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1.
Acta Anaesthesiol Scand ; 52(2): 295-301, 2008 Feb.
Artigo em Inglês | MEDLINE | ID: mdl-17995999

RESUMO

BACKGROUND: In the post-operative setting, pressure lability is increased in hypertensive patients. alpha-2 agonists were shown qualitatively to reduce this lability qualitatively. Here, upon immobilization combined with emergence from anesthesia in rats and clonidine administration, pressure lability was quantitatively assessed and related to baroreflex sensitivity. METHODS: After local anesthesia of all incisions and surgical wounds and myorelaxation with metocurine, rats had halothane withdrawn for 60 min. Rats received (a) saline (n=8), (b) clonidine 30 microg/kg i.v (n=8) simultaneous to halothane discontinuation and (c) halothane readministration (n=8) 20 min after halothane discontinuation. Pressure lability was quantitatively assessed using occurrence/amplitude of peaks in systolic blood pressure (SBP) and cardiac baroreflex slope. RESULTS: Clonidine was associated with partial blunting of hypertension, reduced standard deviation of SBP, reduced number and amplitude of peaks in systolic pressure. Clonidine was also associated with increased slope of the cardiac baroreflex upon early intervals of emergence, but not at later intervals. CONCLUSION: Clonidine reduces pressure lability upon immobilization stress combined to emergence from anesthesia, via parasympathetic activation and possibly sympathetic inhibition during early emergence as opposed to sympathetic inhibition during late emergence.


Assuntos
Analgésicos/farmacologia , Anestesia/métodos , Pressão Sanguínea/efeitos dos fármacos , Clonidina/farmacologia , Análise de Variância , Período de Recuperação da Anestesia , Anestésicos Inalatórios/administração & dosagem , Animais , Halotano/administração & dosagem , Hipertensão/prevenção & controle , Masculino , Projetos Piloto , Ratos , Ratos Sprague-Dawley , Cloreto de Sódio/administração & dosagem
2.
Exp Physiol ; 87(5): 535-8, 2002 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-12481927

RESUMO

One way to identify central cardiovascular neurons is to consider their barosensitivity, for example by plotting changes in their single unit activity as a function of evoked changes in blood pressure. To simplify the genesis of such pressure-activity relationships, a coronary angioplasty catheter was threaded into the aorta of anaesthetized rats and the balloon inflated to raise the blood pressure mechanically. Here, such a procedure is exemplified for cardiac vagal motoneurons in the medulla oblongata in eight rats. This simplification bypasses potentially problematic surgery and minimizes deterioration of the animal.


Assuntos
Pressão Sanguínea/fisiologia , Cateterismo/métodos , Bulbo/fisiologia , Animais , Cateterismo/instrumentação , Eletrofisiologia , Masculino , Neurônios Motores/fisiologia , Pressorreceptores/fisiologia , Ratos , Ratos Sprague-Dawley , Nervo Vago/citologia , Nervo Vago/fisiologia
3.
Am J Physiol Regul Integr Comp Physiol ; 283(6): R1327-34, 2002 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-12388471

RESUMO

Extracellular recordings were made in the right nucleus ambiguus of urethane-anesthetized rats from 33 neurons that were activated at constant latency from the craniovagal cardiac branch. Their calculated conduction velocities were in the B-fiber range (1.6-13.8 m/s, median 4.2), and most (22/33) were silent. Active units were confirmed as cardiac vagal motoneurons (CVM) by the collision test for antidromic activation and by the presence of cardiac rhythmicity in their resting discharge (9/9). Brief arterial pressure rises of 20-50 mmHg increased the activity in five of five CVM by 0.1 +/- 0.02 spikes. s(-1). mmHg(-1) from a resting 3.8 +/- 1.2 spikes/s; they also recruited activity in two of four previously silent cardiac branch-projecting neurons. CVM firing was modulated by the central respiratory cycle, showing peak activity during inspiration (8/8). Rat CVM thus show firing properties similar to those in other species, but their respiratory pattern is distinct. These findings are discussed in relation to mechanisms of respiratory sinus arrhythmia.


