Clinical Neuroscience Second Edition Chapter 4: Microanatomy and Neurotransmission Kelly Lambert and...
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Transcript of Clinical Neuroscience Second Edition Chapter 4: Microanatomy and Neurotransmission Kelly Lambert and...
Clinical NeuroscienceSecond Edition
Chapter 4:Microanatomy and Neurotransmission
Kelly Lambert and Craig Howard Kinsley
Copyright © 2011 by Oxford University Press, Inc.
Figure 4.1 Types of neurons.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.2 Functional areas of the neuron.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.3 Structure of the cell membrane.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.4 Types of ion channels in the cell membrane.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.5 Cell body and organelles.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.6 Cytoskeleton.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Table 4.1Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.7 Synapses.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.8 Types of neuroglia.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.9 Blood-brain barrier.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.10 Myelination.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.11 Path of neurotransmission.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.12 (a) Electrochemical activity at the cell membrane.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.12 (b) Electrochemical activity at the cell membrane.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.12 (c) Electrochemical activity at the cell membrane.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.13 (a) Subthreshold potentials.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.13 (b) Subthreshold potentials.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.14 Phases of an action potential.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.15 Saltatory conduction.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.16 Exocytosis.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.17 Ionotropic receptor.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.
Figure 4.18 Metabotropic receptors.Lambert and Kinsley: Clinical Neuroscience, Second EditionCopyright © 2011 by Oxford University Press, Inc.