Showing papers on "Norepinephrine (medication) published in 1991"

Hyperkinetic borderline hypertension in Tecumseh, Michigan.

Abstract: Of 691 healthy (untreated) villagers of Tecumseh, Michigan (average age 32.6 years), 99 had a clinical blood pressure exceeding 140/90 mmHg. Thirty-seven per cent of these borderline hypertensives had increased heart rate, cardiac index, forearm blood flow and plasma norepinephrine. These subjects had elevated self-determined home blood pressure (average of 14 measurements). The present hyperkinetic borderlines had elevated blood pressure at 5, 8, 21 and 23 years of age and their parents also had higher blood pressure. The prevalence of high blood pressure in Tecumseh, its long history, elevated blood pressure readings outside the physician's office and family background of hypertension, suggests that the hyperkinetic state is a significant clinical condition. Previous studies on hospital-based populations proved that the hyperkinetic state is caused by an excessive autonomic drive. The association of the hyperkinetic state with elevated norepinephrine in this study suggests that a sympathetic hyperactivity is present in a large proportion of unselected subjects with mild blood pressure elevation.

Exercise training lowers resting renal but not cardiac sympathetic activity in humans.

Abstract: Endurance exercise training has previously been shown to reduce the plasma concentration of norepinephrine. Whether reduction in sympathetic activity is responsible for the blood pressure-lowering effects of exercise training is unknown. Using a radiotracer technique, we measured resting total, cardiac, and renal norepinephrine spillover to plasma in eight habitually sedentary healthy normotensive men (aged 36 +/- 3 years, mean +/- SEM) after 1 month of regular exercise and 1 month of sedentary activity, performed in a randomized order. One month of bicycle exercise 3 times/wk (40 minutes at 60-70% maximum work capacity) reduced resting blood pressure by 8/5 mm Hg (p less than 0.01) and increased maximum oxygen consumption by 15% (p less than 0.05). The fall in blood pressure was attributable to a 12.1% increase in total peripheral conductance. Total norepinephrine spillover to plasma was reduced by 24% from a mean of 438.8 ng/min (p less than 0.05). Renal norepinephrine spillover fell by an average of 41% from 169.4 ng/min with bicycle training (p less than 0.05), accounting for the majority (66%) of the fall in total norepinephrine spillover. Renal vascular conductance was increased by 10% (p less than 0.05), but this constituted only 18% of the increase in total peripheral conductance. There was no change in cardiac norepinephrine spillover. The reduction in resting sympathetic activity with regular endurance exercise is largely confined to the kidney. The magnitude of the fall in renal vascular resistance, however, is insufficient to directly account for the blood pressure-lowering effect of exercise, although other effects of inhibition of the renal sympathetic outflow may be important.

Effects of desipramine on sympathetic nerve firing and norepinephrine spillover to plasma in humans

Abstract: In isolated organs, or when given in low dose intra-arterially, tricyclic antidepressant drugs are known to block reuptake of norepinephrine into sympathetic nerve varicosities, with a resultant increased norepinephrine washout. On the other hand, systemic administration of such drugs in humans reduces norepinephrine spillover to plasma. To clarify these seemingly contradictory findings, we have measured concurrently muscle sympathetic activity in the peroneal nerve (microneurography) and rates of norepinephrine spillover to plasma for the body as a whole and for the heart, the kidneys, and the forearm (radiotracer technique), both before and after intravenous infusion of desipramine, 0.5 mg/kg. Desipramine lowered the overflow of norepinephrine to plasma for the body as a whole and from the forearm and the kidneys (by 30-50%) but increased cardiac norepinephrine spillover by 25%. Both the number of sympathetic bursts per min in the peroneal nerve and their mean voltage amplitudes were markedly reduced after desipramine; total activity (bursts/min x mean burst amplitude) fell by approximately 90%. The effects of desipramine on norepinephrine spillover are explicable in terms of inhibition of central sympathetic outflow, balanced against the local blockade of transmitter reuptake. In most sites, the predominant effect is a reduction of norepinephrine overflow. For the heart, where reuptake is so important in transmitter disposition, the net effect is increased overflow.