Assuntos
Potenciais de Ação , Gânglios da Base/citologia , Gânglios da Base/fisiologia , Coração/inervação , Neurônios Motores/fisiologia , Nervo Vago/citologia , Nervo Vago/fisiologia , Animais , Barorreflexo/fisiologia , Masculino , Condução Nervosa/fisiologia , Ratos , Ratos Sprague-Dawley , Respiração
4.
Eur J Neurosci ; 12(9): 3361-74, 2000 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-10998119

RESUMO

The pallido-subthalamic pathway powerfully controls the output of the basal ganglia circuitry and has been implicated in movement disorders observed in Parkinson's disease (PD). To investigate the normal functioning of this pathway across the sleep-wake cycle, single-unit activities of subthalamic nucleus (STN) and globus pallidus (GP) neurons were examined, together with cortical electroencephalogram and nuchal muscular activity, in non-anaesthetized head-restrained rats. STN neurons shifted from a random discharge in wakefulness (W) to a bursting pattern in slow wave sleep (SWS), without any change in their mean firing rate. This burst discharge occurred in the 1-2 Hz range, but was not correlated with cortical slow wave activity. In contrast, GP neurons, with a mean firing rate higher in W than in SWS, exhibited a relatively regular discharge whatever the state of vigilance. During paradoxical sleep, both STN and GP neurons increased markedly their mean firing rate relative to W and SWS. Our results are not in agreement with the classical 'direct/indirect' model of the basal ganglia organization, as an inverse relationship between STN and GP activities is not observed under normal physiological conditions. Actually, because the STN discharge pattern appears dependent on coincident cortical activity, this nucleus can hardly be viewed as a relay along the indirect pathway, but might rather be considered as an input stage conveying corticothalamic information to the basal ganglia.


Assuntos
Nível de Alerta/fisiologia , Globo Pálido/citologia , Globo Pálido/fisiologia , Núcleo Subtalâmico/citologia , Núcleo Subtalâmico/fisiologia , Animais , Ritmo Circadiano/fisiologia , Condicionamento Psicológico/fisiologia , Eletroencefalografia , Eletromiografia , Masculino , Neurônios/fisiologia , Ratos , Ratos Sprague-Dawley , Restrição Física/instrumentação , Sono/fisiologia , Sono REM/fisiologia , Vigília/fisiologia
5.
Life Sci ; 68(2): 177-89, 2000 Dec 01.
Artigo em Inglês | MEDLINE | ID: mdl-11191636

RESUMO

Pharmacologically-induced hypertension engages few aminergic ventrolateral medullary cells. To further address this issue, reflex hypertension evoked by acute sino-aortic deafferentation was chosen as a model. Adrenergic rostral ventrolateral neurons were recorded with a continuous, catechol-specific tool, i.e. in vivo voltammetry. Controlled hypotension led to the expected increase in catechol signal in sham rats (n = 4) but not in deafferented (vagi, superior laryngeal and glossopharyngeal nerves) rats (n = 5). Thus, the central responsiveness to known stimuli remained intact in this preparation following acute sino-aortic deafferentation. However, acute sino-aortic deafferentation itself induced no increase in catechol signal (n = 4 or 5 respectively). No increase in catechol signal was, observed when deafferentation was performed a) under hyperoxic conditions (O2 = 100%, n = 5) b) by extensive deafferentation involving also the cervical sympathetic trunk under halothane (n = 5) c) upon restrictive deafferentation leaving the vagi intact under pentobarbital (n = 5) d) in decerebrate animals (n = 4). Adrenergic rostral ventrolateral medullary barosensitive bulbospinal neurons may be primarily involved during hypotension.


