transmission
a. afferent/sensory
mostly pseudounipolar, some are bipolar
cell bodies are in sensory ganglia of spinal or cranial nerves
distal end is either a sensory receptor or synapses with a sensory
receptor cell
b. efferent/motor
multipolar
cell bodies in CNS or motor ganglia
synapse with effector cells
c. interneurons
entirely within CNS
99.98% of all neurons
most are multipolar
CNS
Strong/Fall 2008
page 3
Anatomy Lecture Notes
Chapter 12
E. glial cells / neuroglia
1. astrocytes (CNS)
most abundant type
processes wrap neurons or capillaries
control ion levels near neurons
capture and recycle neurotransmitters
2. microglia (CNS)
smallest and least abundant
derived from monocytes during development
phagocytize pathogens and dead cells
3. ependymal cells (CNS)
simple epithelium
lines brain ventricles and spinal cord central canal
physical barrier between cerebrospinal fluid (CSF) and brain tissue fluid
help make and circulate CSF
4. oligodendrocytes (CNS)
cell processes produce myelin in CNS
5. satellite cells (PNS)
surround sensory neuron cell bodies in sensory ganglia
6. Schwann cells (PNS)
form myelin in PNS
F. myelin sheath
made of lipoprotein
surrounds some axons
many layers of cell membrane wrapped around axon
electrically insulates membrane of axon
1. PNS (Schwann cells)
incomplete at birth
formation continues for first year
a. neurilemma - Schwann cell outer membrane and cytoplasm external to myelin
sheath
Strong/Fall 2008
page 4
Anatomy Lecture Notes
Chapter 12
b. gaps between adjacent Schwann cells are nodes of Ranvier (1mm apart)
no myelin or neurilemma at node
nerve signals "jump" from node to node
myelin speeds signal transmission
2. CNS (oligodendrocytes)
one oligodendrocyte's processes wrap several axons
nodes are farther apart than in PNS
G. chemical synapses
synapse = point of communication between two neurons
1. presynaptic neuron axon terminals contain neurotransmitter in synaptic vesicles
synaptic cleft or gap = space between presynaptic and postsynaptic neurons
2. postsynaptic neuron membrane contains:
receptors for neurotransmitter
ion channels controlled by the receptors
Strong/Fall 2008
page 5
Anatomy Lecture Notes
Chapter 12
H. basic multi-neuronal structures
1. CNS
a. gray (not grey) matter consists mostly of cell bodies
cortex is a thin layer of neuron cell bodies (gray matter) covering the
outside of parts of the cerebrum and cerebellum
a nucleus is a clump of neuron cell bodies (gray matter) located in the
brain
b. white matter consists mostly of myelinated axons
a tract is a bundle of axons (myelinated) in the brain or spinal cord
CNS
2. PNS
a. nerve = bundle of axons surrounded by c.t.
each axon is surrounded by an endoneurium made of loose c.t.
axons are grouped into fascicles by the perineurium
the epineurium surrounds all fascicles and is made of tough fibrous c.t.
b. ganglion/ganglia - clump of neuron cell bodies in PNS, surrounded by c.t.
can be either sensory or motor
Strong/Fall 2008
page 6
Anatomy Lecture Notes
Chapter 12
I. reflex arc
reflex = rapid, automatic, unlearned, predictable motor response to a stimulus
reflexes are motor responses caused by a hard-wired neural circuit
reflex arc = pathway for a reflex
1. receptor - detects changes in environment
2. afferent neuron - carries signals from receptor to CNS
3. integration center - one or more synapses in CNS
incoming sensory signals elicit outgoing motor signals
4. efferent neuron - carries signals from CNS to effectors
5. effector - organ that produces reflex response (muscle or gland)
J. damaged neurons cannot be replaced
1. neuroblasts stop being produced during fetal development
2. new cells generated
a. in hippocampus from ependymal cells
b. in olfactory epithelium
3. damaged nerve processes can regenerate if the cell body is intact and there is a
path of Schwann cells for it to follow (this happens in PNS only)
Strong/Fall 2008
page 7