Show Summary Details
- Title Pages
- Dedication
- Preface
- Contributors
-
1 Electrical activity of nerve: The background up to 1952 -
2 Morphology of normal peripheral axons -
3 Morphology of central nervous system axons -
4 Physiology of axons -
5 The Schwann cell: Morphology and development -
6 The oligodendrocyte, the perinodal astrocyte, and the central node of Ranvier -
7 Molecular biology of myelination -
8 Mechanisms of adhesion between axons and glial cells -
9 Axonal transport: Function and mechanisms -
10 Development of axons: Calcium, steering, and the growth cone -
11 Voltage-gated ion channels in axons: Localization, function, and development -
12 Molecular biology of voltage-dependent potassium and sodium channels -
13 Voltage-clamp studies in axons: Macroscopic and single-channel currents -
14 Modulation of axonal excitability by neurotransmitter receptors -
15 Ion pumps and exchangers -
16 Mechanisms of accommodation and adaptation in myelinated axons -
17 Electrophysiological approaches to the study of axons -
18 Action potential conduction recorded optically in normal, demyelinated, and remyelinating axons -
19 Reaction of the neuronal cell body to axonal damage -
20 Axonal degeneration and disorders of the axonal cytoskeleton -
21 Pathology of demyelinated and dysmyelinated axons -
22 Pathology of the myelin sheath -
23 Pathophysiology of demyelinated axons -
24 Anoxic/ischemic injury in axons -
25 Traumatic injury of spinal axons -
26 Diffuse axonal injury -
27 Abnormal excitability in injured axons -
28 Regeneration of peripheral nervous system axons -
29 Role of cellular interactions in axonal growth and regeneration -
30 Clinical electrophysiology of peripheral nervous system axons -
31 Clinical assessment of central nervous system axons: Evoked potentials -
32 Human peripheral nerve disease (peripheral neuropathies) -
33 Overview of clinical aspects of multiple sclerosis, including cognitive deficit -
34 Clinical aspects of traumatic injury to central nervous system axons - Index
Morphology of normal peripheral axons
Morphology of normal peripheral axons
- Chapter:
- (p.13) 2 Morphology of normal peripheral axons
- Source:
- The Axon
- Author(s):
CLAES-HENRIC BERTHOLD
MARTIN RYDMARK
- Publisher:
- Oxford University Press
DOI:10.1093/acprof:oso/9780195082937.003.0002
This chapter discusses peripheral axons. Topics covered include classification and general organization of peripheral axons, components of a peripheral nervous system (PNS) axon, unmyelinated PNS axons, and myelinated PNS axons.
Keywords: peripheral nervous system, unmyelinated PNS axons, myelinated PNS, classification
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- Title Pages
- Dedication
- Preface
- Contributors
-
1 Electrical activity of nerve: The background up to 1952 -
2 Morphology of normal peripheral axons -
3 Morphology of central nervous system axons -
4 Physiology of axons -
5 The Schwann cell: Morphology and development -
6 The oligodendrocyte, the perinodal astrocyte, and the central node of Ranvier -
7 Molecular biology of myelination -
8 Mechanisms of adhesion between axons and glial cells -
9 Axonal transport: Function and mechanisms -
10 Development of axons: Calcium, steering, and the growth cone -
11 Voltage-gated ion channels in axons: Localization, function, and development -
12 Molecular biology of voltage-dependent potassium and sodium channels -
13 Voltage-clamp studies in axons: Macroscopic and single-channel currents -
14 Modulation of axonal excitability by neurotransmitter receptors -
15 Ion pumps and exchangers -
16 Mechanisms of accommodation and adaptation in myelinated axons -
17 Electrophysiological approaches to the study of axons -
18 Action potential conduction recorded optically in normal, demyelinated, and remyelinating axons -
19 Reaction of the neuronal cell body to axonal damage -
20 Axonal degeneration and disorders of the axonal cytoskeleton -
21 Pathology of demyelinated and dysmyelinated axons -
22 Pathology of the myelin sheath -
23 Pathophysiology of demyelinated axons -
24 Anoxic/ischemic injury in axons -
25 Traumatic injury of spinal axons -
26 Diffuse axonal injury -
27 Abnormal excitability in injured axons -
28 Regeneration of peripheral nervous system axons -
29 Role of cellular interactions in axonal growth and regeneration -
30 Clinical electrophysiology of peripheral nervous system axons -
31 Clinical assessment of central nervous system axons: Evoked potentials -
32 Human peripheral nerve disease (peripheral neuropathies) -
33 Overview of clinical aspects of multiple sclerosis, including cognitive deficit -
34 Clinical aspects of traumatic injury to central nervous system axons - Index