Assuntos
Catecóis/metabolismo , Bulbo/fisiologia , Vias Aferentes/fisiologia , Animais , Barorreflexo/fisiologia , Denervação , Modelos Animais de Doenças , Eletrofisiologia , Sistema de Condução Cardíaco/fisiologia , Sistema de Condução Cardíaco/cirurgia , Hipertensão/fisiopatologia , Masculino , Bulbo/patologia , Ratos , Ratos Sprague-Dawley
6.
Synapse ; 30(2): 130-9, 1998 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-9723782

RESUMO

The rostral ventrolateral medulla (RVLM) controls the vascular system. It may contribute to postoperative hypertension observed upon emergence from anesthesia. This structure contains adrenergic cardiovascular neurons. Therefore, one question was addressed: does a change in RVLM catechol activity occur upon emergence from anesthesia? Halothane-anesthetized, paralyzed rats had their ventilatory, circulatory, and acid-base stability controlled. All pressure points and incisions were infiltrated with local anesthetic. With in vivo electrochemistry, a catechol signal was recorded in the RVLM in the following circumstances: (1) under stable halothane anesthesia for 120 minutes (halothane group), (2) during 120 minutes after halothane discontinuation (saline-emergence group), (3) during 60 minutes after halothane discontinuation followed by 60 minutes after halothane readministration (readministration group), (4) emergence in rats treated with atenolol and nitroprusside to hold blood pressure as close as possible to baseline, (5) emergence after morphine 1 mg.kg(-1) i.v., (6) emergence after decerebration, and (7) emergence upon recording in the mid-brain dopaminergic A10 area. Stable halothane anesthesia (n = 6) led to no change in mean arterial pressure (MAP), heart rate (HR), and catechol signal (CAOC). During emergence from anesthesia (n = 6), MAP, HR, and catechol signal increased and did not return to baseline. By contrast, a return of MAP, HR, and catechol signal to baseline was observed upon readministration of halothane (n = 6). Whereas blood pressure and heart rate were maintained as closely as possible to baseline, a large catechol activation (n = 5) was observed upon emergence from anesthesia. A catechol activation from a lowered baseline was observed upon emergence following morphine administration (n = 5). A minor circulatory activation without RVLM catechol activation was observed upon emergence following decerebration (n = 5). Recordings in the A10 area revealed no increase in the catechol signal following emergence (n = 5). Adrenergic RVLM neurons appear to be responsive upon emergence from anesthesia, possibly being activated by suprapontine afferents impinging on the RVLM.


Assuntos
Anestesia , Catecolaminas/fisiologia , Sistema Vasomotor/efeitos dos fármacos , Antagonistas Adrenérgicos beta/farmacologia , Anestésicos Inalatórios , Animais , Atenolol/farmacologia , Estado de Descerebração/fisiopatologia , Eletroquímica , Epinefrina/fisiologia , Halotano , Masculino , Morfina/farmacologia , Entorpecentes/farmacologia , Nitroprussiato/farmacologia , Ratos , Ratos Sprague-Dawley , Transdução de Sinais/fisiologia , Vasodilatadores/farmacologia
7.
Am J Physiol ; 275(2): R350-6, 1998 08.
Artigo em Inglês | MEDLINE | ID: mdl-9688668

RESUMO

The catechol signal recorded using in vivo voltammetry within the rat rostral ventrolateral medulla (RVLM) can be interpreted as a catechol-specific index of the integrated activity of RVLM adrenergic barosensitive bulbospinal and nonbulbospinal neurons. To test the hypothesis that systemic acidosis leads to the activation of RVLM adrenergic neurons, the RVLM catechol signal was observed in rats after mild systemic acidosis (pH 7.20-7.25 for 30 min) induced by 1 M HCl under halothane anesthesia, controlled mechanical ventilation, and continuous infusion of Ringer lactate. Particular attention was paid to ensure that changes in mean arterial pressure (MAP) were <15 mmHg during HCl challenge. Saline administration was not associated with any significant change in all considered variables (n = 5). Mild isocapnic systemic acidosis was associated with an increase in catechol signal (n = 5), irrespective of carotid sinus nerve section (n = 5). In keeping with the aim of the study, there were minor (<15 mmHg) but significant changes in MAP among saline, intact, and deafferented groups. Changes in heart rate were not significant. In conclusion, a catechol activation is observed in the RVLM when arterial pressure is maintained during isocapnic systemic metabolic acidosis. This catechol activation appears primarily centrally mediated. Therefore, adrenergic RVLM neurons may relay inputs from the central respiratory generator to the sympathetic system and/or act as chemosensors for H+ next to the surface of the ventrolateral medulla.