Effect of norepinephrine on myocardial collagen gene expression and response of cardiac fibroblasts after norepinephrine treatment.

Abstract: Biosynthesis of the collagen matrix of the heart has been shown to be regulated under various physiologic and pathologic conditions. Biogenic amines have known effects on myocardial function. The authors studied the effects of norepinephrine on myocardial collagen gene expression in the rat heart. Norepinephrine was administered intravenously in a sustained-release manner. Within 1 hour after treatment, the abundance of mRNA for pro alpha 2 (I) collagen increased by 212% (P = 0.05), TGF-beta 1 by 91% (P = 0.05), and cytoskeletal actin by 429% (P less than 0.01) in the ventricular myocardium of the treated rats compared with that in control untreated rats. In extended period of treatment, the abundance of mRNA for pro alpha 2 (I) collagen reached a peak (206% increase, P less than 0.01) at day 3, remained elevated through day 6, and returned to the control levels at 2 weeks after treatment. The expression of mRNA for TGF-beta 1 was coregulated with that of pro alpha 2 (I) collagen. The abundance of mRNA for cytoskeletal actin showed a sharp increase (323%, P less than 0.05) at day 1 and remained elevated through day 6 in treated hearts compared with that in control hearts and returned to the control levels at 2 weeks after treatment. Coadministration of alpha-receptor blocker, phentolamine, led to modest reversal, whereas coadministration of beta-receptor blocker, propranolol, led to about 50% reversal of norepinephrine effects on the abundance of mRNAs. At day 3 of treatment, collagen content of ventricular tissue, as determined by hydroxyproline measurement was increased by 13% (P less than 0.05) in treated hearts. Immunofluorescent light microscopy showed increased collagen deposition and focal areas of necrosis in the endocardial regions in hearts of animals treated with norepinephrine for 2 weeks. In vitro studies on cultured cardiac fibroblasts showed that although norepinephrine treatment does not lead to significant changes in the abundance of mRNA for pro alpha 2 (I) collagen, it leads to increased mRNA for cytoskeletal actin and increased (113%, P less than 0.05) 3H-thymidine incorporation into the cell nuclei of treated cells compared with that in untreated cells. The authors conclude that although norepinephrine has no direct in vitro effects on collagen type I biosynthesis, its in vivo effects may lead to a cascade of events such as induction of growth factors that ultimately result in increased expression of collagen type I in the myocardium.

Compositions and methods of treatment of sympathetically maintained pain

Abstract: Sympathetically maintained pain is treated topically by administering to the site where sympathetically maintained pain is present an α-1-adrenergic antagonist, α-2-adrenergic agonist, or other drug that depletes or blocks synthesis of sympathetic norepinephrine, known collectively as sympatholytic agents. Chemical formulas for several sympatholytic agents are given.

Circulating catecholamine concentrations in cocaine-exposed neonates: a pilot study.

Abstract: Twenty newborns, 12 with prenatal exposure to cocaine and an unexposed control group of 8, were studied to determine concentrations of circulating catecholamines and their relationship to newborn behavior. Birth weight of the cocaine-exposed neonates was significantly lower than that of the control group. Gestational age, length, and head circumference of the cocaine-exposed neonates were also lower, although the differences did not reach statistical significance. Between 24 and 48 hours of age, circulating concentrations of norepinephrine, dopamine, and the catecholamine precursor dihydroxyphenylalanine were measured and behavior was assessed using the Neonatal Behavioral Assessment Scale. Mean dihydroxyphenylalanine concentrations were increased in the cocaine-exposed newborns (10.3 ng/mL vs 5.9 ng/mL, P = .055), while there was no difference between the groups in mean norepinephrine or dopamine concentrations. There was a significant negative correlation between norepinephrine concentration and orientation cluster score for the cocaine-exposed newborns (r2 = .6979, P = .005). norepinephrine concentration did not correlate with the score for any other behavioral cluster, nor did dopamine or dihydroxyphenylalanine concentration correlate with the score for any cluster. These preliminary data from a pilot study suggest that catecholamine activity is increased in cocaine-exposed newborns and may play a role in neurobehavioral disturbances associated with prenatal exposure to this drug.

