188 results on '"Hilaire G"'
Search Results
152. The murine neurokinin NK1 receptor gene contributes to the adult hypoxic facilitation of ventilation.
- Author
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Ptak K, Burnet H, Blanchi B, Sieweke M, De Felipe C, Hunt SP, Monteau R, and Hilaire G
- Subjects
- Action Potentials drug effects, Action Potentials genetics, Animals, Animals, Newborn, Cell Differentiation drug effects, Female, Gene Expression Regulation, Developmental drug effects, Gene Expression Regulation, Developmental physiology, Hypoxia, Brain genetics, Hypoxia, Brain metabolism, Immunohistochemistry, Male, Medulla Oblongata cytology, Medulla Oblongata metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, Nerve Net cytology, Nerve Net metabolism, Phrenic Nerve physiology, Receptors, Neurokinin-1 genetics, Respiratory Center cytology, Respiratory Center metabolism, Substance P pharmacology, Synaptic Transmission drug effects, Synaptic Transmission genetics, Cell Differentiation genetics, Medulla Oblongata growth & development, Nerve Net growth & development, Receptors, Neurokinin-1 deficiency, Respiratory Center growth & development, Respiratory Physiological Phenomena drug effects, Substance P metabolism
- Abstract
Substance P and neurokinin-1 receptors (NK1) modulate the respiratory activity and are expressed early during development. We tested the hypothesis that NK1 receptors are involved in prenatal development of the respiratory network by comparing the resting respiratory activity and the respiratory response to hypoxia of control mice and mutant mice lacking the NK1 receptor (NK1-/-). In vitro and in vivo experiments were conducted on neonatal, young and adult mice from wild-type and NK1-/- strains. In the wild strain, immunohistological, pharmacological and electrophysiological studies showed that NK1 receptors were expressed within medullary respiratory areas prior to birth and that their activation at birth modulated central respiratory activity and the membrane properties of phrenic motoneurons. Both the membrane properties of phrenic motoneurons and the respiratory activity generated in vitro by brainstem-spinal cord preparation from NK1-/- neonate mice were similar to that from the wild strain. In addition, in vivo ventilation recordings by plethysmography did not reveal interstrain differences in resting breathing parameters. The facilitation of ventilation by short-lasting hypoxia was similar in wild and NK1-/- neonates but was significantly weaker in adult NK1-/- mice. Results demonstrate that NK1 receptors do appear to be necessary for a normal respiratory response to short-lasting hypoxia in the adult. However, NK1 receptors are not obligatory for the prenatal development of the respiratory network, for the production of the rhythm, or for the regulation of breathing by short-lasting hypoxia in neonates.
- Published
- 2002
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153. Identification of central nervous system neurons innervating the respiratory muscles of the mouse: a transneuronal tracing study.
- Author
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Gaytán SP, Pásaro R, Coulon P, Bevengut M, and Hilaire G
- Subjects
- Animals, Brain Mapping, Central Nervous System cytology, Interneurons physiology, Mice, Mice, Inbred Strains, Motor Neurons physiology, Nerve Net physiology, Rabies virus, Synaptic Transmission, Central Nervous System physiology, Neurons physiology, Respiratory Muscles innervation
- Abstract
In recent years, the central control of breathing in mammals has been the subject of numerous studies. The aim of the present one was to characterize the neuronal network projecting to the main respiratory motoneurons, in adult mice. To this end, the morphology and location of the respiratory motoneurons and their sequential connections with other neurons were revealed using a transneuronal tracing technique by means of the rabies virus infection. The injections of the rabies virus in the respiratory muscles resulted in labeling the motoneurons and their serially connected interneurons at multiple levels of the mouse central nervous system: spinal cord, pons and medulla, cerebellum, mesencephalon, diencephalon, and telencephalon. Most of these labeled areas have been previously identified in the control of cardiorespiratory regulation, as well as in other autonomic functions. These anatomical data provide support for the integration of respiratory-related activities in complex behavioral responses. Furthermore, these data suggest similarities in the evolution of central respiratory networks in mammals.
- Published
- 2002
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154. Altered respiratory activity and respiratory regulations in adult monoamine oxidase A-deficient mice.
- Author
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Burnet H, Bevengut M, Chakri F, Bou-Flores C, Coulon P, Gaytan S, Pasaro R, and Hilaire G
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- Animals, Cell Size genetics, Electrophysiology, Fenclonine pharmacology, Hypoxia physiopathology, Intercostal Nerves, Medulla Oblongata drug effects, Medulla Oblongata pathology, Medulla Oblongata physiopathology, Mice, Mice, Inbred C3H, Mice, Transgenic, Monoamine Oxidase genetics, Monoamine Oxidase metabolism, Motor Neurons cytology, Motor Neurons drug effects, Motor Neurons metabolism, Nerve Net drug effects, Neurons drug effects, Neurons metabolism, Neurons pathology, Phrenic Nerve, Plethysmography, Reflex drug effects, Reflex genetics, Respiration drug effects, Respiration genetics, Respiration Disorders drug therapy, Respiration Disorders genetics, Serotonin metabolism, Tidal Volume genetics, Monoamine Oxidase deficiency, Respiration Disorders physiopathology
- Abstract
The abnormal metabolism of serotonin during the perinatal period alters respiratory network maturation at birth as revealed by comparing the monoamine oxidase A-deficient transgenic (Tg8) with the control (C3H) mice (Bou-Flores et al., 2000). To know whether these alterations occur only transiently or induce persistent respiratory dysfunction during adulthood, we studied the respiratory activity and regulations in adult C3H and Tg8 mice. First, plethysmographic and pneumotachographic analyses of breathing patterns revealed weaker tidal volumes and shorter inspiratory durations in Tg8 than in C3H mice. Second, electrophysiological studies showed that the firing activity of inspiratory medullary neurons and phrenic motoneurons is higher in Tg8 mice and that of the intercostal motoneurons in C3H mice. Third, histological studies indicated abnormally large cell bodies of Tg8 intercostal but not phrenic motoneurons. Finally, respiratory responses to hypoxia and lung inflation are weaker in Tg8 than in C3H mice. dl-p-chlorophenyl-alanine treatments applied to Tg8 mice depress the high serotonin level present during adulthood; the treated mice recover normal respiratory responses to both hypoxia and lung inflation, but their breathing parameters are not significantly affected. Therefore in Tg8 mice the high serotonin level occurring during the perinatal period alters respiratory network maturation and produces a permanent respiratory dysfunction, whereas the high serotonin level present in adults alters the respiratory regulatory processes. In conclusion, the metabolism of serotonin plays a crucial role in the maturation of the respiratory network and in both the respiratory activity and the respiratory regulations.
