Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011570 (depression)
 172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ajmaline, a rauwolfia derivative, has been found to possess potent antiarrhythmic effects. The present study has been designed to define the cardiovascular effects of this drug. Hemodynamic studies performed in anesthetized and conscious dogs demonstrated no significant changes in measured hemodynamic parameters at doses equal to or less than 2 mg. per kilogram. Studies in isolated papillary muscle demonstrated no negative inotropic effects until concentrations of 1 X 10(-4). Disparate results were obtained with regard to heart rate reflecting the state of autonomic tone. Electrophysiologic studies in both anesthetized and conscious dogs demonstrated a significant depression of intraventricular conduction with no significant effect on AV nodal conduction; ventricular automaticity was not affected. Ajmaline did not alter digitalis-induced AV nodal conduction prolongation. However, ajmaline dramatically altered or abolished ventricular arrhythmias secondary to acute ischemia. In conclusion, these studies demonstrate that ajmaline specifically depresses intraventricular conduction, suggesting that this drug would be particularly effective in the treatment of re-entrant ventricular arrhythmias.
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PMID:Cardiovascular effects of ajmaline. 96 88

The concept of whether immune function was related to risk of recurrence was examined in patients with operable breast cancer in whom careful clinical and pathologic staging had been performed. Patients were classified according to the risk of recurrence. The "low risk" group included patients with minimal breast cancer, noninfiltrating cancer, or infiltrating cancer less than 1 cm with negative nodes. The "high ridk" group included patients with lesions greater than 1 cm or who had greater than or equal to 4 nodal metastases or who had macrometastases at Level II or III (apex). In the "intermediate risk" group were patients with infiltrating cancer less than 1 cm or with less than 4 nodal metastases at I only. Immune reactivity was assessed by skin tests, by measurement of absolute lymphocyte count, T and B cells, lymphocyte stimulation by mitogens and a battery of common antigens, serum immunoglobulins and complement levels. There were 134 patients with operable breast cancer and 63 patients with benign breast lesions. The breast cancer patients showed minimal or no impairment of DNCB skin test. Only patients with nodal metastases showed a slight but not significant impairment of DNCB responses (80% were DNCB positive compared to 90% in the controls.) The lymphocyte responses to mitogens were normal in the breast cancer patients, but there was a significant depression of lymphocyte responses to certain recall antigens such as Candida albicans and E coli. The absolute lymphocyte count and the T cell counts were normal, but B cells bearing complement receptors were decreased and B cells bearing sufface immunoglobulins were increased in the breast cancer patients. Analysis of immune function according to the pathologic stage of disease "risk of recurrence" categories showed no correlation with skin tests or lymphocyte levels. A striking and paradoxical finding was the demonstration that patients with "low risk" cancer overall had markedly lower responses to the battery of stimulating mitogens and antigens than found in patients with "high risk" or "intermediate risk" disease. Only the lymphocyte responses to PHA showed a significant linear correlation with increasing pathologic stage or "risk of recurrence." Current evidence from this study suggests that PHA response is markedly influenced by the primary tumor burdenand thus indirectly reflects the risk of recurrence.
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PMID:Immunobiology of operable breast cancer: an assessment of biologic risk by immunoparameters. 96 94

Sinus nodal function was analyzed in 25 dogs by premature stimulation of the right atrium. The return (AT-AR) and post-return (AR-A) cycles were plotted as a function of the premature cycle, and four zones were identified. Zone I (compensatory zone) was observed during the last 4.8 percent (mean value) of the sinus cycle (A-A). Zone II was observed during 43.6 to 95.2 percent (mean value) of the sinus cycle. During the latter part of zone II, AT-AR was nearly constant and AR-A remained nearly equal to A-A during the last 29 percent (mean value) of the cycle. Earlier in zone II three distinct patterns of return cycle responses were observed whereas post-return cycles either remained nearly equal to A-A or showed progressive lengthening. Zone III (interpolation) was observed in 10 animals during 39.5 to 46.2 percent (mean value) of the sinus cycle. AR-A was nearly equal to A-A in zone III. Interpolation was incomplete late and complete early in the zone. Zone IV (echo zone) was seen in another 10 animals during 40.9 to 45.3 percent (mean value) of the sinus cycle and in this zone AR-A was greater than A-A. No significant difference in these zones was seen among the animals anesthetized with pentobarbital or alpha-chloralose, or given 6-OH-dopamine. The AR-A was important in the analysis of these zones and appears to be essential to the interpretation of data derived from premature atrial stimulation. Responses to premature atrial stimulation through a catheter electrode positioned against the sinus nodal region compared favorably with responses to direct epicardial stimulation. After periods of continuous right atrial pacing a vairety of patterns of sinus nodal depression were observed at different rates and durations of stimulation. The frequent occurrence of a short sinus escape cycle followed by the maximal pause observed during rapid pacing rates suggests sinus nodal entrance block. This may be an important factor to consider in determining an optimal pacing rate for assessing sinus nodal function.
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PMID:Sinus nodal function in the intact dog heart evaluated by premature atrial stimulation and atrial pacing. 111