Effects of bucindolol on neurohormonal activation in congestive heart failure

Abstract: To examine the effects of beta-adrenergic blockade on neurohormonal activation in patients with congestive heart failure, 15 men had assessments of hemodynamics and supine peripheral renin and norepinephrine levels before and after 3 months of oral therapy with bucindolol, a nonselective beta antagonist. At baseline, plasma renin activity did not correlate with any hemodynamic parameter. However, norepinephrine levels had a weak correlation with left ventricular end-diastolic pressure (r = 0.74, p less than 0.01), stroke volume index (r = 0.61, p less than 0.02) and pulmonary vascular resistance (r = 0.54, p less than 0.05). Plasma renin decreased with bucindolol therapy, from 11.6 +/- 13.4 to 4.3 +/- 4.1 ng/ml/hour (mean +/- standard deviation; p less than 0.05), whereas plasma norepinephrine was unchanged, from 403 +/- 231 to 408 +/- 217 pg/ml. A wide diversity of the norepinephrine response to bucindolol was observed with reduction of levels in some patients and elevation in others. Although plasma norepinephrine did not decrease, heart rate tended to decrease (from 82 +/- 20 vs 73 +/- 11 min-1, p = 0.059) with beta-adrenergic blockade, suggesting neurohormonal antagonism at the receptor level. No changes in I-123 metaiodobenzylguanidine uptake occurred after bucindolol therapy, suggesting unchanged adrenergic uptake of norepinephrine with beta-blocker therapy. Despite reductions in plasma renin activity and the presence of beta blockade, the response of renin or norepinephrine levels to long-term bucindolol therapy did not predict which patients had improved in hemodynamic status (chi-square = 0.37 for renin, 0.82 for norepinephrine).(ABSTRACT TRUNCATED AT 250 WORDS)

Awareness of high blood pressure increases arterial plasma catecholamines, platelet noradrenaline and adrenergic responses to mental stress.

Abstract: Thirty-six, 19-year-old men within the 95th percentile of mean blood pressure (110 mmHg) at a routine medical screening were randomized into two groups and requested to return for a follow-up visit in 2 weeks. One group was sent a neutral letter, while the other was sent a letter conveying the information that their blood pressures were elevated. After 15 min sitting in the laboratory, there was a significantly higher heart rate (P less than 0.05) in the informed group. Thirteen informed and 13 uninformed subjects were examined further by intra-arterial blood pressure recording and serial sampling of arterial catecholamines during cold pressor and mental stress tests. The study was undertaken examiner-blind. Informing the subjects of high blood pressure increased both baseline plasma noradrenaline (P less than 0.01) and adrenaline (P less than 0.05) and intraplatelet noradrenaline (P less than 0.05). Blood pressure (P less than 0.05) and heart rate (P less than 0.05) increased significantly more in the informed group when the subjects were told of the cold pressor test. In addition, there were exaggerated adrenaline (P less than 0.05) and diastolic blood pressure (P less than 0.05) responses to mental stress in the informed group. Thus, awareness of high blood pressure in young men may increase sympathetic tone and responses as measured in the laboratory. Conclusions from studies on early pathogenesis of essential hypertension should therefore be drawn with more caution when patients are aware of their high blood pressure.

In vivo monitoring of myocardial interstitial norepinephrine by dialysis technique.