- Published
- 2001
155. Perinatal changes of I(h) in phrenic motoneurons.
- Author
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Di Pasquale E, Tell F, Ptak K, Monteau R, and Hilaire G
- Subjects
- Animals, Animals, Newborn, Cardiovascular Agents pharmacology, Cesium pharmacology, Fetus cytology, Membrane Potentials drug effects, Membrane Potentials physiology, Patch-Clamp Techniques, Pyrimidines pharmacology, Rats, Rats, Sprague-Dawley, Respiratory Center cytology, Respiratory Center drug effects, Respiratory Center growth & development, Respiratory Mechanics physiology, Respiratory Muscles innervation, Motor Neurons physiology, Phrenic Nerve cytology, Phrenic Nerve growth & development, Phrenic Nerve physiology
- Abstract
The hyperpolarization-activated cationic current (I(h)) was characterized and its maturation studied on phrenic motoneurons (PMNs), from reduced preparations of foetal (E18 and E21) and newborn (P0-P3) rats, using the whole-cell patch-clamp technique. In voltage-clamp mode, 2-s hyperpolarizing steps (5-mV, -50 to -110 mV) elicited a noninactivating inward current, blocked by external application of Cs+ or ZD 7288. At -110 mV, Ih current density averaged 0.67 +/- 0.41 pA/pF at E18, reached a transient peak at E21 (1.38 +/- 0.11 pA/pF) and decreased at P0-P3 (0.77 +/- 0.22 pA/pF). V1/2 was similar at E18 and E21 (-79 mV) but was significantly hyperpolarized at P0-P3 (-90 mV). The time constant of activation was voltage-dependent, and significantly faster at E21. Reversal potential was similar at all ages when estimated by extrapolation or tail current procedures. It was positively shifted by 25 +/- 6 mV when external potassium was raised from 3 to 10 m M, suggesting a similar sensitivity to K+ from E18 to P0-3. Cs(+) or ZD 7288 applications on PMNs at rest in current-clamp mode, in a partitioned chamber, induced a 10 +/- 2 mV hyperpolarization at E18 and E21, and an 8 +/- 2 mV hyperpolarization at P0-3. The area of the central respiratory drive potential or current was increased by 33 and 31%, respectively, at E21, but was not significantly modified at E18 and P0-3. Our data suggest a critical period during the perinatal maturation of Ih during which it is transiently upregulated and attenuates the influence of the central respiratory drive on PMNs just prior to birth.
- Published
- 2001
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156. Abnormal phrenic motoneuron activity and morphology in neonatal monoamine oxidase A-deficient transgenic mice: possible role of a serotonin excess.
- Author
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Bou-Flores C, Lajard AM, Monteau R, De Maeyer E, Seif I, Lanoir J, and Hilaire G
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- Animals, Animals, Newborn, Dendrites physiology, Female, Fetus, Fluorobenzenes pharmacology, Mice, Mice, Inbred C3H, Mice, Knockout, Mice, Transgenic, Monoamine Oxidase deficiency, Monoamine Oxidase genetics, Motor Neurons cytology, Patch-Clamp Techniques, Phenols pharmacology, Phrenic Nerve cytology, Pregnancy, Receptor, Serotonin, 5-HT2A, Receptors, Serotonin drug effects, Receptors, Serotonin physiology, Respiratory Mechanics physiology, Serotonin Antagonists pharmacology, Brain physiology, Medulla Oblongata physiology, Monoamine Oxidase metabolism, Motor Neurons physiology, Phrenic Nerve physiology, Serotonin physiology, Spinal Cord physiology
- Abstract
In rodent neonates, the neurotransmitter serotonin (5-HT) modulates the activity of both the medullary respiratory rhythm generator and the cervical phrenic motoneurons. To determine whether 5-HT also contributes to the maturation of the respiratory network, experiments were conducted in vitro on the brainstem-spinal cord preparation of neonatal mice originating from the control strain (C3H) and the monoamine oxidase A-deficient strain, which has a brain perinatal 5-HT excess (Tg8). At birth, the Tg8 respiratory network is unable to generate a respiratory pattern as stable as that produced by the C3H network, and the modulation by 5-HT of the network activity present in C3H neonates is lacking in Tg8 neonates. In addition, the morphology of the phrenic motoneurons is altered in Tg8 neonates; the motoneuron dendritic tree loses the C3H bipolar aspect but exhibits an increased number of spines and varicosities. These abnormalities were prevented in Tg8 neonates by treating pregnant Tg8 dams with the 5-HT synthesis inhibitor p-chlorophenylalanine or a 5-HT(2A) receptor antagonist but were induced in wild-type neonates by treating C3H dams with a 5-HT(2A) receptor agonist. We conclude that 5-HT contributes, probably via 5-HT(2A) receptors, to the normal maturation of the respiratory network but alters it when present in excess. Disorders affecting 5-HT metabolism during gestation may therefore have deleterious effects on newborns.
- Published
- 2000
157. Locomotor network maturation is transiently delayed in the MAOA-deficient mouse.
- Author
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Cazalets JR, Gardette M, and Hilaire G
- Subjects
- Action Potentials drug effects, Action Potentials physiology, Animals, Animals, Newborn, Excitatory Amino Acid Agonists pharmacology, Gene Expression Regulation, Enzymologic, Hindlimb physiology, In Vitro Techniques, Mice, Mice, Inbred C3H, Mice, Knockout, Monoamine Oxidase metabolism, N-Methylaspartate analogs & derivatives, N-Methylaspartate pharmacology, Serotonin pharmacology, Spinal Cord cytology, Spinal Nerve Roots drug effects, Spinal Nerve Roots physiology, Monoamine Oxidase genetics, Motor Neurons enzymology, Spinal Cord enzymology, Spinal Cord growth & development, Swimming physiology
- Abstract
In vivo and in vitro experiments were performed in control (C3H) and monoamine oxidase A (MAOA)-deficient (Tg8) neonatal mice to determine whether MAOA deficiency affected spinal locomotor network maturation. Comparing the swimming behaviors at birth in C3H mice with those in Tg8 mice revealed a delayed role for the hindlimbs in Tg8 swimming, even though adult swimming behavior was acquired at postnatal day 14 (P14) in both strains. Analyzing the locomotor network activity in vitro showed that serotonin (5-HT) induced and modulated locomotor-like discharges in hindlimb ventral roots of C3H but not Tg8 neonates. The Tg8 network began, however, to be affected by 5-HT at P11. Thus both in vivo and in vitro results argue for a transient delay of locomotor network maturation in the Tg8 strain.
- Published
- 2000
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158. Cellular and synaptic effect of substance P on neonatal phrenic motoneurons.
- Author
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Ptak K, Konrad M, Di Pasquale E, Tell F, Hilaire G, and Monteau R
- Subjects
- 2-Amino-5-phosphonovalerate pharmacology, 4-Aminopyridine pharmacology, Action Potentials drug effects, Animals, Animals, Newborn, Cesium pharmacology, Cobalt pharmacology, Decerebrate State, Membrane Potentials drug effects, Motor Neurons drug effects, Patch-Clamp Techniques, Phrenic Nerve drug effects, Potassium Channels physiology, Rats, Receptors, N-Methyl-D-Aspartate antagonists & inhibitors, Receptors, Neurokinin-1 agonists, Receptors, Neurokinin-2 agonists, Substance P analogs & derivatives, Synapses drug effects, Tetraethylammonium pharmacology, Tetrodotoxin pharmacology, Brain Stem physiology, Motor Neurons physiology, Phrenic Nerve physiology, Spinal Cord physiology, Substance P pharmacology, Synapses physiology
- Abstract
Experiments were carried out on the in vitro brainstem-spinal cord preparation of the newborn rat to analyse the effects of substance P (SP) on phrenic motoneuron (PMN) activity. In current-clamp mode, SP significantly depolarized PMNs, increased their input resistance, decreased the rheobase current and shifted the firing frequency-intensity relationships leftwards, but did not affect spike frequency adaptation or single spike configuration. The neurokinin receptor agonist NK1 had SP-mimetic effects, whereas the NK3 and NK2 receptor agonists were less effective and ineffective, respectively. In a tetrodotoxin-containing aCSF, only SP or the NK1 receptor agonist were still active. No depolarization was observed when the NK1 receptor agonist was applied in the presence of muscarine. In voltage-clamp mode, SP or the NK1 receptor agonist produced an inward current (ISP) which was not significantly reduced by extracellular application of tetraethylammonium, Co2+, 4-aminopyridine or Cs+. In aCSF containing tetrodotoxin, Co2+ and Cs+, ISP was blocked by muscarine. No PMN displayed any M-type potassium current but only a current showing no voltage sensitivity over the range -100 to 0 mV, reversing near the expected EK +, hence consistent with a leak current. SP application to the spinal cord only (using a partitioned chamber) significantly increased the phrenic activity. Pretreatment with the NMDA receptor antagonist DL-2-amino-5-phosphonovaleric acid (AP5) decreased the C4 discharge duration and blocked the effect of SP, thus exhibiting an NMDA potentiation by SP. In conclusion, SP modulates postsynaptically the response of phrenic motoneurons to the inspiratory drive through the reduction of a leak conductance and the potentiation of the NMDA component of the synaptic input.