Varying concentrations of ethyl alcohol were injected either into the left main coronary artery or intravenously in anesthetized intact dogs. Effects of alcohol on intracardiac conduction (by His bundle electrogram) were examined at spontaneous and paced (atrial) heart rates. Alcohol by the intracoronary route prolonged atrioventricular node and intraventricular conduction times by approximately 5 to 15%. These changes preceded a depression of left ventricular systolic pressure and of the rate of rise of left ventricular pressure and an elevation of left ventricular end-diastolic pressure. Intracoronary injections of contrast medium (sodium diatriozoate) or iso-osmolar solutions of sucrose and injections of similar amounts of alcohol in the ascending or descending aorta did not affect intracardiac conduction. Increasing atrial pacing rates resulted in prolongation of atrioventricular nodal conduction intervals, but did not influence intraventricular conduction time. At each pacing rate, alcohol depressed both atrioventricular nodal and intraventricular conduction. The data suggest that alcohol has a direct depressant effect on intracardiac conduction.
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PMID:Altered intracardiac conduction after acute administration of ethanol in the dog. 115 36

The hematologic and immunologic status was evaluated after 5 years of continuously disease-free survival for 71 consecutive patients treated for Hodgkin's disease by radiotherapy. There was no evidence of residual hematologic depression, even in those patients treated initially with total nodal irradiation. Similarly, quantitative immunoglobulin levels were within the normal range, and the response to delayed hypersensitivity skin testing was intact in nearly all patients. These immunologic studies were consistent with the observed absence of an unusual incidence of infectious complications in these long-term survivors.
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PMID:Hematologic and immunologic status in Hodgkin's disease 5 years after radical radiotherapy. 119 76

Disopyramide is a Vaughan-Williams class Ia antiarrhythmic, which is distinguished by its anticholinergic activity, which is due to its active metabolite: mono-N-alkyl disopyramide. In cells with a rapid response, such as those in the His-Purkinje tissue, it depresses conduction. In slow-responding cells (sinus node and Tawara's node) direct depression of conduction and automatism, and anticholinergic stimulation have opposing effects. In terms of clinical electrophysiology, this is a Touboul class IIa compound: and action mainly on the His-Purkinje system involving extension of the conduction time and of the refractory time. Nodal conduction is improved according to measurement of the alternate Wenckebach; according to studies of the denervated heart in transplanted patients, there is a depressant effect on automatism and conduction at all levels, but the vagolytic effect corrects this activity at Tawara's node. Clinical trials have demonstrated the absence of any deterioration, and in some cases and actual improvement of nodal conduction disorders in response to disopyramide and good safety in the presence of non-major intraventricular conduction problems (such as bundle branch block). In practice, these properties mean that moderate nodal conductive disorders and simple bundle branch block do not constitute an obstacle to the use of disopyramide. In junctional tachycardia, it is particularly indicated for use in tachycardia involving an accessory pathway, but is also effective in intranodal tachycardia due to its twofold action.
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PMID:[Effects of disopyramide on normal and pathological atrioventricular conduction]. 129 85

There are receptors on lymphocytes for substance P which are found both on small recirculating and on blast lymphocytes. The principal effect of substance P on lymphocytes appears to be a stimulating one, both in vitro and in vivo. The in vivo administration of substance P to sheep by acute infusion into cannulated afferent lymphatics of peripheral lymph nodes has been found to stimulate efferent lymph flow and the output into efferent lymph of both small recirculating and blast lymphocytes. We here report that substance P both enhances and prolongs the enhancement of the output of T4 (CD4) lymphocytes from lymph nodes of sheep in vivo. This output-stimulating effect appears to be specific to T4 (CD4) lymphocytes and is associated with a depressant effect on the output of T8 (CD8) and B lymphocytes. The output-stimulating effect on small T4 (CD4) lymphocytes is quite prolonged, lasting in excess of 96 h after a single 50 micrograms acute infusion. A brief post-infusion depression in T4 (CD4) lymphocyte output is associated with an equally brief, but marked, elevation in the output into efferent lymph of the arachidonic acid metabolite, thromboxane B2. The output-stimulating effect of substance P on blast T lymphocytes is confined to the T4 (CD4) blast lymphocytes. Substance P or a similar molecule may be of value when a specific T4 (CD4) lymphocyte output stimulant effect is desired. A single prior (6 days) acute infusion of substance P into a popliteal lymph node via its cannulated afferent lymphatic produced profound changes in the response to nodal drainage area immunization with killed S. muenchen bacteria. The latent period prior to increased antibody production was abolished, as was the standard post-immunization 'shutdown' period of decreased output of lymphocytes into efferent lymph. These changes were accompanied by a marked and progressive increase in antibody production. The findings reported here suggest substance P-induced long-term potentiation (LTP) of the immune response and raise the question of an involvement of substance P as a major mediator of immunological memory.
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PMID:Substance P increases and prolongs increased output of T4 (CD4) lymphocytes from lymph nodes of sheep in vivo: is it a mediator of immunological memory? 170 49

