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Angiotensin II Modulates Catecholamine Release Into Interstitial Fluid of Canine Myocardium in VivoFarrell, Diane M., Wei, Chih Chang, Tallaj, José, Ardell, Jeffrey L., Armour, J. Andrew, Hageman, Gilbert R., Bradley, Wayne E., Dell'Italia, Louis J. 01 January 2001 (has links)
This study tested the hypothesis that exogenous infusion of angiotensin II (ANG II) leads to the release of catecholamines [norepinephrine (NE) and epinephrine (EPI)] into the cardiac interstitial fluid (ISF) space of dogs with adrenals intact (AI) (n = 7) and with adrenals clamped (AC) (n = 5). LV ISF samples were collected at 3-min intervals during administration of ANG II (100 μM ANG II at 1 ml/min for 10 min) to right atrial neurons via their local arterial blood supply and during electrical stimulation of the stellate ganglia of open-chest anesthetized dogs. In AI dogs, ANG II caused ISF NE to increase fivefold (P < 0.05) without a significant increase in coronary sinus (CS) NE. Electrical stimulation (5 ms, 4 Hz, 8-14 V, and 10 min) of the stellate ganglia caused a similar increase in ISF NE (P < 0.05), accompanied by a sevenfold increase in CS NE (P < 0.05). ISF EPI increased greater than sixfold during ANG II infusion (P < 0.05) and during stellate stimulation. However, during ANG II infusions, aorta plasma EPI levels increased fourfold in AI dogs, whereas in AC dogs, CS NE and EPI levels were unaffected during ANG II infusions. Nevertheless, baseline ISF NE and EPI did not differ and increased to a similar extent during ANG II infusions in AI versus AC dogs. Thus exogenously administered ANG II increases the amount of NE liberated into the ISF independent of the adrenal contribution, the amount matching that induced by electrical stimulation of all cardiac sympathetic efferent neurons. In contrast, NE spillover into the CS occurred only during electrical stimulation of stellate ganglia. NE release and uptake mechanisms within the myocardium are differently affected, depending on how the final common pathway of the sympathetic efferent nervous system is modified.
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The Effect of Epinephrine and Nor-epinephrine on Approach-avoidance BehaviorCarley, John Wesley, III 06 1900 (has links)
It was the purpose of the present study to compare the effect of intraperitoneal injections of the following drugs on a conditioned approach-avoidance response in mice. These drugs were epinephrine and nor-epinephrine.
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The Effect of Epinephrine on Avoidance BehaviorDeer, Paul Henry 01 1900 (has links)
This present study compares the effect on intraperitoneal injections of the following drugs on a conditioned approach-avoidance response in mice. These drugs were epinephrine and Normotensin, an epinephrine neutralizing hormone.
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Experimental arteriosclerosis biochemical and morphological changes induced by adrenaline and thyroxine /Lorenzen, Ib. January 1963 (has links)
Thesis (doctoral)--Københavns Universitet. / Bibliography: p. 90-110.
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Wirkung von Adrenalin und Propranolol an der isolierten Cornea von Mensch und KaninchenZimmermann, Jan, January 1980 (has links)
Thesis (doctoral)--Freie Universität Berlin, 1980.
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Experimental arteriosclerosis biochemical and morphological changes induced by adrenaline and thyroxine /Lorenzen, Ib. January 1963 (has links)
Thesis (doctoral)--Københavns Universitet. / Bibliography: p. 90-110.
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Protection from cyclopropane-adrenalin tachycardia by various drugsAllen, Charles Robert. January 1941 (has links)
Thesis (Ph. D.)--University of Wisconsin, 1941. / Typescript (carbon copy). Includes bibliographical references.
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Role of norepinephrine in glucose homeostasis /Ste. Marie, Linda, January 2003 (has links)
Thesis (Ph. D.)--University of Washington, 2003. / Vita. Includes bibliographical references (leaves 54-60).