- Published
- 2000
- Full Text
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159. Pulmonary stretch receptor discharges and vagal regulation of respiration differ between two mouse strains.
- Author
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Burnet H and Hilaire G
- Subjects
- Airway Obstruction physiopathology, Animals, Bronchi innervation, Bronchi physiology, Electric Stimulation, Lung Volume Measurements, Mice, Mice, Inbred C3H, Mice, Inbred Strains, Muscle, Smooth innervation, Muscle, Smooth physiology, Respiratory Mechanics physiology, Species Specificity, Trachea innervation, Trachea physiology, Pulmonary Stretch Receptors physiology, Respiratory Physiological Phenomena, Vagus Nerve physiology
- Abstract
1. Experiments were performed on adult pentobarbitone-anaesthetized mice of the OF1 and the C3H/HeJ (C3H) strains, to analyse the regulation of respiration by pulmonary stretch receptors (PSRs). 2. Although the mean respiratory period, inspiratory and expiratory durations, and tidal volume did not differ significantly between the two strains, the inspiratory onset was drastically inhibited in OF1 mice but only slightly inhibited in C3H mice in response to tracheal occlusion performed at the very end of inspiration. 3. Low current electrical stimulation of the vagus nerve induced inspiratory onset inhibition in both strains, suggesting that the weak inspiratory onset inhibition elicited by tracheal occlusion in C3H mice did not originate from a low sensitivity of the respiratory centres to PSRs. 4. During normal respiration, PSR firing rate increased with tidal volume, but reached significantly higher values in OF1 than C3H mice. During tracheal occlusion, PSR firing rate was significantly higher at the end of inspiration and during the first third of the occlusion period in OF1 than C3H mice. 5. The airway pressure resistance was significantly higher in OF1 than C3H mice. After abolishing the tracheo-bronchial muscle tone with atropine in OF1 mice, tracheal occlusions induced weak inspiratory onset inhibitions resembling the C3H mouse responses. 6. The possibility that differences in tracheo-bronchial tone between OF1 and C3H mice may lead to a greater PSR discharge and thus to a powerful inhibition on the OF1 medullary respiratory centres during tracheal occlusion is discussed.
- Published
- 1999
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160. Maturation of the mammalian respiratory system.
- Author
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Hilaire G and Duron B
- Subjects
- Animals, Lung innervation, Mammals, Lung growth & development, Lung physiology, Nervous System Physiological Phenomena, Respiration
- Abstract
In this review, the maturational changes occurring in the mammalian respiratory network from fetal to adult ages are analyzed. Most of the data presented were obtained on rodents using in vitro approaches. In gestational day 18 (E18) fetuses, this network functions but is not yet able to sustain a stable respiratory activity, and most of the neonatal modulatory processes are not yet efficient. Respiratory motoneurons undergo relatively little cell death, and even if not yet fully mature at E18, they are capable of firing sustained bursts of potentials. Endogenous serotonin exerts a potent facilitation on the network and appears to be necessary for the respiratory rhythm to be expressed. In E20 fetuses and neonates, the respiratory activity has become quite stable. Inhibitory processes are not yet necessary for respiratory rhythmogenesis, and the rostral ventrolateral medulla (RVLM) contains inspiratory bursting pacemaker neurons that seem to constitute the kernel of the network. The activity of the network depends on CO2 and pH levels, via cholinergic relays, as well as being modulated at both the RVLM and motoneuronal levels by endogenous serotonin, substance P, and catecholamine mechanisms. In adults, the inhibitory processes become more important, but the RVLM is still a crucial area. The neonatal modulatory processes are likely to continue during adulthood, but they are difficult to investigate in vivo. In conclusion, 1) serotonin, which greatly facilitates the activity of the respiratory network at all developmental ages, may at least partly define its maturation; 2) the RVLM bursting pacemaker neurons may be the kernel of the network from E20 to adulthood, but their existence and their role in vivo need to be further confirmed in both neonatal and adult mammals.
- Published
- 1999
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161. Serotonergic inhibition of phrenic motoneuron activity: an in vitro study in neonatal rat.
- Author
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Di Pasquale E, Lindsay A, Feldman J, Monteau R, and Hilaire G
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- Action Potentials physiology, Animals, Animals, Newborn, In Vitro Techniques, Indoles pharmacology, Motor Neurons drug effects, Rats, Receptors, Serotonin physiology, Serotonin Receptor Agonists pharmacology, Synaptic Transmission drug effects, Synaptic Transmission physiology, Brain Stem physiology, Motor Neurons physiology, Phrenic Nerve physiology, Serotonin pharmacology, Spinal Cord physiology
- Abstract
In vitro experiments were conducted on neonatal rat brainstem-spinal cord preparations to test the hypothesis of an inhibitory modulation of phrenic activity by serotonin (5-HT) via non-5-HT2A receptors [Lindsay, A.D. and Feldman, J.L., Modulation of respiratory activity of neonatal rat phrenic motoneurones by serotonin, J. Physiol., 461 (1993) 213-233]. The changes induced by 5-HT and related agents on phrenic root discharges and membrane currents in identified phrenic motoneurons were analysed after blockade of spinal 5-HT2A receptors. Spinal application of 5-HT1B (but not 5-HT1A) receptor agonists depressed the phrenic activity and the effect was prevented by pretreatment with 5-HT1B (but not 5-HT1A, 5-HT2A and 5-HT3) receptor antagonists. Results from phrenic motoneuron whole cell recordings do not reject a presynaptic location of the 5-HT receptors responsible for this depression.
- Published
- 1997
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162. Perinatal developmental changes in respiratory activity of medullary and spinal neurons: an in vitro study on fetal and newborn rats.
- Author
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Di Pasquale E, Tell F, Monteau R, and Hilaire G
- Subjects
- Action Potentials physiology, Animals, Female, Interneurons physiology, Medulla Oblongata embryology, Nerve Net physiology, Pregnancy, Rats, Rats, Sprague-Dawley, Spinal Cord embryology, Spinal Nerve Roots physiology, Animals, Newborn physiology, Medulla Oblongata cytology, Medulla Oblongata growth & development, Motor Neurons physiology, Respiratory Mechanics physiology, Spinal Cord cytology, Spinal Cord growth & development
- Abstract
Experiments were performed in vitro on fetal and newborn rat brainstem-spinal cord preparations to analyse the perinatal developmental changes in inspiratory motor output. The amplitude of the inspiratory bursts of the whole C4 ventral root (global extracellular recording), the firing patterns of 80 medullary inspiratory neurons (unitary extracellular recording) and the firing and membrane properties of 71 respiratory neurons in the C4 ventral horn (whole-cell recording) were analysed at embryonic day 18 (E18), 21 (E21) and post natal days 0 to 3 (P0-3). At E18, the amplitude of the C4 bursts was weak and variable from one respiratory cycle to the next, as well as the discharge pattern of most of the medullary inspiratory neurons. C4 motoneurons were immature, very excitable and displaying variable inspiratory discharges, but already able to deliver sustained bursts of potentials when depolarised. At E21 and P0-3, the amplitude of the C4 bursts was increased and stable, most of the medullary inspiratory neurons already were able to generate a stable firing pattern and C4 motoneurons showed maturational changes in terms of the resting potential, spike amplitude and input membrane resistance. This work suggests that the short period extending from E18 to E21 is a critical maturational period for the medullary respiratory network which becomes able to elaborate a stable respiratory motor output.