Assuntos
Acidose/fisiopatologia , Mapeamento Encefálico , Dióxido de Carbono/sangue , Seio Carotídeo/inervação , Catecóis/metabolismo , Bulbo/fisiopatologia , Neurônios/fisiologia , Animais , Pressão Sanguínea , Denervação , Frequência Cardíaca , Ácido Clorídrico , Concentração de Íons de Hidrogênio , Masculino , Bulbo/fisiologia , Pressão Parcial , Ratos , Ratos Sprague-Dawley , Respiração , Fatores de Tempo
8.
Anesth Analg ; 86(2): 240-5, 1998 Feb.
Artigo em Inglês | MEDLINE | ID: mdl-9459226

RESUMO

UNLABELLED: The rostral ventrolateral medulla (RVLM) controls the vascular system and may contribute to postoperative hypertension. It comprises adrenergic cardiovascular neurons, a site for action of alpha2-adrenergic agonists. Because alpha2 agonists minimize perioperative circulatory activation, we asked the following question: do alpha2 agonists, such as clonidine and mivazerol, blunt the catecholamine activation observed in the RVLM on emergence from anesthesia? Halothane-anesthetized, paralyzed rats had their ventilatory, circulatory, and acid-base stability controlled. All pressure points and incisions were infiltrated with local anesthetics. With in vivo electrochemistry, a catechol signal was recorded in the RVLM during 150 min of stable halothane anesthesia (saline-halothane group); for 120 min after halothane discontinuation (saline-emergence group); after emergence and administration of the reference alpha2 agonist, clonidine 7 microg/kg or 21 microg/kg I.V. (50% or 90% effective dose [ED50 or ED90], respectively); and after emergence and administration of a new alpha2 agonist, mivazerol 20 microg/kg or 150 microg/kg I.V. (ED50 or ED90). Under halothane, dose-response curves for the RVLM catecholamine signal were constructed for mivazerol and an alpha2 antagonist, idazoxan (ED50 2.3 mg/kg I.V.). Stable halothane anesthesia (n = 5) led to no change in mean arterial pressure (MAP), heart rate (HR), or catechol signal (CAOC). During emergence from anesthesia, the MAP, HR, and CAOC increased (n = 5). Clonidine led to a near total suppression of the RVLM catecholamine activation noticed on emergence from anesthesia (n = 5). Hypertension was partially blunted with clonidine 7 microg/kg (n = 5). Tachycardia was partially blunted with mivazerol 20 microg/kg (n = 5). Pretreatment with idazoxan suppressed all the effects of mivazerol (n = 5). IMPLICATIONS: On emergence from anesthesia, alpha2 agonists modify the activity of adrenergic cardiovascular neurons located within the vasomotor center, as assessed by in vivo electrochemistry. We provide a rationale for the use of alpha2 agonists on emergence from anesthesia in coronary/hypertensive patients.


