1987
DOI: 10.1113/jphysiol.1987.sp016630
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Central respiratory modulation of subretrofacial bulbospinal neurones in the cat.

Abstract: SUMMARY1. Spontaneous activity was recorded from spinally projecting neurones of the subretrofacial nucleus (s.r.f.) in seven chloralose-anaesthetized, vagotomized, paralysed cats. Nineteen such neurones were identified by their antidromic response to stimulation of the ipsilateral dorsolateral funiculus at C5: their axonal conduction velocities were between 2X1 and 9-1 m/s (mean 5 4), and all were silenced by raising the pressure in the ipsilateral carotid sinus (prepared as a blind sac) to 200 mmHg. DL-homoc… Show more

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Cited by 100 publications
(75 citation statements)
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“…22,52 These observations clearly indicate the existence of a central coupling between respiratory network and sympathetic nervous system. 22,[52][53][54][55] Considering that the mechanisms generating high levels of sympathetic activity and arterial hypertension in CIH rats are complex and involve several mechanisms, it is reasonable to take into consideration that alterations in the functioning of central respiratory network may impose an additional excitatory drive to the presympathetic neurons. This hypothesis is supported by the fact that CIH produce substantial changes in the mechanisms controlling baseline respiratory activity.…”
Section: Mechanisms Involved In the Generation Of Sympathetic Overactmentioning
confidence: 99%
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“…22,52 These observations clearly indicate the existence of a central coupling between respiratory network and sympathetic nervous system. 22,[52][53][54][55] Considering that the mechanisms generating high levels of sympathetic activity and arterial hypertension in CIH rats are complex and involve several mechanisms, it is reasonable to take into consideration that alterations in the functioning of central respiratory network may impose an additional excitatory drive to the presympathetic neurons. This hypothesis is supported by the fact that CIH produce substantial changes in the mechanisms controlling baseline respiratory activity.…”
Section: Mechanisms Involved In the Generation Of Sympathetic Overactmentioning
confidence: 99%
“…64 The respiratory-sympathetic coupling has been suggested to be primarily generated by interactions between medullary central respiratory generator and presympathetic neurons (Figure 1). [52][53][54][55] In fact, important nuclei of brain stem controlling the respiratory activity are anatomically intermingled with neurons involved in the generation and regulation of sympathetic activity. 22 However, direct recordings of the neuronal activity revealed that presympathetic neurons located in the rostral ventrolateral medulla (RVLM) exhibit distinct patterns of activity entrained with the respiratory cycle.…”
Section: Hypertensionmentioning
confidence: 99%
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“…Central coupling of respiratory and sympathetic neurons may occur at the level of the ventrolateral medulla, where many of the neurons involved in the generation of respiratory and sympathetic activities are located (Barman and Gebber 1980;Dampney 1994;HĂ€bler et al 1994;Haselton and Guyenet 1989;Koshiya and Guyenet 1996;McAllen 1987;Richter and Spyer 1990;Zhong et al 1997). Specifically in this region, the inspiratory and expiratory neurons of the ventral respiratory column (VRC) interact with the presympathetic neurons of rostral ventrolateral medulla (RVLM) as well as with inhibitory interneurons of caudal ventrolateral medulla (CVLM) Haselton and Guyenet 1989;Mandel and Schreihofer 2006;Richter and Spyer 1990;Sun et al 1997).…”
mentioning
confidence: 99%
“…Respiratory modulation of activity in postganglionic CVC neurones supplying hairy and hairless skin of the cat hindlimb (Boczek-Funcke et al 1992b) and in thoracic preganglionic neurones with reflex patterns of CVC neurones (Boczek-Funcke et al 1992a) is different from that of muscle vasoconstrictor activity (for review see Hiibler et al 1994). Furthermore, coupling between central respiration and sympathetic vasoconstrictor systems occurs in the medulla oblongata, notably the rostral ventrolateral medulla (McAllen, 1987;Haselton & Guyenet, 1989;Guyenet, Darnall & Riley, 1990). We therefore postulate that MVC and CVC presympathetic systems in the rostral ventrolateral medulla are not only differently organized with respect to their baroreceptor, chemoreceptor and respiratory inputs but that they are also different with respect to their inputs from thermoregulatory centres.…”
mentioning
confidence: 93%