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References (53)
-
M. Wiberg, A. Blomqvist (1984)
The spinomesencephalic tract in the cat: Its cells of origin and termination pattern as demonstrated by the intraaxonal transport methodBrain Research, 291
-
B. Blok, G. Holstege (1996)
The neuronal control of micturition and its relation to the emotional motor system.Progress in brain research, 107
-
Y. Sakuma, D. Pfaff (1979)
Facilitation of female reproductive behavior from mesensephalic central gray in the rat.The American journal of physiology, 237 5
-
E. Merrill (1970)
The lateral respiratory neurones of the medulla: their associations with nucleus ambiguus, nucleus retroambigualis, the spinal accessory nucleus and the spinal cord.Brain research, 24 1
-
U. Jürgens, Chang-Lin Lu (1993)
Interactions between glutamate, GABA, acetylcholine and histamine in the periaqueductal gray's control of vocalization in the squirrel monkeyNeuroscience Letters, 152
-
T. Kanai, S. Wang (1962)
Localization of the central vocalization mechanism in the brain stem of the cat.Experimental neurology, 6
-
(1999)
Evidence for direct projections from the nucleus retroamgibuus to the motoneurons of the external oblique in the female cat -
R. Dulbecco (1991)
Encyclopedia of human biology -
T. Lovick (1993)
Integrated activity of cardiovascular and pain regulatory systems: Role in adaptive behavioural responsesProgress in Neurobiology, 40
-
E. Merrill, J. Lipski (1987)
Inputs to intercostal motoneurons from ventrolateral medullary respiratory neurons in the cat.Journal of neurophysiology, 57 6
-
P. Gerrits, Chris Vodde, G. Holstege (2000)
Retroambiguus projections to the cutaneus trunci motoneurons may form a pathway in the central control of mating.Journal of neurophysiology, 83 5
-
A. Beitz (1982)
The organization of afferent projections to the midbrain periaqueductal gray of the ratNeuroscience, 7
-
B. Jones, L. Friedman (1983)
Atlas of catecholamine perikarya, varicosities and pathways in the brainstem of the catJournal of Comparative Neurology, 215
-
U. Jürgens (1994)
The role of the periaqueductal grey in vocal behaviourBehavioural Brain Research, 62
-
P. Mantyh (1982)
The ascending input to the midbrain periaqueductal gray of the primateJournal of Comparative Neurology, 211
-
William Blessing, P. Frost, John Furness (1980)
Catecholamine cell groups of the cat medulla oblongataBrain Research, 192
-
A. Beitz (1989)
Possible origin of glutamatergic projections to the midbrain periaqueductal gray and deep layer of the superior colliculus of the ratBrain Research Bulletin, 23
-
P. Gerrits, G. Holstege (1999)
Descending projections from the nucleus retroambiguus to the iliopsoas motoneuronal cell groups in the female golden hamster: Possible role in reproductive behaviorJournal of Comparative Neurology, 403
-
G. Holstege, H. Kuypers, J. Dekker (1977)
The organization of the bulbar fibre connections to the trigeminal, facial and hypoglossal motor nuclei. II. An autoradiographic tracing study in cat.Brain : a journal of neurology, 100 2
-
G. Holstege, H. Kuypers (1982)
The anatomy of brain stem pathways to the spinal cord in cat. A labeled amino acid tracing study.Progress in brain research, 57
-
PJ Davis, SP Zhang (1991)
The midbrain periaqueductal gray matter -
G. Holstege, H. Kuypers, Rob Boer (1979)
Anatomical evidence for direct brain stem projections to the somatic motoneuronal cell groups and autonomic preganglionic cell groups in cat spinal cordBrain Research, 171
-
M. Mesulam (1978)
Tetramethyl benzidine for horseradish peroxidase neurohistochemistry: a non-carcinogenic blue reaction product with superior sensitivity for visualizing neural afferents and efferents.The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society, 26
-
V. Vanderhorst, G. Holstege (1995)
Caudal medullary pathways to lumbosacral motoneuronal cell groups in the cat: Evidence for direct projections possibly representing the final common pathway for lordosisJournal of Comparative Neurology, 359
-
E. Taber (1961)
The cytoarchitecture of the brain stem of the cat. I. Brain stem nuclei of catJournal of Comparative Neurology, 116
-
M. Björkeland, J. Boivie (1984)
The termination of spinomesencephalic fibers in catAnatomy and Embryology, 170
-
S. Meller, B. Dennis (1986)
Afferent projections to the periaqueductal gray in the rabbitNeuroscience, 19
-
P.I.Y. (1954)
Cytoarchitecture of the Human Brain StemNeurology, 4
-
P. Davis, S. Zhang (1991)
What is the Role of the Midbrain Periaqueductal Gray in Respiration and Vocalization -
G. Holstege (1989)
Anatomical study of the final common pathway for vocalization in the catJournal of Comparative Neurology, 284
-
P. Kirkwood, T. Ford, R. Donga, Shane Saywell, G. Holstege (1999)
Assessing the strengths of motoneuron inputs: different anatomical and physiological approaches compared.Progress in brain research, 123
-
(1994)
Cellular and molecular mechanisms of female reproductive behaviors -
C. Larson (1985)
The midbrain periaqueductal gray: a brainstem structure involved in vocalization.Journal of speech and hearing research, 28 2