Assuntos
Agonistas alfa-Adrenérgicos/farmacologia , Anestesia , Catecolaminas/metabolismo , Clonidina/farmacologia , Imidazóis/farmacologia , Bulbo/efeitos dos fármacos , Sistema Vasomotor/efeitos dos fármacos , Agonistas de Receptores Adrenérgicos alfa 2 , Animais , Idazoxano/farmacologia , Masculino , Bulbo/metabolismo , Ratos , Ratos Sprague-Dawley
9.
Am J Physiol ; 273(3 Pt 2): R947-55, 1997 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-9321872

RESUMO

A catechol signal recorded with in vivo voltammetry within the rat rostral ventrolateral medulla (RVLM) was taken as an index of the activity of RVLM adrenergic neurons and related to the level of arterial PCO2, under halothane anesthesia. Reversible increases in catechol signal were observed during reversible increases in arterial partial CO2 pressure (PaCO2) from 20 to 60 mmHg after alteration of tidal volume (n = 5 intact rats, n = 5 after carotid sinus deafferentation). A reversible increase in inspiratory CO2 combined with constant tidal volume led to changes in PaCO2 from 40 mmHg to 50 or 60 or 70 mmHg for 60 min (n = 5 in each group) and to a reversible increase in catechol signal (r = 0.76). These changes were also observed after carotid sinus deafferentation (PaCO2 = 40 to 60 to 40 mmHg, n = 5). Lowering the PaCO2 from 40 to 20 mmHg led to a minor, nonsignificant reduction in catechol signal (n = 5). Changes in arterial pressure were minimal, although they reached statistical significance in some groups of experiments. The level of catechol metabolism in the RVLM 1) is continuously related to the level of arterial CO2, 2) functions close to its resting level under baseline nonstimulated condition with respect to CO2, and 3) is reversibly modified on changes in capnia. Sensitivity of the catechol signal, recorded in the rostral ventrolateral medulla, to CO2 appears primarily to be centrally mediated. Thus adrenergic RVLM neurons may relay inputs from the central respiratory generator to the sympathetic chemoreflex or act as chemosensors for CO2, next to the ventrolateral medulla surface.


Assuntos
Ácido 3,4-Di-Hidroxifenilacético/metabolismo , Dióxido de Carbono/sangue , Dopamina/metabolismo , Bulbo/fisiologia , Neurônios/fisiologia , Análise de Variância , Animais , Pressão Sanguínea , Seio Carotídeo/fisiologia , Denervação , Frequência Cardíaca , Concentração de Íons de Hidrogênio , Inalação , Masculino , Modelos Biológicos , Oxirredução , Oxigênio/sangue , Pressão Parcial , Ratos , Ratos Sprague-Dawley , Transdução de Sinais , Volume de Ventilação Pulmonar
10.
Pflugers Arch ; 434(5): 599-608, 1997 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-9242725

RESUMO

To test in a catechol-specific and dynamic manner for the existence of a powerful long-lasting inhibition arising from barosensitive afferents that depresses the activity of adrenergic neurons in the rostral ventrolateral medulla (RVLM), in vivo voltammetry was used before and after acute sino-aortic deafferentation. Rats were anaesthetized with pentobarbital or halothane and ventilated with a mixture of air and oxygen. Snares were inserted around the vagus, the glossopharyngeal and the superior laryngeal nerves. After placing the animal prone in the stereotaxic frame and stabilization at a high mean arterial pressure (MAP approximately 120 mmHg), the snares were rapidly closed to produce complete barodeafferentation, assessed by loss of heart rate responses and changes in renal nerve sympathetic activity in response to vasoactive agents. Recording of a catechol signal was maintained in the RVLM during deafferentation. Under pentobarbital-induced anaesthesia (n = 5), deafferentation did not lead to a significant change in the catechol signal within the deafferented group. Under halothane-induced anaesthesia and phenylephrine-induced high baseline pressure (n = 5), no changes in the catechol signal were observed upon deafferentation (not significant vs. sham animals: n = 5). This failure to demonstrate a major increase in catechol activity upon deafferentation does not fit with the hypothesis that a powerful tonic baroreflex-mediated inhibition depresses the activity of adrenergic RVLM barosensitive bulbospinal neurons, even when the baseline MAP is high. Rather, these data are compatible with weak or no inhibition of catechol activity by the baroreceptors and a nonessential role of adrenergic neurons within the baroreceptor reflex arc itself: the adrenergic neurons may not be in series within this arc but in parallel with the arc. This interpretation is in keeping with newer schemas of autonomic core circuitry that are devoid of adrenergic neurons.