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Β<sub>1</sub>-Adrenoceptor Blockade Mitigates Excessive Norepinephrine Release Into Cardiac Interstitium in Mitral Regurgitation in DogHankes, Gerald, Ardell, Jeffrey L., Tallaj, José, Wei, Chih Chang, Aban, Inmaculada, Holland, Merrilee, Rynders, Patricia, Dillon, Ray, Cardinal, Rene, Hoover, Donald B., Armour, J. Andrew, Husain, Ahsan, Dell'Italia, Louis J. 12 July 2006 (has links)
Mitral regurgitation (MR) is associated with increased neuronal release of norepinephrine (NE) and epinephrine (EP) into myocardial interstitial fluid (ISF) that may be necessary in sustaining left ventricular (LV) function via activation of cardiomyocyte β-adrenergic receptors (ARs). However, activation of neuronal β-ARs on cardiac neurons may lead to further catecholamine release, with an attendant risk of functional deterioration. We hypothesize that a beneficial effect of β-AR blockade may therefore mitigate excessive catecholamine release from cardiac adrenergic neurons in dogs with MR. We measured the effects of chronic β-receptor blockade (β-RB) on ISF NE and EP release using in vivo microdialysis in open-chest anesthetized dogs after 4 wk of MR with or without extended release of metoprolol succinate (100 mg/day) as well as in control dogs. Fractional shortening increased by 30% in both MR and MR + β-RB dogs after 4 wk of MR. In MR + β-RB dogs, stellate-stimulated heart rate change was attenuated compared with control and MR dogs, whereas peak change of LV pressure over time (+dP/dt) increased equally in all groups. Stellate-stimulated ISF NE increased fivefold over baseline in MR versus twofold in control dogs (<0.05), but the NE release was significantly attenuated in MR + β-RB dogs. In contrast, stellate-stimulated increases in ISF EP did not differ in control, MR, and MR + β-RB dogs. This study demonstrates that β-RB attenuates ISF NE release from cardiac neurons and that the LV functional response to MR is not dependent on an excess increase in ISF NE. Thus β1-RB may exert a beneficial effect by attenuating untoward effects of excessive sympathetic efferent neural NE release while sustaining early LV functional adaptation to MR.
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MODULATION OF THE ADRENAL MEDULLARY RESPONSE TO STRESS BY ESTRADIOL IN THE FEMALE RATAdams, Julye Marie 01 January 2005 (has links)
The present study has established that physiological concentrations of estradiol can modulate stress-induced increases in plasma epinephrine (EPI). In anesthetized female rats, insulin-induced hypoglycemia (0.25 U/kg) increased plasma EPI concentration to a significantly greater extent in 14-day ovariectomized (OVEX) rats compared to sham-operated controls. In 17-estradiol (E2)-replaced OVEX rats, the hypoglycemia-induced rise in plasma EPI was significantly reduced compared to OVEX rats. This suppression was due to both decreased adrenal medullary output and increased clearance of EPI. Adrenal venous EPI concentration was significantly reduced in OVEX+E2 rats, suggesting that EPI secretion from the adrenalmedulla was decreased by E2 replacement. The underlying mechanism(s) of this apparent E2-mediated reduction in secretion could not be established since 1) the expression levels of the biosynthetic enzymes tyrosine hydroxylase and phenylethanolamine N-methyltransferase were not affected in OVEX+E2 rats, suggesting that EPI biosynthesis is similar in these and OVEX rats; and 2) agonist-induced increases in intracellular CaP2+P were identical in isolated adrenal medullary chromaffin cells exposed to E2 (10 nM) or vehicle for 48 hr, suggesting that stimulus secretion coupling is unaffected by E2 treatment. In contrast, plasma clearance of EPI was significantly increased in OVEX+E2 rats. Although 48 hr exposure to E2 had no effect on intracellular signaling in chromaffin cells, acute (3 min) exposure to micromolar concentrations of E2 dose-dependently and reversibly inhibited agonist-induced CaP 2+Ptransients. Consistent with this observation, acute (30 min) infusions of E2 also significantly reduced the insulin-induced increase in plasma EPI in OVEX rats. These data demonstrate that physiological levels of circulating E2 can modulate hypoglycemia-induced increases in plasma EPI. This effect appears to be mediated by the steroids influence on adrenal medullary EPI output and plasma EPI clearance; however the mechanism(s) underlying these E2-mediated modulations remain undetermined. This study has also established that acute exposure to supra-physiological levels of E2 can suppress hypoglycemia-induced increases in plasma EPI, due at least in part to inhibition of stimulus-secretion coupling.
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