-
R. Bandler, P. Carrive, A. Depaulis (1991)
Emerging Principles of Organization of the Midbrain Periaqueductal Gray Matter -
I. Billig, J. Foris, J. Card, Bill Yates (1999)
Transneuronal tracing of neural pathways controlling an abdominal muscle, rectus abdominis, in the ferretBrain Research, 820
-
A. Gibson, D. Hansma, J. Houk, F. Robinson (1984)
A sensitive low artifact TMB procedure for the demonstration of WGA-HRP in the CNSBrain Research, 298
-
U. Jürgens, R. Pratt (1979)
Role of the periaqueductal grey in vocal expression of emotionBrain Research, 167
-
T. Lovick (1996)
Midbrain and medullary regulation of defensive cardiovascular functions.Progress in brain research, 107
-
J. Feldman, A. Loewy, D. Speck (1985)
Projections from the ventral respiratory group to phrenic and intercostal motoneurons in cat: an autoradiographic study, 5
-
A. Loewy, J. Wallach, S. McKellar (1981)
Efferent connections of the ventral medulla oblongata in the ratBrain Research Reviews, 3
-
W. Cowan, W. Cowan, D. Gottlieb, D. Gottlieb, A. Hendrickson, A. Hendrickson, J. Price, J. Price, T. Woolsey, T. Woolsey (1972)
The autoradiographic demonstration of axonal connections in the central nervous system.Brain research, 37 1
-
R. Bandler, K. Keay (1996)
Columnar organization in the midbrain periaqueductal gray and the integration of emotional expression.Progress in brain research, 107
-
S Gobel, S Hockfield (1977)
Pain in the trigeminal region -
V. Vanderhorst, E. Terasawa, H. Ralston, G. Holstege (2000)
Monosynaptic projections from the nucleus retroambiguus to motoneurons supplying the abdominal wall, axial, hindlimb, and pelvic floor muscles in the female rhesus monkeyJournal of Comparative Neurology, 424
-
A. Miller, K. Ezure, I. Suzuki (1985)
Control of abdominal muscles by brain stem respiratory neurons in the cat.Journal of neurophysiology, 54 1
-
G Holstege, HGJM Kuypers, JJ Dekker (1977)
The organization of the bulbar fibre connections to the trigeminal, facial and hypoglossal motor nuclei, 100
-
A. Berman (1968)
The brain stem of the cat : a cytoarchitectonic atlas with stereotaxic coordinates -
H. Herbert, C. Saper (1992)
Organization of medullary adrenergic and noradrenergic projections to the periaqueductal gray matter in the ratJournal of Comparative Neurology, 315
-
M Björkeland, J Boivie (1984)
The termination of spinomesencephalic fibers in cat: an experimental anatomical study, 170
-
G. Thomas (1969)
The Brain Stem of the Cat: A Cytoarchitectonic Atlas with Stereotaxic Coordinates.Psyccritiques, 14
-
(1977)
The division of the dorsal and ventral horns of the mammalian caudal medulla into eight layers using anatomical criteria -
V. Vanderhorst, L. Mouton, B. Blok, G. Holstege (1996)
Distinct cell groups in the lumbosacral cord of the cat project to different areas in the periaqueductal grayJournal of Comparative Neurology, 376
-
Mikael Wiberg, J. Westman, A. Blomqvist (1987)
Somatosensory projection to the mesencephalon: An anatomical study in the monkeyJournal of Comparative Neurology, 264
- Publisher
- Wiley
- Copyright
- "Copyright © 2002 Wiley Subscription Services, Inc., A Wiley Company"
- ISSN
- 0021-9967
- eISSN
- 1096-9861
- DOI
- 10.1002/cne.10151
- Publisher site
- See Article on Publisher Site
Abstract
The nucleus retroambiguus (NRA) of the caudal medulla is a relay nucleus by which neurons of the mesencephalic periaqueductal gray (PAG) reach motoneurons of pharynx, larynx, soft palate, intercostal and abdominal muscles, and several muscles of the hindlimbs. These PAG‐NRA‐motoneuronal projections are thought to play a role in survival behaviors, such as vocalization and mating behavior. In the present combined antero‐ and retrograde tracing study in the cat, we sought to determine whether the NRA, apart from the neurons projecting to motoneurons, also contains cells projecting back to the PAG. After injections of WGA‐HRP in the caudal and intermediate PAG, labeled neurons were observed in the NRA, with a slight contralateral preponderance. In contrast, after injections in the rostral PAG or adjacent deep tectal layers, no or very few labeled neurons were present in the NRA. After injection of [3H]leucine in the NRA, anterograde labeling was present in the most caudal ventrolateral and dorsolateral PAG, and slightly more rostrally in the lateral PAG, mainly contralaterally. When the [3H]leucine injection site extended medially into the medullary lateral tegmental field, labeling was found in most parts of the PAG as well as in the adjoining deep tectal layers. No labeled fibers were found in the dorsolateral PAG, and only a few were found in the rostral PAG. Because the termination pattern of the NRA fibers in the PAG overlaps with that of the sacral cord projections to the PAG, it is suggested that the NRA‐PAG projections play a role in the control of motor functions related to mating behavior. J. Comp. Neurol. 445:47–58, 2002. © 2002 Wiley‐Liss, Inc.
Journal
The Journal of Comparative Neurology – Wiley
Published: Jan 25, 2004
Keywords: ; ; ;