Assuntos
Barorreflexo/fisiologia , Catecóis/antagonistas & inibidores , Bulbo/fisiologia , Seio Aórtico/fisiologia , Vias Aferentes/fisiologia , Animais , Catecóis/metabolismo , Denervação , Eletrofisiologia , Sistema de Condução Cardíaco/fisiologia , Masculino , Bulbo/metabolismo , Ratos , Ratos Sprague-Dawley , Sistema Vasomotor/fisiologia
11.
J Physiol ; 469: 717-37, 1993 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-8271225

RESUMO

1. Using in vivo voltammetry, this study relates catecholamine metabolism within the rat rostral ventrolateral medulla to the level of mean arterial pressure (MAP) under halothane anaesthesia. 2. A vasopressor region was circumscribed with electrical stimulations in an area located 1000-1700 microns rostral to the obex. A catechol signal was then ascertained within this area. The recording site was surrounded with phenyl-N-methyl-ethanolamine transferase immuno-positive cell bodies. 3. Three levels of decrease of arterial pressure were induced with nitroprusside infusion: -15, -35 and -55 mmHg (n = 5 in each group) from baseline for 30 min. This led to increases in the catechol signal which were inversely related to the degree of hypotension (P < 10(-4) vs. saline for the 35 and 55 mmHg groups, P < 0.05 for the 35 mmHg group as compared to the 15 and 55 mmHg groups following recovery from hypotension). 4. Following sino-aortic deafferentation, nitroprusside-induced hypotension (-35 mmHg) did not lead to any change in the catechol signal in the rostral ventrolateral medulla (n = 5). Furthermore, controlled hypotension induced in intact rats did not evoke any change in the catechol signal recorded in a dopaminergic area of the midbrain, the ventral tegmental area (A10 area; n = 5). 5. An infusion of phenylephrine increased MAP by 35 mmHg from a baseline pressure of 105 mmHg for 30 min and evoked a non-significant decrease in the catechol signal (n = 5). In another group of rats a lower baseline pressure (80 mmHg) was stabilized (n = 5) with a higher concentration of halothane. An identical increment in pressure was then produced by a phenylephrine infusion and led to a significant reduction in the catechol signal (P < 0.05 vs. saline under similar conditions; n = 5). 6. The new findings of this study are that the level of activity of the metabolism of catecholamine in the rostral ventrolateral medulla (i) is continuously related to the level of arterial pressure, (ii) functions close to its resting level under baseline conditions and is primarily engaged during hypotension and (iii) is baroreflex linked. 7. Given the lack of direct evidence for a link between unit activity and catechol metabolism, these changes in catechol activity, recorded continuously in vivo next to adrenergic cell bodies, may represent the biochemical-specific counterpart of changes in the level of electrical unitary activity of presumed adrenergic cardiovascular medullospinal sympathoexcitatory neurons. Therefore, it provides evidence that adrenaline-synthesizing neurons in the rostral ventrolateral medulla respond to baroreceptor inputs.


Assuntos
Barorreflexo/fisiologia , Catecóis/metabolismo , Bulbo/metabolismo , Animais , Barorreflexo/efeitos dos fármacos , Pressão Sanguínea/efeitos dos fármacos , Pressão Sanguínea/fisiologia , Denervação , Estimulação Elétrica , Epinefrina/farmacologia , Hemodinâmica/efeitos dos fármacos , Hemodinâmica/fisiologia , Masculino , Bulbo/anatomia & histologia , Bulbo/fisiologia , Neurônios/efeitos dos fármacos , Nitroprussiato/farmacologia , Oxirredução , Fenilefrina/farmacologia , Ratos , Ratos Sprague-Dawley , Nó Sinoatrial/anatomia & histologia , Nó Sinoatrial/fisiologia
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