1980
DOI: 10.1002/cne.901940406
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An EM analysis of the synaptic connections of horseradish peroxidase‐filled stalked cells and islet cells in the substantia gelatinosa of adult cat spinal cord

Abstract: Two major interneurons of the outer part of Rexed's layer I1 (IIa) were impaled with microelectrodes, had their primary inputs characterized, and were subsequently filled with horseradish peroxidase. Their fine structural characteristics and synaptic connections were then analyzed electron microscopically. Two islet cells, whose rostrocaudally oriented dendrites were largely confined within layer IIa, received primary input from small myelinated axons. A stalked cell, whose cell body was situated on 1/11 borde… Show more

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Cited by 206 publications
(76 citation statements)
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“…In addition to dendritic trees that are most extensive rostrocaudally, substantia gelatinosa neurons often have unusually complex dendritic branching and dendritic spines (Scheibel and Scheibel, 1969;Light et al, 1979;Gobel et al, 1980;Rethelyi et al, 1989;Ramon y Cajal, 1995;Grudt and Perl, 2002), similar to a subset of flexion cells found in the dorsomedial dorsal horn in this study (Fig. 6 B).…”
Section: Morphological Comparisons To Dorsal Horn Cells In Other Studiessupporting
confidence: 62%
See 1 more Smart Citation
“…In addition to dendritic trees that are most extensive rostrocaudally, substantia gelatinosa neurons often have unusually complex dendritic branching and dendritic spines (Scheibel and Scheibel, 1969;Light et al, 1979;Gobel et al, 1980;Rethelyi et al, 1989;Ramon y Cajal, 1995;Grudt and Perl, 2002), similar to a subset of flexion cells found in the dorsomedial dorsal horn in this study (Fig. 6 B).…”
Section: Morphological Comparisons To Dorsal Horn Cells In Other Studiessupporting
confidence: 62%
“…The rostrocaudally extensive but mediolaterally and dorsoventrally compact dendritic trees of most flexion cells seen here are similar to those of cutaneously activated local axon cells in laminas III-V of the hamster dorsal horn (Schneider, 1992), cat glutamatergic group II-activated dorsal horn interneurons (Bannatyne et al, 2006), and many cat and rodent laminas II-IV cells generally (Scheibel and Scheibel, 1969;Rethelyi et al, 1989), including cells responsive to innocuous or noxious mechanical stimuli (Light et al, 1979;Gobel et al, 1980). In addition to dendritic trees that are most extensive rostrocaudally, substantia gelatinosa neurons often have unusually complex dendritic branching and dendritic spines (Scheibel and Scheibel, 1969;Light et al, 1979;Gobel et al, 1980;Rethelyi et al, 1989;Ramon y Cajal, 1995;Grudt and Perl, 2002), similar to a subset of flexion cells found in the dorsomedial dorsal horn in this study (Fig.…”
Section: Morphological Comparisons To Dorsal Horn Cells In Other Studiessupporting
confidence: 52%
“…The CV of the dorsal-root input to the presynaptic lamina II o neurons averaged 1.2 Ϯ 0.1 m/s, also equivalent to DR A␦ CVs for the postsynaptic vertical cells in the transient-to-vertical neuron connection. Projection of a vertical type of lamina II neuron to a lamina I neuron has been suggested before on circumstantial morphological and physiological grounds (Gobel, 1978;Bennett et al, 1980;Gobel et al, 1980;Ramon y Cajal, 1999). The present evidence represents the first proven demonstration of functional connections between these cell types.…”
Section: Connections Between Lamina II O Vertical Cells and Lamina I mentioning
confidence: 92%
“…Results reported by Dubner and his group (PRICE et al, , 1979BENNETT et al, 1980;GoBEL et al, 1980) are somewhat different:…”
Section: Resultsmentioning
confidence: 75%