- Published
- 1996
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163. Effects of ethanol on respiratory activity in the neonatal rat brainstem-spinal cord preparation.
- Author
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Di Pasquale E, Monteau R, Hilaire G, and Iscoe S
- Subjects
- Animals, Brain Stem cytology, Hypoglossal Nerve cytology, Hypoglossal Nerve drug effects, Hypoglossal Nerve physiology, In Vitro Techniques, Motor Neurons drug effects, Motor Neurons physiology, Phrenic Nerve cytology, Phrenic Nerve drug effects, Phrenic Nerve physiology, Rats, Spinal Cord cytology, Animals, Newborn physiology, Brain Stem physiology, Central Nervous System Depressants pharmacology, Ethanol pharmacology, Respiration drug effects, Spinal Cord physiology
- Abstract
Ethanol (1-12 mM) added to the superfusion medium of the isolated brainstem-spinal cords of newborn rats did not affect phrenic activity but significantly reduced hypoglossal activity by 54%, 67% and 55% at 3, 6 and 12 mM, respectively. Although the reasons for the suppression of hypoglossal activity remain unknown, this preparation may be a useful model for determining why cranial motoneurons are more vulnerable than phrenic motoneurons to various agents and, more generally, how ethanol impairs neural function.
- Published
- 1995
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164. Endogenous serotonin modulates the fetal respiratory rhythm: an in vitro study in the rat.
- Author
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Di Pasquale E, Monteau R, and Hilaire G
- Subjects
- Animals, Animals, Newborn, Brain Stem drug effects, Brain Stem metabolism, Female, In Vitro Techniques, Methysergide pharmacology, Pregnancy, Rats, Rats, Sprague-Dawley, Respiratory Mechanics drug effects, Serotonin Antagonists pharmacology, Serotonin Receptor Agonists pharmacology, Spinal Cord drug effects, Spinal Cord metabolism, Fetus physiology, Respiratory Mechanics physiology, Serotonin physiology
- Abstract
The aim of the present work was to know whether the excitatory modulation of the central respiratory rhythm generator by serotonin (5-HT) previously found to occur in the newborn rat, is already functional during the fetal life. Experiments were performed at embryonic day 18 (D18) and 20-21 (D20-21; full-term day 21) on the fetal rat brainstem-spinal cord preparation in which the ability to generate central respiratory activity in vitro persists. Replacing the normal medium which bathed the preparation by a medium containing 5-HT increased the respiratory frequency (RF) within 2-3 min in a dose-dependent manner in both D18 and D20-21 fetuses but the effect was particularly drastic at D18. Applying a medium containing the 5-HT antagonist, methysergide, to block the effect of endogenous 5-HT, if any, reduced the RF within 2-3 min and the reduction was especially drastic at D18 where respiratory arrests occurred for several minutes in most of the experiments. Applying a medium containing either the 5-HT reuptake inhibitor fluoxetine to potentiate the effect of endogenous 5-HT or the 5-HT precursor, L-tryptophan, to activate 5-HT biosynthesis mechanisms, increased the RF. To define the type of 5-HT receptors involved in the modulation of the RF, experiments were conducted with specific 5-HT agonists and antagonists. Both 5-HT1 (8-OH-DPAT, buspirone) and 5-HT2 agonists (DOI, alpha-methyl-5-HT) increased the RF but only the 5-HT1A agonist 8-OH-DPAT was efficient at submicromolar concentrations. Applying the 5-HT1A antagonist NAN-190 alone decreased the RF and even elicited respiratory arrests while the 5-HT2 antagonist ketanserin was inefficient. NAN-190 pre-treatment blocked the increase in the RF due to 8-OH-DPAT and 5-HT. Taken as a whole these results clearly indicate that endogenous 5-HT exerts an excitatory modulation on the respiratory rhythm generator via activation of medullary 5-HT1A receptors well before birth, as soon as D18 where the modulation is particularly potent.
- Published
- 1994
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165. Involvement of the rostral ventro-lateral medulla in respiratory rhythm genesis during the peri-natal period: an in vitro study in newborn and fetal rats.
- Author
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Di Pasquale E, Monteau R, and Hilaire G
- Subjects
- Animals, Animals, Newborn, Electric Stimulation, Embryonic and Fetal Development, Fetus, Gestational Age, In Vitro Techniques, Inhalation physiology, Medulla Oblongata embryology, Medulla Oblongata growth & development, Rats, Rats, Sprague-Dawley, Spinal Cord physiology, Time Factors, Aging physiology, Brain Mapping, Medulla Oblongata physiology, Respiration physiology
- Abstract
The involvement of the rostral ventro-lateral medulla (RVLM) in respiratory rhythm genesis was analysed on brain stem-spinal cord preparations from newborn and fetal rats in which the ability to generate central respiratory activity in vitro persists. The respiratory rhythm (around 5 per min) was stable in preparations from newborn and pre-term fetal (D20-21) rats but very variable in young fetuses (D18). In newborn and D20-21 fetal rats, RVLM electrical stimulation delivered during mid-expiration initiated premature inspiration while RVLM electrolytic lesions suppressed the respiratory rhythm. In D18 fetuses, RVLM stimulation had no effect and strong stimulations evoked only diffuse activation. Extracellular recordings of the activity of 423 RVLM neurons showed that this area contained numerous inspiratory neurons in all the age groups studied. Low Ca(2+)-high Mg2+ medium bathing (assumed to block synaptic transmission) abolished the inspiratory bursts in the cervical roots and most of the 99 RVLM inspiratory neurons investigated. In newborn and D20-21 rats, however, 7 of the 68 RVLM inspiratory neurons tested behaved like respiratory pacemakers, since they continued to fire with a bursting pattern, while in the D18 preparations, none of 31 did so. These experiments confirm that the RVLM is a crucial site in respiratory rhythm genesis in newborn rats, and suggest that this may also be the case in D20-21 fetuses, but probably not in D18 fetuses.
- Published
- 1994
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166. Changes in serotonin metabolism may elicit obstructive apnoea in the newborn rat.