Abstract: To estimate local sympathetic nerve activity of the heart in vivo, we applied a dialysis technique to the heart and attempted to monitor norepinephrine levels in local myocardial interstitial fluid. The dialysis probe consisted of an 18 x 0.31 mm dialysis fiber with a 50,000-mol wt cutoff. When the probe was perfused at 5 microliters/min in vitro, the average relative recovery rate of norepinephrine was 31.3 +/- 0.6%. Dialysis probes were implanted in the left ventricular lateral wall of the beating heart in anesthetized cats and perfused with Ringer solution at 5 microliters/min. Dialysate norepinephrine concentration was measured using high-performance liquid chromatography with electrochemical detection. 1) After probe implantation, dialysate norepinephrine concentration decreased over the first 120 min and then reached an almost steady level (41.1 +/- 4.7 pg/ml). 2) Electrical stimulation of the left stellate ganglion increased dialysate norepinephrine concentration significantly, from control level of 39.0 +/- 5.8 to 82.0 +/- 7.7 pg/ml (P less than 0.01). After stimulation, dialysate norepinephrine concentration returned to the prestimulation level. The dialysis technique using high-performance liquid chromatography permits monitoring of norepinephrine levels in local myocardial interstitial fluid and detection of changes in local cardiac sympathetic nerve activity in vivo.

Peripheral dopamine in pathophysiology of hypertension. Interaction with aging and lifestyle.

Abstract: Dopamine, an ancestral catecholamine, is physiologically natriuretic and vasodilating, thus essentially protecting against hypertension. Its actions are overshadowed by the opposite effects of its main biological partner, norepinephrine, and this is accentuated with aging. Clinical observations combined with molecular biology approaches to catecholamine-synthesizing and catecholamine-metabolizing enzymes and receptors permit the identification of some inborn defects. Subtle changes in the dopamine-norepinephrine balance may account for the enhanced peripheral noradrenergic activity seen in the setting of decreased dopaminergic activity in advanced age. These changes may contribute to the diminished ability of the aged kidney to excrete a salt load, as well as to the finding that systolic blood pressure increases with age in populations with a high, but not in those with a low, intake of salt. The attainment of advanced age in Western societies with adverse lifestyle changes (mental rather than physical stress, excess salt intake, overeating, sedentarism) appears to facilitate the development of hypertension. The adaptation to all the preceding lifestyle changes necessitates an increased dopamine generation, which may initially compensate to maintain appropriate natriuresis and vasodilation since many patients with initial borderline essential hypertension express their sympathetic hyperfunction, in addition to increased norepinephrine release, by excessive dopamine release. However, the progression of hypertension is accompanied by a peripheral dopaminergic deficiency and diminished ability to excrete salt. This may represent an eventual inadequacy of a phylogenetically redundant system resulting in decreased natriuresis and vasodilation and may account for the responsiveness of established chronic hypertension to salt restriction, diuretics, and dopaminomimetic medication.

Norepinephrine inhibits human natural killer cell activity in vitro.

Abstract: The effect of norepinephrine on human NK cell activity was investigated using a flow cytometry assay. NK cell activity was found to be inhibited by direct addition of norepinephrine to lymphocyte/target cell mixtures in a dose-dependent fashion. This inhibitory effect of norepinephrine was blocked by propranolol but not by atenolol. The results suggest that norepinephrine has a negative influence on NK cell activity and that the effect of norepinephrine is mediated via β2-adrenoceptors.

Sympathetic drive and vascular damage in hypertension and atherosclerosis

Abstract: Current knowledge of the links between the sympathetic nervous system and vascular damage in hypertension and atherosclerosis is summarized. The main mechanisms leading to the structural changes of the arterial wall as a consequence of enhanced adrenergic drive are reported. Hemodynamic mechanisms, including increase in pressure leading to changes in the arterioles and alteration of flow pattern with impact mainly in the large arteries, respectively, account for the typical target organ damage observed in hypertension and is involved in the development of atherosclerotic lesions. Regarding the direct effect of catecholamines, the atherogenic effects of epinephrine and norepinephrine in the absence of changes in blood pressure and cholesterol levels have been demonstrated in vivo in monkeys and rabbits. In rats, catecholamine administration induces polyploidization of aortic smooth muscle cells in vivo and in vitro. Regarding the effects of lipid metabolism, adrenergic stimulation may induce free fatty acid transformation into triglycerides with secondary increase in very low density lipoprotein plasma levels and decrease of very low density lipoprotein transformation into high density lipoprotein through circulating lipoprotein lipase inhibition. Catecholamines may also increase cholesterol levels of the arterial wall, probably by triggering the acyl-cholesterol-acyl-transferase activity. Finally, indirect evidence of the pathogenetic role played by the sympathetic system in the development of vascular disease derives from the results of experiments showing that sympatholytic agents are capable of reducing both medial hypertrophy and atherogenesis. beta-Blockers, alpha- and beta-blockers, and centrally acting sympatholytic agents not only ameliorate hemodynamics but also appear to inhibit the direct effects of catecholamines on the arterial wall.