The purpose of this study was to evaluate the cardiac electrophysiological effects of McN-5691, a new calcium-channel blocking antihypertensive drug. In anesthetized dogs, the primary electrophysiological effect of McN-5691 was dose-related prolongation of AV-nodal conduction time and refractoriness (0.1-1.0 mg/kg i.v.), which correlated with McN-5691 plasma levels. There were no significant effects on atrial or ventricular conduction times, QTc, or ventricular monophasic action potential duration. This profile was similar to that of verapamil. McN-5691 caused concentration-related, rate-dependent reductions in Vmax and amplitude of slow-response action potentials in guinea pig papillary muscle: ED-20% for depression of Vmax was 0.72 +/- 0.32 microM. Verapamil was more potent in depressing these action potentials: ED-20% for depression of Vmax was 0.03 +/- 0.01 microM. McN-5691 also caused rate-dependent reduction in Vmax and amplitude of canine Purkinje fiber action potentials, but only at relatively high concentrations: ED-20% for depression of Vmax was 55 +/- 12 microM. McN-5691 also reduced the action potential duration (0.3-30 microM) without affecting the slope of phase 4 depolarization and the maximum diastolic potential. Verapamil also reduced Vmax in Purkinje fibers (ED-20% for depression of Vmax was 32 +/- 3 microM) and shortened the action potential duration. The results show that McN-5691 has cardiac electrophysiological effects consistent with blockade of the slow inward calcium current, and that this activity occurs at concentrations well below those having local anesthetic activity. In addition, its lower potency in comparison to verapamil in depressing slow responses suggests a lesser propensity for negative inotropic effects.
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PMID:Cardiac electrophysiologic effects of McN-5691, a new calcium-channel blocking antihypertensive agent. 170 95

During long-term treatment with amiodarone, slowing of conduction through the atrioventricular node, a prolongation of the QT-interval, and a prolongation of the atrial and ventricular myocardial refractoriness always developed. During short-term treatment, these effects were not found, except for depression of the AV-nodal conduction. This led to the suggestion that the electrophysiological effects of amiodarone during long-term treatment might be partly the result of the accumulation of its metabolite desethylamiodarone. Therefore, we examined the electrophysiological effects of amiodarone and desethylamiodarone on conduction and refractoriness in isolated spontaneously beating guinea pig hearts perfused by the method of Langendorff. Within 1 h of perfusion, desethylamiodarone caused a more pronounced prolongation of the AV-nodal, His-bundle, and intraventricular conduction intervals than did amiodarone. Desethylamiodarone, but not amiodarone led to a prolongation of the QT-interval. The refractoriness of sinoatrial-, AV-nodal conduction, and of the atrial myocardium were significantly more prolonged by amiodarone than by desethylamiodarone. Both compounds showed a comparable strong rate-dependent effect on AV-nodal refractoriness. The ventricular refractoriness was similarily prolonged by either compound. These results show that for the class-III effects (i.e., prolongation of repolarization period) observed under chronic treatment of amiodarone the metabolite desethylamiodarone may be responsible. Desethylamiodarone also exerts more pronounced effects on the fast-channel-dependent parts of the conduction system than does amiodarone, a fact indicated by a higher prolongation of His-bundle and intraventricular conduction.
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PMID:Comparison of acute electrophysiological effects of amiodarone and its metabolite desethylamiodarone in Langendorff perfused guinea pig hearts. 171 60

Direct cardiac effects of KT-362 (5-[3 [[-2-(3,4-dimethoxyphenyl)-ethyl]amino]-1-oxopropyl]-2,3,4,5- tetrahydro-1,5-benzothiazepine fumarate), a drug that may inhibit intracellular calcium mobilization as well as extracellular calcium influx was compared to verapamil. Guinea pig hearts (n = 19) were used to examine the changes in atrial rate, atrioventricular conduction time (AVCT), coronary flow, myocardial oxygen consumption (MVO2), and isovolumetric left ventricular pressure (LVP). Both drugs concentration-dependently and reversibly decreased atrial rate, contractility, and MVO2; AVCT increased during spontaneous rhythm. The increases in AVCT and the incidence of AV dissociation were accentuated during cardiac pacing. Verapamil significantly increased coronary flow, while KT-362 did not. Median effective concentration (EC50) was about 25 times lower for verapamil in depressing LVP and about three times lower in depressing atrial rate and AV conduction. The changes in calcium channel current in voltage-clamped single canine Purkinje cells (n = 6) were also examined. Verapamil (0.3 microM) and KT-362 (7 microM) decreased peak Ca2+ channel current at maximum activation (+10 mV) by 38.1 +/- 8% and 28.6 +/- 6%, respectively, without shifting the current-voltage relationship. This study indicates that verapamil is more potent than KT-362 in depressing contractile function, heart rate, and AV conduction in isolated hearts and calcium current in isolated cardiac Purkinje cells. Moreover, there was a much greater difference between the EC50 for verapamil and that for KT-362 for the depression of indices of contractility (23-30-fold) than for the depression of sinoatrial and atrioventricular nodal function (2.5-4-fold).
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PMID:Comparative cardiac effects of KT-362 and verapamil in isolated heart--correlation to calcium channel current depression. 172 38


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