- Author
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Hilaire G, Morin D, Lajard AM, and Monteau R
- Subjects
- 5-Hydroxytryptophan cerebrospinal fluid, Animals, Animals, Newborn, Electromyography, Humans, Hydroxyindoleacetic Acid cerebrospinal fluid, Infant, Injections, Intraperitoneal, Rats, Rats, Sprague-Dawley, Respiratory Muscles drug effects, Respiratory Muscles physiopathology, Serotonin cerebrospinal fluid, Sleep Apnea Syndromes cerebrospinal fluid, Sleep Apnea Syndromes physiopathology, Sudden Infant Death etiology, Tryptophan administration & dosage, Serotonin metabolism, Sleep Apnea Syndromes etiology
- Abstract
1. Experiments were performed on anaesthetized newborn rats (aged 3-10 days) to know whether an increase in central serotonin levels might favour the occurrence of obstructive apnoeas as previously suggested by in vitro results from our group. 2. The levels of serotonin (5-HT), its precursor 5-hydroxytryptophan (5-HTP) and its metabolite, 5-hydroxyindole-acetic acid (5-HIAA), were analysed in cerebrospinal fluid samples collected at the level of the obex prior to and after intraperitoneal injection of L-tryptophan (50 mg kg-1) in sixty-eight anaesthetized newborn rats (control rats prior to injection and injected rats 15, 30 and 45 min after the injection). A significant increase in 5-HT and 5-HTP levels occurred 30 min after the injection, attesting to the activation of 5-HT biosynthesis. 3. The EMG activity of both the genioglossus and the diaphragm was recorded before and after L-tryptophan load (50 mg kg-1) in twenty-two newborn rats. After the injection of L-tryptophan, the amplitude of the integrated genioglossus activity decreased, or was even abolished, either during a few respiratory cycles or for long periods in twenty-one out of twenty-two animals. Recovery of the genioglossus activity occurred within 45-60 min. 4. The thoracic respiratory movements and the resulting upper airway pressure changes were recorded before and after L-tryptophan injection (50 mg kg-1) in sixty-two animals. In some litters (n = 7), most of the animals (21/25) displayed, within 20-40 min of the injection, recurrent episodes of obstructive apnoea often followed by central ones. These respiratory difficulties became severe and drastic, and led in two instances to respiratory distress and death. Lower doses of L-tryptophan (10 mg kg-1) did not induce any respiratory disorders unless these were potentiated by pargyline treatment (50 mg kg-1, n = 7). The obstructive apnoeas liable to occur after an L-tryptophan load (50 mg kg-1) were prevented by blocking the 5-HT receptor with methysergide (50 mg kg-1, n = 5) or by blocking the 5-HT biosynthesis by applying p-chlorophenylalanine (PCPA) pretreatment at birth (300 mg kg-1, n = 7). In other litters (n = 6), none of the eighteen newborn rats tested were affected by L-tryptophan, however, In five young adult rats, L-tryptophan again had no effect.4+ ĕ
- Published
- 1993
167. In vitro study of central respiratory-like activity of the fetal rat.
- Author
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Di Pasquale E, Monteau R, and Hilaire G
- Subjects
- Animals, Animals, Newborn physiology, Decerebrate State physiopathology, Electrophysiology, Female, Gestational Age, In Vitro Techniques, Medulla Oblongata physiology, Pregnancy, Rats, Rats, Inbred Strains, Spinal Nerve Roots physiology, Fetus physiology, Respiration physiology, Respiratory Center embryology
- Abstract
A fetal rat brain stem-spinal cord in vitro preparation (15-20 days) which retains for several hours respiratory-like discharges on cervical and cranial ventral roots has been developed for analysing fetal central respiratory activity. Two different patterns of easily distinguishable rhythmic activity were recorded. The first, of spinal origin, appeared every 2-10 min as long bursts of potentials (3-30 s) on cervical, but not hypoglossal, roots. The second pattern corresponded to brief bursts (1 s) of potentials occurring on both cervical and hypoglossal roots at a frequency ranging from 3-4 cycles min-1. The second type of activity was likely to be respiratory since it originated from the medulla, and behaved similarly to the respiratory activity recorded in vitro from newborn rats. The fetal respiratory-like activity was never observed at day 15, appeared at day 16 in 30% of the preparations with fluctuating frequency and amplitude bursts, and stabilised at day 20 where it was usually present and resembled newborn rat respiratory activity: its frequency was stable but was reduced by withdrawal of CO2 and pH stimuli and modulated by a pontine noradrenergic influence. This fetal preparation offers many advantages for studying the ontogeny of the central respiratory activity because of the background knowledge available on the adult and newborn rat respiratory centers and the possibility of performing electrophysiological, morphological and pharmacological fetal studies directly at the central level without any feedback from the periphery.
- Published
- 1992
- Full Text
- View/download PDF
168. 5-Hydroxytryptamine modulates central respiratory activity in the newborn rat: an in vitro study.
- Author
-
Morin D, Monteau R, and Hilaire G
- Subjects
- Animals, Brain Stem drug effects, Brain Stem physiology, Electric Stimulation, Fenclonine pharmacology, Fluoxetine pharmacology, In Vitro Techniques, Medulla Oblongata drug effects, Medulla Oblongata physiology, Methysergide pharmacology, Rats, Respiration drug effects, Serotonin Antagonists pharmacology, Spinal Cord drug effects, Spinal Cord physiology, Tryptophan pharmacology, Animals, Newborn physiology, Respiration physiology, Serotonin physiology
- Abstract
Respiratory activity was recorded in cervical ventral roots during in vitro experiments performed on superfused brainstem-cervical cord preparations from newborn rats aged 0-3 days. The effects of 5-HT agents added to the bathing medium on respiratory frequency were analysed. Adding 5-hydroxytryptamine (5-HT, 30 microM) or 5-HT precursors (either L-tryptophane, L-Trp, 50 microM, or 5-hydroxytryptophane, 5-HTP, 50 microM) elicited increases in respiratory frequency. Precursor effects were blocked by a 5-HT antagonist (methysergide, 70 microM) and significantly reduced by pretreatment with a 5-HT synthesis inhibitor (p-chlorophenylalanine, PCPA, i.p. 300 mg/kg at birth). Adding drugs known to block (methysergide, 40 microM) or to potentiate (fluoxetine, 100 microM) any endogenous 5-HT effects decreased or increased respiratory frequency, respectively. These results suggest that the 5-HT biosynthesis mechanisms remain functional in vitro and that a continuous release of endogenous 5-HT exerts excitatory modulation on the respiratory rhythm generator.
- Published
- 1991
- Full Text
- View/download PDF
169. [Pulmonary stretch receptors activity during thermal polypnea (author's transl)].
- Author
-
Hilaire G and Monteau R
- Subjects
- Action Potentials, Animals, Carbon Dioxide analysis, Cats, Dyspnea, Fever, Hyperventilation physiopathology, Lung physiology, Recruitment, Neurophysiological, Temperature, Tidal Volume, Vagotomy, Lung innervation, Mechanoreceptors physiology, Respiration, Vagus Nerve physiology
- Abstract
1 We have studied the unit activity of 88 pulmonary stretch receptors (RPI) in the vagus nerve of the cat by using the single fibre technique. 2 In spite of a 38% decrease in tidal volume, the discharge frequency of RPI is statistically unchanged during polypnea, However, RPI are recruited earlier, but their discharge overlaps expiration. 3 Individual influences of tidal volume, temperature, and FACO2 on RPI activities are tested. During polypnea, the excitatory influences of hyperthermia and hypocapnia act against the depressing action of tidal volume reduction: RPI are still active. 4 During polypnea, respiratory rhythm and tidal volume are unchanged after bivagotomy. RPI activity seems functionally insignificant. This result suggests that the thermally induced respiratory response is mediated by structures in the upper brain stem (probably the preoptic anterior hypothalamus) and is not dependent on the integrity of the vagus nerve.
