39 resultados para noradrenalin
em Repositório Institucional UNESP - Universidade Estadual Paulista "Julio de Mesquita Filho"
Resumo:
Avaliaram-se os efeitos do butorfanol e da buprenorfina sobre variáveis cardiovasculares e neuroendócrinas em cães anestesiados com desfluorano, utilizando-se 30 cães adultos, machos e fêmeas, distribuídos em três grupos denominados grupo butorfanol (GBT), grupo buprenorfina (GBP) e grupo-controle (GCO). A anestesia foi induzida com propofol (8mg/kgIV) e nos animais intubados administrou-se desfluorano (1,5CAM). Após 30 minutos, nos cães do GBT, aplicou-se butorfanol (0,4mg/kgIM); nos do GBP, buprenorfina (0,02mg/kgIM); e nos do GCO, solução de NaCl a 0,9% (0,05ml/kgIM). Avaliaram-se: freqüência cardíaca; pressões arteriais sistólica, diastólica e média; débito cardíaco; pressão venosa central; cortisol; hormônio adrenocorticotrópico; noradrenalina; e glicose. As colheitas dos dados foram feitas aos 30 minutos após o início da administração do desfluorano (M0), 15 minutos após a administração do opióide ou placebo (M15), e a cada 15 minutos após M15 (M30, M45, M60 e M75). Para a avaliação neuroendócrina utilizaram-se os momentos M-30 (antes da administração dos fármacos), M0, M15 e M45. Na freqüência cardíaca houve diferença entre M0 e M15 (129 e 111bat/min) em GBT, e entre M0 e M30 (131 e 112bat/min) em GBP. Na pressão arterial média, a diferença foi entre M0 (86mmHg) e todos os momentos que se seguiram (todos os valores foram menores que 72mmHg), em GBT. A pressão arterial diastólica foi menor em todos os momentos (<53mmHg) quando comparada com a do M0 (67mmHg), em GBT. Na pressão arterial sistólica, a diferença foi entre M0 e M15 e M30 (112 versus 93 e 94mmHg, respectivamente) em GBT. A inclusão dos opióides determinou discreta redução nos parâmetros cardiovasculares, enquanto o desfluorano interferiu na função neuroendócrina elevando os níveis plasmáticos de glicose.
Resumo:
1. Tityustoxin (TsTx), a toxic fraction of Tityus serrulatus venom, was studied on the isolated guinea-pig vas deferens. It increased significantly the maximal response of the preparation to both norepinephrine and acetylcholine and decreased the effective median dose of norepinephrine. 2. The effect of TsTx on norepinephrine median dose was unchanged when atropinized or pharmacologically 'denervated' preparations were used but was abolished when both procedures were associated. 3. Atropinization of pharmacologically denervated muscles almost never modify the TsTx-induced increase in the maximal response to norepinephrine. 4. On denervated or phentolamine-treated muscles TsTx-induced increase in the maximal response to acetylcholine was abolished. 5. It was concluded that toxin predominantly induces adrenergic postsynaptic supersensitivity. 6. Of minor significance, it also induces presynaptic cholinergic and adrenergic supersensitivity. 7. Comparison of these results with those of crude venom indicates that TsTx effects may result from the sum of the effects of subcomponents not demonstrated by the chemical procedures here utilized.
Resumo:
The effects of sodium and potassium excretion after intrahypothalamic administration of two α-adrenoceptor agonists and the effect of α-adrenoceptor antagonists were studied in groups of rats. Prazosin was equally effective at blocking the natriuretic and kaliuretic responses to the α1-adrenoceptor agonist phenylephrine and the mixed α1/α2-adrenoceptor agonist noradrenaline, while yohimbine which acts preferentially on α2-adrenoceptors was effective in potentiating these responses. These results suggest the presence of two types of α-adrenoceptors for the modulation of ventromedial hypothalamic pathways that interfere with the regulation of the two cations: stimulation of α1-adrenoceptors facilitates, while stimulation of α2-adrenoceptors inhibits the excretion of the ions.