Autonomic nervous system and coronary blood flow changes related to emotional activation and sleep.

Abstract: Experimental models have been developed to investigate the influences of anger, fear, and sleep on coronary blood flow. Studies of anger in dogs with coronary stenosis indicate that the postarousal phase is particularly conducive to myocardial ischemia. Specifically, a delayed coronary vasoconstrictor response has been observed within 1-3 minutes after cessation of behavioral arousal. The response is prevented by bilateral stellectomy and can be elicited in anesthetized animals by electrical stimulation of the right or left stellate ganglion. The latter effect is averted by alpha-adrenergic blockade with prazosin. Although the basis for the protracted nature of the delayed vasoconstriction remains to be clarified, the current hypothesis is that the phenomenon results from a time-dependent imbalance between the vasoconstrictor effects of adrenergic input and the vasodilator influences of coronary pressure and/or cardiac metabolic activity. A behavioral model emulating the fear state has also been developed. When dogs that fail to exhibit anger are placed in a food-access confrontation protocol, the animals demonstrate a fearlike state evidenced by a cowering posture and somatic tremor. There is a distinct plasma catecholamine profile that is characterized by a predominant increase in epinephrine compared with norepinephrine. This is in contrast to the pattern observed during anger, in which a prevalent increase in norepinephrine is observed. Fear results in significant increases in heart rate, arterial blood pressure, and coronary arterial flow. Sleep is also associated with substantial alterations in coronary hemodynamic function.(ABSTRACT TRUNCATED AT 250 WORDS)

Vascular renin-angiotensin system and neurotransmission in hypertensive persons.

Abstract: The existence of a vascular renin-angiotensin system and its role in modulating sympathetic activity were evaluated in forearm arterioles of hypertensive individuals. Isoproterenol (0.03, 0.01, 0.3 microgram/100 ml/min for 5 minutes each; n = 5) was infused into the brachial artery, and active and inactive renin, angiotensin II, and norepinephrine forearm balance (venous-arterial differences corrected for forearm blood flow by strain-gauge plethysmography) were measured. Isoproterenol caused vasodilation and a dose-dependent active and inactive renin, angiotensin II, and norepinephrine outflow, an effect blunted by propranolol (10 micrograms/100 ml/min). To evaluate the role of local angiotensin II on beta-mediated norepinephrine overflow, the experiment was repeated with captopril (2.5 micrograms/100 ml/min for 10 minutes; n = 5), which abolished angiotensin II release and significantly reduced norepinephrine overflow. To test whether angiotensin II facilitates both prejunctional norepinephrine release and its postjunctional action, we evaluated the effect of exogenous angiotensin II, infused into the brachial artery at low concentrations (0.001 microgram/100 ml/min), on forearm vasoconstriction and norepinephrine release induced by endogenous sympathetic activation (application of a lower body negative pressure: -10 and -20 mm Hg for 5 minutes, n = 10) and on the vasoconstrictor effect of local norepinephrine (0.0015, 0.005, 0.015, 0.05, 0.15 micrograms/100 ml/min for 3 minutes each; n = 6). Although angiotensin II increased the vasoconstricting effect and the norepinephrine release induced by lower body negative pressure, it failed to affect norepinephrine-mediated vasoconstriction. Our data indicate the existence in hypertensive individuals of a vascular renin-angiotensin system that seems to modulate sympathetic activity through the presynaptic facilitation of norepinephrine release.