- Published
- 1975
170. A selective 5-HT(1) agonist, RU 24969, increases locus coeruleus catechol metabolic and neuronal activity.
- Author
-
Brassard JL, Quintin L, Hilaire G, Leclere JF, Oberlander C, and Pujol JF
- Abstract
Locus coeruleus activity was monitored by either in vivo electrochemistry, post-mortem HPLC, or single unit activity, after systemic administration of RU 24969, a potent serotonin-1 agonist. Whatever the methodology, activation of the locus coeruleus appeared after RU 24969 injection. Catechol oxidation current, assessed by in vivo differential pulse voltammetry and single unit activity in the locus coeruleus showed simultaneous increases after RU 24969. The increase in catechol oxidation current after RU 24969 was dose dependent (ED(50) = 1.4 mg kg(?1) of i.p. RU 24969). This increased activity was also observed on microdissected locus coeruleus as shown by the increased levels of dopamine and 3,4-dihydroxyphenylacetic acid measured with high performance liquid chromatography. Furthermore, RU 24969 treatment decreased 5-hydroxyindolacetic acid/serotonin ratio in the same microdissected locus coeruleus. This increased locus coeruleus catechol metabolic activity was suppressed by making lesions in the serotonergic systems with 5,7-dihydroxytryptamine. By contrast, neither 8-OHDPAT nor methysergide produced significant changes in the catechol oxidation current recorded in the locus coeruleus.
- Published
- 1987
- Full Text
- View/download PDF
171. [Size and inspiratory input timing as factors determining the recruitment order of the phrenic motoneurones (author's transl)].
- Author
-
Hilaire G and Monteau R
- Subjects
- Animals, Axons physiology, Cats, Evoked Potentials, Medulla Oblongata physiology, Neural Pathways physiology, Spinal Cord physiology, Synapses physiology, Synaptic Transmission, Motor Neurons physiology, Neural Conduction, Phrenic Nerve physiology, Recruitment, Neurophysiological, Respiration
- Published
- 1979
172. [Switching of the inspiration and polypnea produced by hypothalamic electrical stimulation (authors transl)].
- Author
-
Monteau R and Hilaire G
- Subjects
- Alkalosis, Respiratory etiology, Animals, Cats, Electric Stimulation, Hyperventilation complications, Hypothalamus physiology, Laryngeal Nerves physiology, Phrenic Nerve physiology, Respiration
- Published
- 1977
173. Catecholamine metabolism in the rat locus coeruleus as studied by in vivo differential pulse voltammetry. III. Evidence for the existence of an alpha 2-adrenergic tonic inhibition in behaving rats.
- Author
-
Quintin L, Buda M, Hilaire G, Bardelay C, Ghignone M, and Pujol JF
- Subjects
- 3,4-Dihydroxyphenylacetic Acid analysis, Animals, Brain Mapping, Locus Coeruleus analysis, Male, Methoxyhydroxyphenylglycol analogs & derivatives, Methoxyhydroxyphenylglycol analysis, Neural Inhibition, Norepinephrine physiology, Rats, Rats, Inbred Strains, Catecholamines metabolism, Locus Coeruleus physiology, Receptors, Adrenergic, alpha physiology
- Abstract
One of the various regulations controlling the noradrenergic (NA) locus coeruleus (LC) activity has been proved to be alpha 2 adrenergic specific, on the basis of electrophysiological data obtained in anesthetized preparations. To assess, under rigorously chronic conditions, the existence of such an inhibition, recordings of LC catechol metabolic activity were performed with in vivo differential pulse voltammetry. A guiding cannula and appropriate wires were implanted under anesthesia. After 48 h of recovery a carbon fiber electrode was threaded to the LC through this cannula to monitor the LC catechol oxidation current. Piperoxane 60 mg/kg i.p. and yohimbine 10 mg/kg i.p. induced an increase in catechol oxidation current to approximately 300% of baseline (100%) values. Graded doses of piperoxane (1-100 mg/kg i.p.) induced a dose dependent increase in LC catechol metabolic activity (ED50 = 29.7 mg/kg). These changes in catechol oxidation current were confirmed either by combined electrophysiological and electrochemical recordings in the LC of an anesthetized preparation, or by postmortem HPLC catechol determinations on LC microdissections. By contrast, guanfacine 1 mg/kg and clonidine (10-200 micrograms/kg i.p.) induced a dose dependent decrease in catechol peak height. Clonidine 50 micrograms/kg reversed the effect of piperoxane 30 mg/kg i.p. On the other hand, a highly selective alpha 1 antagonist, such as prazosin (1 mg/kg i.p.), evoked only a small increase in catechol peak (11% above saline effect). This data is consistent with previously reported electrophysiological, biochemical and autoradiographic data. They confirm the presence of a tonic alpha 2 adrenergic inhibition on NA-LC cell activity, in behaving rats.
- Published
- 1986
- Full Text
- View/download PDF
174. [Connections between inspiratory medullary neurons and phrenic or intercostal motoneurones (author's transl)].
- Author
-
Hilaire G and Monteau R
- Subjects
- Animals, Cats, Electric Conductivity, Electric Stimulation, Intercostal Nerves physiology, Medulla Oblongata physiology, Motor Neurons physiology, Phrenic Nerve physiology, Respiration, Thoracic Nerves physiology
- Abstract
10 The activity of 107 medullary inspiratory neurones has been recorded extracellularly in anesthetized cats (urethane-chloralose). According to their localization in the medulla and to their axonal pathways (tested by antidromic activation), these neurones were classified as: bulbo-spinal neurones (NBSI) which send their axons to the spinal cord; they are located in the dorsal or the ventral respiratory nucleus; propriobulbar neurons (NPBI) whose axons are probably entirely located within the medulla; they are found only in the ventral nucleus. 20 Summation of gross discharges from phrenic (C5 ventral root) or inspiratory intercostal (from T4 to T10) nerves was triggered by spikes from medullary respiratory neurones. If the studied neurone controls the activity of the recorded motor fibres, after sommation of a great number of sweeps (3,000 to 5,000), the summed nerve activity displays a short delay excitatory wave, indicating that the activity of the motoneurones is increased after the onset of the medullary potential. On the other hand, there is a flat summed nerve activity if the nerve discharge is not directly dependent on the medullary recorded activity. 30 The dorsal nucleus NBSIs send their axon to the contralateral phrenic motoneurones (as it is revealed by the excitatory wave noted on the summed phrenic nerve activity, fig. 1 and 4) and not to the intercostal motoneurones (fig. 4). 40 The ventral nucleus NBSIs control contralateral intercostal motoneurones (fig. 5). Some of them send their axons only to these motoneurones, but the majority also act on phrenic motoneurones (fig. 2 and 5). 50 Connections between NBSIs and phrenic motoneurones are monosynaptic and probably also those between NBSIs and intercostal motoneurones. 60 No excitatory wave has been observed on phrenic or intercostal summed activity when summation was triggered by NPBI spikes (fig. 3). This confirms the accuracy of the "antidromic stimulation test" used to classify medullary respiratory neurons.
- Published
- 1976
175. [Comparative study of the activity of medullary respiratory neurones during polypnea triggered by hypothalamic electrical stimulation or by hypothalamic heating (author's transl)].
- Author
-
Monteau R and Hilaire G
- Subjects
- Animals, Cats, Electric Stimulation, Hot Temperature, Physical Stimulation, Recruitment, Neurophysiological, Hypothalamus physiology, Neurons physiology, Respiration, Respiratory Center physiology
- Abstract
We have compared in "encéphale isolé bas" cats the activity of medullary respiratory neurones during polypnea triggered by electrical stimulation (PSt) or by heating (PTh) of the hypothalamus. The medullary respiratory neurones are classified according to:--their anatomical localization (dorsal or ventral respiratory nucleus);--their axon destination (spinal : bulbo-spinal respiratory neurones; non spinal : propriobulbar neurones);--their discharge pattern;--the correlation coefficient between the number of spikes delivered in each burst and the duration of the corresponding respiratory phase (HILAIRE et MONTEAU, 1975). 1. During the two polypneas (PSt and PTh), we observe:--a reduction of activity that preferentially affects some groups of neurones (propriobulbar neurones) (fig. 3);--an inversion of the discharge firing rate, which increases during inspiration in normopnea and decreases in polypnea (fig. 1; fig. 6);--a decrease of the maximal discharge firing rate for the neurones of different groups (Table V). 2. However, two differences exist : during PSt, the maximal discharge firing rate increases for the inspiratory bulbo-spinal neurones of the dorsal nucleus and for the early-burster inspiratory propriobulbar neurones. The recruitment of the bulbo-spinal inspiratory neurones seems to be different; they are activated earlier during PSt than during PTh (Table VI). 3. Some of the observed differences are probably quantitative and we think that polypnea triggered by hypothalamic electrical stimulation is a good model for thermal polypnea.
