The nervous system
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Transcript of The nervous system
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Copyright © 2010 Pearson Education, Inc.
THE NERVOUS SYSTEMCh. 7
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Copyright © 2010 Pearson Education, Inc.
Functions of the Nervous System
1. Sensory input
• Sensory receptors gather information about internal and external changes
2. Integration
• Interpretation of sensory input
3. Motor output
• Activation of effector organs produces a response
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Copyright © 2010 Pearson Education, Inc. Figure 7.1
Sensory input
Motor output
Integration
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Structural Classification of the Nervous System
• Central nervous system (CNS)
• Brain and spinal cord
• Integration and command center
• Peripheral nervous system (PNS)
• Paired spinal and cranial nerves carry messages to and from the CNS
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Functional Classification : The Peripheral Nervous System (PNS)
• Two functional divisions
1. Sensory (afferent) division
• Somatic afferent fibers—convey impulses from skin, skeletal muscles, and joints
• Visceral afferent fibers—convey impulses from visceral organs
2. Motor (efferent) division
• Transmits impulses from the CNS to effector organs
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Motor Division of PNS
1. Somatic (voluntary) nervous system
• Conscious control of skeletal muscles
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Motor Division of PNS
2. Autonomic (involuntary) nervous system (ANS)
• Visceral motor nerve fibers
• Regulates smooth muscle, cardiac muscle, and glands
• Two functional subdivisions
• Sympathetic
• Parasympathetic
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Copyright © 2010 Pearson Education, Inc. Figure 7.2
Central nervous system (CNS)
Peripheral nervous system (PNS)
ParasympatheticConserves energyPromotes house-keeping functions
during rest
Motor (efferent) division
Sensory (afferent) division
Somatic NSSomatic motor
(voluntary)
skeletal muscles
SympatheticMobilizes bodysystems during
activity
Autonomic NSVisceral motor (involuntary)
cardiac muscles,smooth muscles,
and glands
Skin
Heart
Bladder
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Nervous Tissue: Structure and Function
• Two principal cell types
1. Neurons—excitable cells that transmit electrical signals
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Copyright © 2010 Pearson Education, Inc.
2. Neuroglia (glial cells)—supporting cells:
• Astrocytes (CNS)
• Microglia (CNS)
• Ependymal cells (CNS)
• Oligodendrocytes (CNS)
• Satellite cells (PNS)
• Schwann cells (PNS)
Nervous Tissue: Structure and Function
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Copyright © 2010 Pearson Education, Inc. Figure 7.3
(a) Astrocytes are the most abundantCNS neuroglia.
Capillary
Neuron
Astrocyte
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Copyright © 2010 Pearson Education, Inc. Figure 7.3
(b) Microglial cells are defensive cells inthe CNS.
NeuronMicroglialcell
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Copyright © 2010 Pearson Education, Inc. Figure 7.3
Brain orspinal cordtissue
Ependymalcells
Fluid-filled cavity
(c) Ependymal cells line cerebrospinalfluid-filled cavities.
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Copyright © 2010 Pearson Education, Inc. Figure 7.3
(d) Oligodendrocytes have processes that formmyelin sheaths around CNS nerve fibers.
Nervefibers
Myelin sheath
Process ofoligodendrocyte
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Copyright © 2010 Pearson Education, Inc. Figure 7.3
(e) Satellite cells and Schwann cells(form myelin) surround neurons in the PNS.
Schwann cells(forming myelin sheath)
Cell body of neuronSatellitecells
Nerve fiber
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Copyright © 2010 Pearson Education, Inc. Figure 7.5
(a) Myelination of a nervefiber (axon)
Schwann cellcytoplasm
Axon
Neurilemma
Myelin sheath
Schwann cellnucleus
Schwann cellplasma membrane
1
2
3
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Cell Body
• Network of neurofibrils help maintain cell shape
• Axon hillock—cone-shaped area from which axon arises
• Clusters of cell bodies are called nuclei in the CNS, ganglia in the PNS
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Copyright © 2010 Pearson Education, Inc. Figure 7.4
Dendrites(receptive regions)
Cell body(biosynthetic centerand receptive region)
Nucleus
Nissl bodies
Axon(impulse generatingand conducting region)
Axon hillock
NeurilemmaTerminalbranches
Node of Ranvier
Impulsedirection
Schwann cell(one inter-node)
Axonterminals(secretoryregion)
(b)
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Copyright © 2010 Pearson Education, Inc.
Processes• Dendrites• Receptive (input) region of a neuron• Convey electrical signals toward cell body
• Axons• Generate & transmits nerve impulses away
from cell body• One axon/cell arising from axon hillock• Long axons=nerve fibers
• Bundles of processes are called: • Tracts in the CNS• Nerves in the PNS
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Myelin Sheaths in the CNS
• Formed by processes of oligodendrocytes, not the whole cells
• Nodes of Ranvier are present
• No neurilemma
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(d) Oligodendrocytes have processes that formmyelin sheaths around CNS nerve fibers.
Nervefibers
Myelin sheath
Process ofoligodendrocyte
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White Matter and Gray Matter
•White matter
• Dense collections of myelinated fibers
• Gray matter
• Mostly neuron cell bodies and unmyelinated fibers
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Structural Classification of Neurons
• Three types:
1. Multipolar—1 axon and several dendrites
• Most abundant
• Motor neurons and interneurons
2. Bipolar—1 axon and 1 dendrite
• Rare, e.g., retinal neurons
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Structural Classification of Neurons
3. Unipolar—single, short process that has two branches:
• Peripheral process—more distal branch, often associated with a sensory receptor
• Central process—branch entering the CNS
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Functional Classification of Neurons
• Three types:
1. Sensory (afferent)
• Transmit impulses from sensory receptors toward the CNS
2. Motor (efferent)
• Carry impulses from the CNS to effectors
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Functional Classification of Neurons
3. Interneurons (association neurons)
• Shuttle signals through CNS pathways; most are entirely within the CNS