Sodium-induced cardiac hypertrophy. Cardiac sympathetic activity versus volume load.

Abstract: To investigate the possible contributions of cardiac volume overload and cardiac sympathetic hyperactivity in the effects of sodium on cardiac mass, we evaluated the effects of treatment with saline (1%) and deoxycorticosterone acetate + saline (DOCA/saline) for 10 days and 3 and 6 weeks on ventricular anatomy and intracardiac pressures. Sympathetic activity in the heart and other tissues was assessed at 10 days and 3 weeks by catecholamine turnover rates and tyrosine hydroxylase activity. Both saline and DOCA/saline produced concentric left ventricular (LV) hypertrophy. Right ventricular weight showed only small increases. Saline treatment did not affect LV end-systolic pressure, whereas DOCA/saline caused a moderate increase (to 159 mm Hg). Right atrial pressure was not affected by either treatment, whereas LV end-diastolic pressure increased but only after the development of LV hypertrophy. Both saline and DOCA/saline decreased LV norepinephrine concentration; only DOCA/saline decreased norepinephrine content per LV. However, neither treatment altered the norepinephrine turnover rate constant, the absolute turnover rate, or the tyrosine hydroxylase activity. The results demonstrate that increased saline intake or DOCA/saline produces concentric LV hypertrophy without any increase in blood pressure in the case of saline and with increases in LV filling pressure following rather than preceding the appearance of LV hypertrophy. The lack of an increase in LV norepinephrine turnover and tyrosine hydroxylase activity suggests that the hypertrophy is not mediated through increased cardiac neuronal sympathetic activity.

Neuronal reuptake of norepinephrine and production of dihydroxyphenylglycol by cardiac sympathetic nerves in the anesthetized dog.

Abstract: BACKGROUND Reuptake of norepinephrine by cardiac sympathetic nerves before and during two levels of electrical stimulation of the left ansa subclavia was estimated in anesthetized dogs from the cardiac production of dihydroxyphenylglycol (DHPG), the intraneuronal metabolite of norepinephrine. METHODS AND RESULTS The method depended on the effects of neuronal uptake blockade with desipramine on the cardiac production of [3H]DHPG from intravenously infused [3H]norepinephrine. The ratio of the desipramine-induced decrease in the cardiac extraction of [3H]norepinephrine to the production of [3H]DHPG was used to transform the cardiac production of DHPG from recaptured norepinephrine into a rate for norepinephrine reuptake. Cardiac spillover of norepinephrine into plasma increased from 49 +/- 12 to 205 +/- 40 and 451 +/- 118 pmol/min during sympathetic activation. Cardiac DHPG production increased from 108 +/- 18 to 166 +/- 34 and 240 +/- 47 pmol/min. Desipramine decreased resting cardiac DHPG production by 20% and completely blocked the stimulation-induced increase. Thus, most (80%) cardiac DHPG produced at rest was derived from norepinephrine leaking from storage vesicles. This amount remained constant, and that derived from recaptured norepinephrine increased during sympathetic activation. The cardiac extraction of [3H]norepinephrine (126,000 dpm/min) and production of [3H]DHPG (3,790 dpm/min) were decreased by 55-57% after desipramine. Thus, only 3% of the norepinephrine recaptured by cardiac sympathetic nerves appeared in plasma as DHPG. The remainder was sequestered into storage vesicles (more than 94%) or ultimately formed metabolites other than DHPG (less than 3%). Reuptake of norepinephrine by cardiac sympathetic nerves was 1,188 +/- 476 pmol/min and increased in parallel with cardiac norepinephrine spillover to 4,182 +/- 1,982 and 6,594 +/- 2,241 pmol/min during sympathetic stimulation. CONCLUSIONS Of the norepinephrine released by cardiac sympathetic nerves, 16-fold more was recaptured than entered plasma. Combined estimation of norepinephrine reuptake and spillover offers an approach to assess the efficiency of neuronal reuptake in disorders of cardiac function.