Resumo:
Cholinergic and adrenergic agonists and antagonists were injected directly into the subfornical organ (SFO), via implanted cannulae, and the volume of water ingested was recorded over a period of 1 hour after injection. Application of 2 nmol carbachol caused intense water intake in 100% of the animals (8.78±0.61 ml), with a very short intake latency. When the 2 nmol carbachol dose was preceded by increased doses of atropine, a progressive reduction in water intake was observed, with complete blockage of the thirst-inducing response to carbachol at the 20 nmol dose level with atropine. Followed by several doses of hexamethonium, the water intake caused by application of 2 nmol carbachol was reduced, although the response was not totally blocked. Injection of 80 nmol of nicotine had a significant thirst-inducing inducing effect in 50% of the animals studied (1.06±0.18 ml) and increase in water intake was further reduced by application of increased doses of hexamethonium. Raising the dose levels of noradrenaline into th SFO caused an increase in water intake although to a lesser degree than was observed after carbachol injection. When the 40 nmol dose of noradrenaline was preceded by increased doses of propranolol (5 to 40 nmol), there was a gradual reduction in water intake, with total blockage at the 40 nmol dose. Application of phentolamine in doses of 10 to 80 nmol caused no reduction in water intake after 40 nmol of noradrenaline. Application of isoproterenol at doses from 20 to 160 nmol into the SFO caused a dosedependent increase in water intake which was blocked by previous applications of propranolol. These results support the hypothesis that the water intake caused by chemical stimulation of the SFO is mainly due to muscarinic cholinergic receptors, although the influence of nicotinic receptors or participation of adrenergic mediation should not be ruled out. © 1984.
Resumo:
1. 1. The aim of these experiments was to study the extent to which previous cold-acclimation improves the cold-tolerance of diabetic rats. 2. 2. Alloxan diabetic rats (fasting blood glucose higher than 200mg/dl) were used in the experiments. 3. 3. In Expt. 1, non-cold-acclimated control and diabetic rats were exposed to cold environment (7-9°C), and the percentage of survival calculated during a 12-day experimental period. In Expt. 2, the rats were previously cold-acelimated before alloxan or saline injection (diabetic and control cold-acclimated rats) and the survival rate was also assessed during a 12-day period in the cold. 4. 4. The percentage of survival of the non-cold-acclimated diabetic rats (Expt.l) was 19% compared with 79% of the diabetic cold-acclimated animals (Expt. 2). There were no deaths in the control groups. 5. 5. Cold-acclimated diabetic rats maintained a near-normal thermogenic response after noradrenaline injection. This response was impaired in non-cold-acclimated diabetic rats. 6. 6. The results of these experiments suggest that the enhanced cold-tolerance of diabetic cold-acclimated rats could be related to the increased sympathetic activity and enhanced insulin sensitivity in thermogenic tissues, such as brown fat. © 1987.
Resumo:
The effect of a lyophilized mistletoe infusion (LMI) was studied on isolated guinea-pig vas deferens. LMI caused a contraction which was partially blocked by phentolamine but not by atropine. LMI caused a shift to the left of the norepinephrine concentration-effect curve (CEC), an effect which appeared to be blocked by atropine and was absent in animals previously treated with reserpine and α-methyl-para-tyrosine. The increase of the norepinephrine maximal response induced by LMI was not blocked by atropine or pharmacological denervation. LMI caused a shift to the right of the acetylcholine CEC and had no effect on the acetylcholine maximal response. These results suggest that the effects seem to be due mainly to the presence of potassium ion in the LMI; however, the participation of muscarinic agonist(s) of reduced intrinsic activity or some tyramine-like substance could not be ruled out.
Resumo:
Norepinephrine (NE) and clonidine produce a phasic, dose-dependent contraction of the isolated guinea-pig terminal ileum. The effect of NE was blocked by prazosin which produced a parallel rightward shift of the concentration-effect curve to NE, with a significant depression of maximum effects. Yohimbine and indomethacin noncompetitively blocked, whereas practolol potentiated, the contractile effect of NE. The contractile effect of clonidine was not antagonized by indomethacin or atropine. These results suggest that the isolated guinea-pig terminal ileum has excitatory receptors sensitive to clonidine stimulation and excitatory alpha receptors sensitive to blockade by prazosin, and that the activation of the latter may be related to the activation of endogenous prostaglandin synthesis.