Vagal innervation of intestines: afferent pathways mapped with new en bloc horseradish peroxidase adaptation (original) (raw)
Altschuler SM, Ferenci DA, Lynn RB, Miselis RR (1991) Representation of the cecum in the lateral dorsal motor nucleus of the vagus nerve and commissural subnucleus of the nucleus-tractus-solitarii in rat. J Comp Neurol 304:261–274 ArticlePubMedCAS Google Scholar
Altschuler SM, Escardo J, Lynn RB, Miselis RR (1993) The central organization of the vagus nerve innervating the colon of the rat. Gastroenterology 104:502–509 PubMedCAS Google Scholar
Baljet B, Drukker J (1979) Extrinsic innervation of the abdominal organs in the female rat. Acta Anat 104:243–267 ArticlePubMedCAS Google Scholar
Baljet B, Groen GJ (1986) Some aspects of the peripheral nervous-system in the human-fetus as revealed by the acetylcholinesterase in toto staining method. Acta Histochem Suppl 32:69–75 PubMedCAS Google Scholar
Berthoud HR, Powley TL (1992) Vagal afferent innervation of the rat fundic stomach: morphological characterization of the gastric tension receptor. J Comp Neurol 319:261–276 ArticlePubMedCAS Google Scholar
Berthoud H-R, Carlson NR, Powley TL (1991) Topography of efferent vagal innervation of the rat gastrointestinal tract. Am J Physiol 260:R200–R207 PubMedCAS Google Scholar
Berthoud HR, Kressel M, Raybould HE, Neuhuber WL (1995) Vagal sensors in the rat duodenal mucosa—distribution and structure as revealed by in-vivo DiI-tracing. Anat Embryol 191:203–212 ArticlePubMedCAS Google Scholar
Berthoud HR, Patterson LM, Neumann F, Neuhuber WL (1997) Distribution and structure of vagal afferent intraganglionic laminar endings (IGLEs) in the rat gastrointestinal tract. Anat Embryol 195:183–191 ArticlePubMedCAS Google Scholar
Bloot J, Boekellar AB, Baljet B (1984) A simple acetylcholinesterase method for staining in toto the nervous-system in rat fetuses and a procedure for embedding stained fetuses in transparent epoxy-resin. Stain Tech 59:246–249 CAS Google Scholar
Boekellar AB, Baljet B, Drukker J (1985) The arterial vascular supply of the upper abdominal organs in the rat. Neth J Zool 35:455–468 Google Scholar
Boekellar AB, Groen GJ, Baljet B (1987) Anatomy of the abdominal branches of the vagus nerves in the rat. Acta Anat 130:12–13 Google Scholar
Downman CBB (1952) Distribution along the small intestine of afferent, vasoconstrictor and inhibitory fibres in the mesenteric bundles. J Physiol (Lond) 116:228–235 CAS Google Scholar
Fox EA, Powley TL (1985) Longitudinal columnar organization within the dorsal motor nucleus represents separate branches of the abdominal vagus. Brain Res 341:269–282 ArticlePubMedCAS Google Scholar
Hebel R, Stromberg MW (1976) Anatomy of the laboratory rat. Williams & Wilkins, Baltimore, pp 91–111 Google Scholar
Holst M-C, Kelly JB, Powley TL (1997) Vagal preganglionic projections to the enteric nervous system characterized with PHA-L. J Comp Neurol 381:81–100 ArticlePubMedCAS Google Scholar
Hopkins DA, Bieger D, deVente J, Steinbuisch HWM (1996) Vagal efferent projections: viscerotopy, neurochemistry and effects of vagotomy. Prog Brain Res 107:79–96 ArticlePubMedCAS Google Scholar
Mesulam M-M (1978) Tetramethyl benzidine for horseradish peroxidase neurohistochemistry: a non-carcinogenic blue reaction-product with superior sensitivity for visualizing neural afferents and efferents. J Histochem Cytochem 26:106–117 PubMedCAS Google Scholar
Mesulam M-M (1982) Principles of horseradish peroxidase neurohistochemistry and their applications for tracing neural pathways—axonal transport, enzyme histochemistry and light microscopic analysis. In: Mesulam M-M (ed) Tracing neural connections with horseradish peroxidase. Wiley, Chichester, pp 1–151 Google Scholar
Morrison JFB (1977) The afferent innervation of the gastrointestinal tract. In: Brooks FP, Evers PW (eds) Nerves and the gut. Slack, New Jersey, pp 297–326 Google Scholar
Phillips RJ, Baronowsky EA, Powley TL (1997) Afferent innervation of gastrointestinal tract smooth muscle by the hepatic branch of the vagus. J Comp Neurol 384:248–270 ArticlePubMedCAS Google Scholar
Powley TL, Phillips RJ (2005) Advances in neural tracing of vagal afferent nerves and terminals. In: Undem BJ, Weinreich D (eds) Advances in vagal afferent neurobiology. CRC Press, Boca Raton, pp 123–145 Google Scholar
Powley TL, Prechtl JC, Fox EA, Berthoud H-R (1983) Anatomical considerations for surgery of the rat abdominal vagus: distribution, paraganglia and regeneration. J Auton Nerv Syst 9:79–97 ArticlePubMedCAS Google Scholar
Powley TL, Fox EA, Berthoud H-R (1987) Retrograde tracer technique for assessment of selective and total subdiaphragmatic vagotomies. Am J Physiol 253:R361–R370 PubMedCAS Google Scholar
Prechtl JC, Powley TL (1985) Organization and distribution of the rat subdiaphragmatic vagus and associated paraganglia. J Comp Neurol 235:182–195 ArticlePubMedCAS Google Scholar
Prechtl JC, Powley TL (1987) A light and electron microscopic examination of the vagal hepatic branch of the rat. Anat Embryol 176:115–126 ArticlePubMedCAS Google Scholar
Prechtl JC, Powley TL (1990) The fiber composition of the abdominal vagus of the rat. Anat Embryol 181:101–115 ArticlePubMedCAS Google Scholar
Robertson B, Lindh B, Aldskogius H (1992) WGA-HRP and choleragenoid-HRP as anterogradely transported tracers in vagal visceral afferents and binding of WGA and choleragenoid to nodose ganglion neurons in rodents. Brain Res 590:207–212 ArticlePubMedCAS Google Scholar
Walls EK, Wang FB, Holst M-C, Phillips R, Voreis JS, Perkins AR, Pollard LE, Powley TL (1995) Selective vagal rhizotomies: a new dorsal surgical approach used for intestinal deafferentations. Am J Physiol 269:R1279–R1288 PubMedCAS Google Scholar
Wang FB, Powley TL (2000) Topographic inventories of vagal afferents in gastrointestinal muscle. J Comp Neurol 421:302–324 ArticlePubMedCAS Google Scholar
Zhang XG, Fogel R, Simpson P, Renehan W (1991) The target specificity of the extrinsic innervation of the rat small-intestine. J Auton Nerv Syst 32:53–62 ArticlePubMedCAS Google Scholar
Zhang XG, Renehan WE, Fogel R (2000) Vagal innervation of the rat duodenum. J Auton Nerv Syst 79:8–18 ArticlePubMedCAS Google Scholar