- Published
- 1978
176. Clonidine modulates locus coeruleus metabolic hyperactivity induced by stress in behaving rats.
- Author
-
Quintin L, Gonon F, Buda M, Ghignone M, Hilaire G, and Pujol JF
- Subjects
- 3,4-Dihydroxyphenylacetic Acid metabolism, Animals, Locus Coeruleus cytology, Male, Norepinephrine physiology, Rats, Rats, Inbred Strains, Behavior, Animal physiology, Clonidine pharmacology, Locus Coeruleus metabolism, Stress, Physiological metabolism
- Abstract
To assess, under rigorously chronic conditions, whether clonidine would modulate the increased activity engendered by stress in the locus coeruleus (LC), rats implanted for recordings by in vivo voltammetry, were subjected to immobilization (10 min). When injected 30-60 min before stress, clonidine 50-200 micrograms/kg i.p. modulated the increased catechol metabolic activity in a dose-dependent manner. This provides a biochemical basis, obtained in behaving rats, for using clonidine as a stabilizer in syndromes where central noradrenergic or peripheral sympathetic activities are heightened.
- Published
- 1986
- Full Text
- View/download PDF
177. Excitatory interactions between phrenic motoneurons: intracellular study in the cat.
- Author
-
Khatib M, Hilaire G, and Monteau R
- Subjects
- Action Potentials, Animals, Cats, Electric Stimulation, Female, Male, Neural Pathways physiology, Reaction Time physiology, Motor Neurons physiology, Phrenic Nerve physiology
- Abstract
1. Intracellular recordings were made from 220 Phrenic Motoneurons (PM) in anaesthetized, spontaneously breathing cats, deafferented from C3 to C7, in order to look for somatic events related to the Recurrent Responses (RR) evoked in PM axons by repetitive stimulation of the phrenic nerve. RR appear sporadically at a constant latency, originate from a spinal nicotinic mechanism and can be evoked in a PM without the presence of an antidromic volley in its axon (Khatib et al. 1986). 2. Using stimuli effective for eliciting RR in axons, we failed to observe intracellularly somatic events corresponding to RR after the occurrence of an antidromic action potential. RR were observed extracellularly in two cases, but in both cases the recording originated from axons. 3. We attempted to elicit somatic RR without a preceding antidromic action potential, using either parathreshold stimulation of the impaled PM, or suprathreshold stimulation of a phrenic strand which excluded the axon of the impaled PM. In both cases, RR-like events, with very stable latencies, appeared sporadically in 4/142 and 2/15 PMs respectively. 4. Parathreshold stimuli or stimulation of a strand were coupled with averaging of the synaptic noise in order to look for small events temporally related to the stimuli. Short latency small depolarizations, looking-like recurrent EPSPs, were revealed in 22/142 and 5/15 PMs respectively. 5. These results confirm the existence of interrelations between PMs, providing for re-excitation and coupling within the phrenic pool, in addition to centrally imposed synchronization.
- Published
- 1989
- Full Text
- View/download PDF
178. [Modification of laryngeal motor neuron activity during the installation of thermal polypnea].
- Author
-
Monteau R and Hilaire G
- Subjects
- Animals, Cats physiology, Glottis physiology, Larynx physiology, Motor Neurons physiology, Reflex, Body Temperature Regulation, Laryngeal Nerves physiology, Phrenic Nerve physiology, Respiration
- Published
- 1974
179. [On ventilatory function on during thermal or hypocapnic polypnea].
- Author
-
Monteau R, Hilaire G, and Ouedraogo C
- Subjects
- Animals, Cats, Female, Hot Temperature, Male, Carbon Dioxide blood, Hypothalamus physiology, Lung physiology, Phrenic Nerve physiology, Respiration
- Published
- 1974
180. [Discharge pattern of medullary respiratory neurones during thermal polypnea (author's transl)].
- Author
-
Monteau R and Hilaire G
- Subjects
- Action Potentials, Animals, Axons physiology, Cats, Hot Temperature, Hypothalamus, Anterior, Motor Neurons physiology, Neural Conduction, Periodicity, Phrenic Nerve physiology, Spinal Cord physiology, Time Factors, Neurons physiology, Respiration, Respiratory Center physiology
- Abstract
1 In "encephale isole" cats with a spinal section in C7, we have recorded the activity of 108 medullary inspiratory or expiratory neurones during normopnea or polypnea induced by local warming of the anterior hypothalamic region. The neurones were grouped according to their axon destination, their discharge pattern, and the correlation level between their unit activity and the phrenic neurogram. 2 In polypnea, 71% of inspiratory neurones remain active. Their firing rates, which increase during inspiratory discharges in normopnea, decrease during inspiratory discharges in polypnea. However, this inversion of discharge pattern is less marked than with phrenic motoneurones. 3 The reduction of activity in polypnea preferentially strikes certain types of neurones. While bulbo-spinal inspiratory neurones all remain active, the propriobulbar inspiratory neurones can be grouped into those which remain active and whose activity is well correlated with the phrenic neurogram, and those which become silent and showing a poor correlation. As a general rule, activity in polypnea and correlation (in normopnea) go together. 4 In polypnea, 56% of expiratory neurones cease discharging. This activity decrease applies to bulbo-spinal expiratory neurones (5 out of 14) and to propriobulbar expiratory neurones (20 out of 31). Among the expiratory neurones, only those with an elevated discharge firing rate and significant correlation coefficient values remain active in polypnea. At this time they generally exhibit a decreasing firing rate and emit only a few spikes in each burst. 5 The results suggest that during polypnea the genesis of the respiratory rhythm is dependent upon a different mechanism than in normopnea.
- Published
- 1976
181. [Activity of phrenic motor neurons during thermal and hypocapnic polypnea].
- Author
-
Hilaire G and Monteau R
- Subjects
- Animals, Cats, Hot Temperature, Motor Neurons physiopathology, Phrenic Nerve physiopathology, Respiration, Carbon Dioxide blood, Fever physiopathology, Hyperventilation physiopathology, Motor Neurons physiology, Phrenic Nerve physiology
- Published
- 1974
182. [Function of different medullary neurons in respiration].
