R
Richard R. Miselis
Researcher at University of Pennsylvania
Publications - 47
Citations - 5510
Richard R. Miselis is an academic researcher from University of Pennsylvania. The author has contributed to research in topics: Dorsal motor nucleus & Solitary tract. The author has an hindex of 34, co-authored 47 publications receiving 5363 citations.
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Viscerotopic representation of the upper alimentary tract in the rat: sensory ganglia and nuclei of the solitary and spinal trigeminal tracts.
TL;DR: The aim of this study was to map the viscerotopic representation of the upper alimentary tract in the sensory ganglia of the IXth and Xth cranial nerves and in the subnuclei of the solitary and spinal trigeminal tracts.
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The efferent projections of the subfornical organ of the rat: a circumventricular organ within a neural network subserving water balance
TL;DR: The efferent projections of the subfornical organ of rats were traced using the autoradiographic method of following anterograde transport of labelled proteins through axons to discuss the SFO's role within a neural network mediating water balance behaviorally and physiologically.
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The central neural connections of the area postrema of the rat.
TL;DR: These connections, when considered in the context of the known vagal afferent input and reduced blood‐brain barrier of AP, place this structure in a unique position to receive and modulate ascending interoceptive information and to influence autonomic outflow as well.
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The central organization of the vagus nerve innervating the stomach of the rat.
TL;DR: It is found that gastric motoneurons of the dorsal motor nucleus (DMN) possess numerous dendrites penetrating discrete regions of the overlying nucleus of the solitary tract (NTS), and these cells may provide loci for monosynaptic vagovagal interactions.
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Ultrastructural demonstration of a gastric monosynaptic vagal circuit in the nucleus of the solitary tract in rat
TL;DR: The demonstration of a monosynaptic Gastric vagovagal circuit provides the anatomical substrate for the relay of gastric interoceptive information directly to gastric vagal motoneuronal dendrites, which may play a unique role in the central regulation of Gastric motility and secretion.