Effect of elevated plasma norepinephrine on electrocardiographic changes in subarachnoid hemorrhage.

Abstract: We compared electrocardiographic abnormalities and plasma norepinephrine concentrations in 40 patients with subarachnoid hemorrhage within the first 24 hours, at 72 hours, and after 1 week. In 20 patients with high plasma norepinephrine concentrations within the first 24 hours, sinus tachycardia (p less than 0.02) and negative T waves (p less than 0.01) were more frequent than in the 20 patients with normal plasma norepinephrine concentrations. After 72 hours, only sinus tachycardia (p less than 0.03) was found with increased frequency in the 26 patients with high plasma norepinephrine concentrations. Although 24 patients had high plasma norepinephrine concentrations after 1 week, we found no differences in the frequency of electrocardiographic abnormalities compared to patients with normal plasma norepinephrine. However, QTc prolongation, U waves, ST depression, and arrhythmias were found with similar frequency in patients with both high and normal plasma norepinephrine concentrations. We conclude that, with the exception of sinus tachycardia and negative T waves, electrocardiographic changes in patients with subarachnoid hemorrhage do not depend on elevated plasma norepinephrine concentrations.

Postoperative Catecholamine Response to Onychectomy in Isoflurane‐anesthetized Cats Effect of Analgesics

Abstract: Twenty-four healthy adult cats were anesthetized with isoflurane in oxygen Six cats (group 1) served as controls; onychectomy of the forefeet was performed in the other three groups Saline was administered intravenously to group 1, and morphine, xylazine, and salicylate were administered to groups 2, 3, and 4, respectively Mixed venous blood samples were drawn for catecholamine analysis before induction of anesthesia, after recovery from anesthesia, and 30 minutes and 60 minutes after administration of the analgesic agent Plasma catecholamine concentrations were determined by high performance liquid chromatography Isoflurane anesthesia alone induced a transient increase in epinephrine concentration Norepinephrine and epinephrine concentrations increased significantly after onychectomy Morphine and xylazine significantly decreased postoperative norepinephrine and epinephrine concentrations; salicylate did not

Influence of topically applied adrenergic agents on cochlear blood flow.

Abstract: This study was designed to assess the role of adrenergic receptors in the control of cochlear blood flow. Laser Doppler flowmetry was used to determine the effects of adrenergic drugs topically applied to the round window membrane of the cochlea. The relative influence of the various receptor types (alpha 1, alpha 2, beta 1, and beta 2) was examined by a selection of agonists and antagonists. The agonists norepinephrine and epinephrine, which have mixed alpha- and beta-receptor effects, and phenylephrine, a strong alpha 1-agonist, all induced a dose-dependent reduction in cochlear blood flow. The agonists isoproterenol (beta-active), salbutamol (alpha 2-active) had no effect on cochlear blood flow. Of the antagonists, when tested alone, only the selective alpha 1-antagonist prazosin had a direct effect on cochlear blood flow, demonstrating an increase in cochlear blood flow. The selective alpha 2-antagonist idazoxan, the beta-antagonist propranolol, and the unselective alpha-antagonist phentolamine had no effect on cochlear blood flow. Interaction studies of agonists and antagonists were performed to specifically define the receptor subclasses responsible for the cochlear blood flow increases with norepinephrine and epinephrine. The results are consistent with the presence of an alpha 1-adrenergic sympathetic control of cochlear blood flow.

Mechanism of the positive inotropic effect of ketamine in isolated ferret ventricular papillary muscle.