- Author
-
Hilaire G and Monteau R
- Subjects
- Animals, Axons physiology, Cats, Decerebrate State, Electric Stimulation, Laryngeal Nerves physiology, Motor Neurons physiology, Phrenic Nerve physiology, Pressure, Spinal Cord physiology, Trachea, Vagus Nerve physiology, Medulla Oblongata physiology, Respiration
- Abstract
1. We have studied the activity of 162 medullary respiratory neurones in the "encephale isole bas" cat. These neurones were classed into three groups : bulbospinal inspiratory (NBSI : 39) or expiratory (NBSE : 15) neurones whose axons enter the spinal cord ; inspiratory or expiratory laryngeal motoneurones (MLI : 17; MLE : 10) antidromically activated by vagus nerve stimulation ; propriobulbar inspiratory (NPBI : 59) or expiratory (NPBE : 22) neurones whose axons lie perhaps entirely within the medulla. 2. Correlation coefficients between number of spikes delivered in each burst and the duration of the corresponding respiratory phase (inspiration for NBSI, MLI, NPBI ; expiration for NBSE, MLE, NPBE) have been calculated for each neurone. 3. The activity of most of the NBSI and MLI is significantly correlated with the duration of the inspiration. These two groups of neurones are probably homogenous. 4. On the basis of this correlation test, NPBI do not constitute an homogeneous population ; 50% of NPBI are not significantly correlated. The same results are obtained if correlations are calculated between the number of spikes delivered and the amplitude of integrated phrenic nerve acitivty. According to the discharge pattern and correlation test, we can consider three groups of NPBI : early recruited neurones with decreasing frequency and non significantly correlated activity (23,7%); early and late neurones with increasing frequency and significantly correlated activity (32,2%); early and late neurones with increasing frequency and non significantly correlated acitivty (44,1%). 5. The activity of most of the NBSE and NPBE with increasing frequency is significantly correlated with the duration of the expiration. Among the MLE and NPBE with a decreasing frequency, a great number of neurones are not significantly correlated. 6. The functional significantion of the different neuronal types is discussed from these correlation tests and from the pattern of activity and axonal pathways.
- Published
- 1976
183. Excitatory interactions between phrenic motoneurons in the cat.
- Author
-
Khatib M, Hilaire G, and Monteau R
- Subjects
- Animals, Cats, Cholinergic Fibers physiology, Dihydro-beta-Erythroidine pharmacology, Electric Stimulation, Mecamylamine pharmacology, Neural Conduction drug effects, Reaction Time drug effects, Reaction Time physiology, Synapses physiology, Evoked Potentials drug effects, Motor Neurons physiology, Phrenic Nerve physiology
- Abstract
Interactions between phrenic motoneurons have been analysed in anaesthetized, paralyzed cats after C3 to C7 deafferentation. Effects of electrical stimulation of the C5 phrenic axons have been studied on thin filaments dissected from the stimulated nerve. Repetitive stimulation could elicit, after the primary direct response of the stimulated axons, a secondary response named Recurrent Response, RR. RRs have been obtained in 117/186 phrenic axons. They appear sporadically (mean occurrence: 3.75 RRs elicited by 100 shocks of stimulation) at a constant latency. They originate from a spinal mechanism since they persist after C2 transection and disappear after section of the ventral roots. The mechanism responsible for RR shows spatial and temporal facilitation. The RR probability increases with the number of antidromically invaded motoneurons as revealed by changes either of stimulation intensity or of central respiratory drive. However, RR could be evoked in a motoneuron without an antidromic volley in its axon. Systemic injections of nicotinic blocking drugs such as dihydro-beta-erythroidine or mecamylamine decrease or suppress the occurrence of RR; therefore, cholinergic synapses are involved in the RR generating process. RR are assumed to be due to direct excitatory interactions between homonymous motoneurons. Recurrent axon collaterals impinging directly on neighbouring motoneurons would link together the different motoneurons of the phrenic pool. The functional significance of this phenomenon is discussed.
- Published
- 1986
- Full Text
- View/download PDF
184. Numerical study of a CO(2) laser beam focused on a theta-pinch plasma in the axial direction.
- Author
-
Saint-Hilaire G
- Abstract
Using two different empirical density profiles for the end region of a theta-pinch plasma, one with a maximum density on the axis (radiation-dispersing profile) the other with a pronounced axial minimum (radiation- trapping profile), the trajectory of the CO(2) laser beam (10.6 microm) focused axially on such a plasma was studied numerically. This calculation is used to evaluate the optical influence of the plasma, since the maximum power density in the focal plane can be reduced by several orders of magnitude owing to the presence of the plasma. This influence can be substantial even for very subcritical electron densities (n(e) << 10(19) cm(-3)). In cases of large dispersion, the characteristics of a multifocal lens capable of producing perfect focusing are found, and it is shown that the solution is not unique. The radial distribution of the laser beam power density is also calculated and shows numerous irregularities and discontinuities due to the nonuniform beam dispersion.
- Published
- 1977
- Full Text
- View/download PDF
185. Inspiratory on-switch evoked by stimulation of the mesencephalon: activity of phrenic and laryngeal motoneurones.
- Author
-
Gauthier P, Monteau R, and Hilaire G
- Subjects
- Animals, Brain Mapping, Cats, Electrophysiology, Female, Male, Motor Neurons physiology, Neural Pathways physiology, Periaqueductal Gray physiology, Laryngeal Nerves physiology, Mesencephalon physiology, Phrenic Nerve physiology, Respiration, Reticular Formation physiology
- Abstract
In anaesthetized cats (chloralose-urethan) the effects of brief tetanic electrical stimulation (50 to 100 ms) of the mesencephalic central gray matter and reticular formation on the inspiratory on-switch were studied during the expiratory (E) phase on the gross and unitary activities of phrenic, laryngeal inspiratory and laryngeal expiratory nerves. On the inspiratory laryngeal and phrenic nerves, stimulation elicited a short latency gross response concomitant with the train: the inspiratory Primary Response (Prim.R.) which is followed by an inspiratory Patterned Response (Patt.R.) of longer duration which corresponded to the inspiratory on-switch. The Patt.R. generally appeared from the Prim.R. within a latent period (Silent Phase: Sil.P.) as long as 100 ms. On the expiratory laryngeal nerve, stimulation elicited a brief activation (expiratory Prim.R.) concomitant with the beginning of the inspiratory laryngeal Prim.R. and which rapidly stopped as the latter continued during the stimulus train. The inspiratory Prim.R. corresponded to a simultaneous activation of both early and late (so defined during their spontaneous discharge) inspiratory motoneurones. The laryngeal motoneurones were more strongly activated than the phrenic ones. During the inspiratory Patt.R. all the phrenic motoneurones presented a recruitment delay earlier, compared with the spontaneous one, whereas the recruitment drastically changed from an inspiratory laryngeal motoneurones to another. Thus, the two pools of motoneurones presented different properties of activation. During the inspiratory Sil.P. no concomitant expiratory laryngeal activation was observed when most of the inspiratory motoneurones were inactive. As some inspiratory laryngeal motoneurones did not stop firing, the existence of some central respiratory neurones exhibiting a similar persistent activity and subserving the inspiratory on-switch mechanisms may be hypothesized.
- Published
- 1984
- Full Text
- View/download PDF
186. [The activity of laryngeal motoneurons during thermic polypnea].
- Author
-
Monteau R and Hilaire G
- Subjects
- Animals, Cats, Glottis innervation, Hot Temperature, Laryngeal Nerves physiology, Motor Neurons physiology, Respiration
- Published
- 1974
187. [Pattern of recruitment of phrenic motor neurons].
- Author
-
Hilaire G, Monteau R, and Dussardier M
- Subjects
- Animals, Cats, Diaphragm physiology, Electromyography, Recruitment, Neurophysiological, Respiration, Time Factors, Motor Neurons physiology, Phrenic Nerve physiology, Synaptic Transmission
- Published
- 1972
188. Three cases of testicular tumours.
- Author
-
Besley JK and Hilaire GA
- Subjects
- Adult, Cryptorchidism surgery, Dysgerminoma, Functional Laterality, Humans, Male, Teratoma, Cryptorchidism complications, Testicular Neoplasms epidemiology
- Published
- 1967
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