The Rat Nervous SystemGeorge Paxinos This third edition of the standard reference on the nervous system of the rat is a complete and updated revision of the 1994 second edition. All chapters have been extensively updated, and new chapters added covering early segmentation, growth factors, and glia. The book is now aligned with the data available in the Rat Brain in Stereotaxic Coordinates, making it an excellent companion to this bestselling atlas. Physiological data, functional concepts, and correlates to human anatomy and function round out the new edition.
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Page 31
... dorsomedial (younger) order (Bayer, 1987). Septum. The septum forms the subcallosal anteromedial wall of the telencephalon and is a prominent structure in the rat basal forebrain. The triangular and medial septal nuclei are in the ...
... dorsomedial (younger) order (Bayer, 1987). Septum. The septum forms the subcallosal anteromedial wall of the telencephalon and is a prominent structure in the rat basal forebrain. The triangular and medial septal nuclei are in the ...
Page 66
... dorsomedial cortex on E17 is composed mainly of subplate neurons (Fig. 12). As the cortical plate expands from ventrolateral to dorsomedial on E16 and E17, a deep set of extracellular channels appears (prominent white bands beneath the ...
... dorsomedial cortex on E17 is composed mainly of subplate neurons (Fig. 12). As the cortical plate expands from ventrolateral to dorsomedial on E16 and E17, a deep set of extracellular channels appears (prominent white bands beneath the ...
Page 71
... dorsomedial motor neocortex for example, peak neurogenesis of specific layers occurs on 2 days: 80% of layer VI neurons originate on E15 and E16, 78% of layer V neurons on E16 and E17, 88% of layer IV and lower layer III neurons on E17 ...
... dorsomedial motor neocortex for example, peak neurogenesis of specific layers occurs on 2 days: 80% of layer VI neurons originate on E15 and E16, 78% of layer V neurons on E16 and E17, 88% of layer IV and lower layer III neurons on E17 ...
Page 156
... dorsomedial parts project to the cervical cord (Daniel et al., 1987; Strominger et al., 1987). This organization reflects the sequence of descent of rubrospinal fibers during development (Lakke and Marani, 1991). Most rubrospinal axons ...
... dorsomedial parts project to the cervical cord (Daniel et al., 1987; Strominger et al., 1987). This organization reflects the sequence of descent of rubrospinal fibers during development (Lakke and Marani, 1991). Most rubrospinal axons ...
Page 168
... dorsomedial pontine area; dPd, dorsal peduncular area; L, Lateral nucleus; lfp, longitudinal fascicle of the pons; M, medial nucleus; mcp, medial cerebellar peduncle; ml, medial lemniscus; RtTgC, central part of the reticulotegmental ...
... dorsomedial pontine area; dPd, dorsal peduncular area; L, Lateral nucleus; lfp, longitudinal fascicle of the pons; M, medial nucleus; mcp, medial cerebellar peduncle; ml, medial lemniscus; RtTgC, central part of the reticulotegmental ...
Contents
75 | |
165 | |
Diencephalon Basal Ganglia Amygdala and Septum | 333 |
Cortex | 633 |
Systems | 759 |
Neurotransmitters | 1203 |
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activity afferents amygdala amygdaloid Anat anatomical anterograde Aston-Jones axons basal ganglia Bayer bed nucleus Brain Res brain stem caudal cell groups cerebellar nuclei cerebellum cervical cholinergic collaterals column commissure Comp complex connections cortical areas corticostriatal dendrites dense distribution dopamine dorsal horn dorsolateral dorsomedial efferent enkephalin extended amygdala forebrain functional GABA GABAergic ganglion gene globus pallidus hormone horseradish peroxidase hypothalamus immunoreactivity injections innervation inputs interneurons labeling lamina lateral globus pallidus layer LC neurons lobule located locus coeruleus magnocellular medial medulla medullary midbrain motoneurons motor nerve nervous system neuroepithelium Neurosci noradrenergic olfactory paraventricular nucleus pathways pattern Paxinos peptide periaqueductal gray PLCO pontine posterior preoptic projection neurons rat brain receptor red nucleus region retrograde rostral sensory septal Simerly spinal cord staining stria terminalis striatal striatum subdivision subfornical organ subnucleus substantia nigra Swanson synaptic telencephalon terminals thalamic nucleus tion Topographic tract trigeminal ultrastructural ventral ventrolateral ventromedial Voogd zone