Abstract: Ketamine is a cardiovascular stimulant through its sympathomimetic effects; however, its direct inotropic effect has been reported as positive in rat and negative in rabbit ventricular myocardium. This study reexamines the effect of ketamine on the contractile properties of mammalian ventricular myocardium. In isolated, electrically stimulated ferret right ventricular papillary muscles, the authors assessed the inotropic effect of ketamine (10(-6) M to 3 x 10(-4) M in 0.5 log M increments) alone and in various pharmacologic conditions designed to delineate ketamine's site(s) of action. Ketamine exerted a positive inotropic effect that was maximal at 10(-4) M. Bupranolol (10(-7) M) abolished this positive inotropic effect, whereas phentolamine (10(-6) M) did not. Depletion of norepinephrine stores by reserpine also eliminated ketamine's positive inotropic effect, indicating that ketamine caused indirect activation of the beta-adrenoceptor. Ketamine did not exert a positive inotropic effect in the presence of simultaneous inhibition of neuronal norepinephrine uptake with desmethylimipramine (DMI) (5 x 10(-6) M) and extraneuronal uptake with corticosterone (5 x 10(-5) M). It is likely that ketamine's action is to inhibit norepinephrine uptake at the neuroeffector junction rather than to augment norepinephrine release. In the presence of corticosterone, ketamine exerted a smaller positive inotropic effect than that seen with ketamine alone. Ketamine produced a small increase in force development in the presence of DMI, but this did not reach statistical significance. Inhibition of neuronal catecholamine uptake appears to be the predominant mechanism of ketamine's positive inotropic effect.

Effect of angiotensin II antagonism on canine renal sympathetic nerve function.

Abstract: The objective of this study was to examine effects of nonpeptide angiotensin II (Ang II) receptor antagonists on renal vasoconstrictor responses to renal nerve stimulation (RNS) and intrarenal injection of norepinephrine in pentobarbital-anesthetized dogs. The subtype 1-selective Ang II receptor antagonists, DuP 753 (2-n-butyl-4-chloro-5-(hydroxymethyl)-1-[(2'-(1H- tetrazol-5-yl)biphenyl-4-yl)methyl]imidazole, potassium salt) and EXP3174 (2-n-butyl-4-chloro-1-[(2'-(1H-tetrazol-5-yl) biphenyl-4-yl)methyl]imidazole-5-carboxylic acid) given intra-arterially to the kidney caused dose-dependent reductions of renal vasoconstrictor responses to RNS but not to norepinephrine. In contrast, the subtype 2-selective Ang II receptor specific ligand, PD 123177 (1-[(4-amino-3-methylphenyl)methyl]-5-(diphenylacetyl)-4,5,6,7- tetrahydro-1H-imidazo[4,5-c]pyridine-6-carboxylic acid), did not alter the renal vasoconstrictor responses to RNS, norepinephrine, and Ang II in doses of 10-100 micrograms/kg/min i.a. Captopril also reduced the renal vasoconstrictor responses to RNS but not to norepinephrine. However, saralasin did not alter the renal vasoconstrictor responses to RNS and norepinephrine, although it was as effective as DuP 753 and EXP3174 in blocking the renal vasoconstrictor response to Ang II. These results suggest that endogenous Ang II enhances renal adrenergic function at the prejunctional site in anesthetized dogs. Analogous to the Ang II receptor in vascular smooth muscle, the prejunctional Ang II receptor appears to be of subtype 1. Mechanisms accounting for the absence of the inhibition of Ang II-mediated renal adrenergic response by saralasin remain to be determined.

Norepinephrine depletion impairs motor recovery following sensorimotor cortex injury in the rat

Abstract: Beam-walking in the rat provides a method for investigating the effects of drugs on motor recovery following unilateral injury to the sensorimotor cortex. In the present experiment, the impact of norepinephrine depletion on beam-walking recovery was investigated. Groups of rats were first given either the neurotoxin DSP-4 or saline. Two weeks later, the animals were trained at the beam-walking task. Rats were then subjected to either a unilateral sensorimotor cortex lesion or sham operation. Recovery of beam-walking performance was measured over the next 12 days. Pretreatment with DSP-4 significantly slowed the rate of recovery but did not significantly affect sham-operated rats. Norepinephrine was significantly diminished in both lesioned and sham-operated rats that had been given DSP-4. These results are consistent with the hypothesis that recovery of beam-walking in the rat is mediated, at least in part, through noradrenergic neurons.