Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0018801 (heart failure)
 72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Myocardial adenine nucleotides (nicotinamide adenine nucleotides included), glutathione, catecholamines (DOPA, dopamine, noradrenaline, adrenaline) and some enzymes in correlation were investigated in dogs with cardiac failure induced by bilateral iliac arteriovenous fistulas, and unilateral (left) heart vagotomy was also studied for its influence on the changes in the myocardial amounts of these compounds occuring in this pathological circumstance. The cardiac failure in arteriovenous fistula was characterized by the following myocardial metabolic aspects: (I) no change in the amount of proteins (although an important cardiac hypertrophy was present); (II) decreases in the amounts of adenine nucleotides (especially ADP and ATP), without significant variations in the adenosine concentration, accompanied by increases in the concentrations of nicotinamide adenine nucleotides (in both their oxidized and reduced forms) in the heart mitochondria; (III) no change in the amounts of oxidized and reduced glutathione and in the activity of NADH2-dependent glutathione reductase; (IV) a very significant increase in the activity of MAO without significant influences on the levels of the studied catecholamines. The partial vagal denervation of the heart was found to attenuate substantially the changes in the amounts of adenine nucleotides and nicotinamide adenine nucleotides in the myocardial mitochondria and to facilitate the action of MAO on noradrenaline leading to a significant decrease in its myocardial level.
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PMID:Role of the vagus nerves and catecholamines in the production mechanism of the myocardial failure induced by arteriovenous fistulas. 21 43

The present work was undertaken in order to study the role of monoamine oxidase (MAO) enzyme in the genesis of altered cardiac noradrenalin level in the human heart in various underlying pathologic conditions. The histochemical localization and the activity of MAO were studied in the right atrial appendage of man in ischemic heart disease, in valvular heart disease without or with congestive myocardial failure, and in hearts with an uncomplicated atrial septal defect. MAO was found to be localized mainly extraneuronally in the muscle cells, a little activity was detected in the connective tissue spaces, and nerves reacting positively were tentatively identified. There were no significant differences in MAO activity measured photometrically between the various heart disease groups. It seems that MAO activity measured photometrically between the various heart disease groups. It seems that MAO enzyme plays only a small or no role in the genesis of the latered noradrenalin level in the human heart observed in ischemic heart disease or congestive cardiac failure.
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PMID:Histochemically demonstrable monoamine oxidase activity in the adult human heart in various cardiac diseases. 82 12

This monograph comprises a review of the cardiovascular effects of the various types of antidepressant drugs in clinical use. The frequency, severity and clinical importance of these effects are placed in perspective. Most antidepressants can cause changes in blood pressure. Both the tricyclic type (TCA) and the monoamine oxidase inhibitors (MAOIs) can produce postural hypotension which may be dose-limiting. In addition, the MAOIs may be associated with severe hypertension when amine-containing foods or medicines are ingested. It is unlikely that therapeutic doses of any available antidepressant drug could impair cardiac contractility. Typical TCAs can cause abnormalities of cardiac conduction and arrhythmias, but this affects less than 5% of patients, mostly to a clinically insignificant extent. Newer compounds such as lofepramine, mianserin, trazodone and viloxazine seem safer in this respect. Reports of an association between therapeutic use of TCAs and sudden death are far from convincing. Overdosage with the MAOIs, lithium and carbamazepine is dangerous but not common; overdose with a TCA is a major source of morbidity and mortality. Lofepramine, mianserin and trazodone are relatively safe in overdose. The use of various antidepressants in patients with hypertension, cardiac failure, angina pectoris, myocardial infarction, or cardiac arrhythmias is discussed and guidelines suggested for the selection and use of antidepressant medication.
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PMID:The cardiovascular effects of antidepressants. 269 Jan 61

A case of anesthesia for a heart-transplant operation on a patient on mono-amine oxidase inhibitors (M.A.O.I.) is reported. This 63-year-old farmer was in end-stage cardiac failure due to familial cardiomyopathy. For 24 hours before surgery, he was on a dobutamine infusion (3 mcg/kg/min). He had been taking nialamide (100 mg/day) for 8 years for reactional depression and had not stopped it, despite advice. Anesthesia was induced with etomidate and succinylcholine, and maintained with fentanyl (25 mcg/kg/min) and pancuronium. Cardio-vascular stability was maintained during induction and first stage of surgery, up to cardectomy. Graft ischemia was 188 minutes. Successful defibrillation occurred after verapamil 3 mg. Weaning from C.P.B. was easy with dopamine (5 mcg/kg/min) and isoprenaline (0.01 mcg/kg/min). Post-operatively, on day 1, hypertension appeared and needed a nitroprusside infusion. On day 3, the patient needed another anesthetic for removal of pericardial clots, without problems. He remained very confused and disorientated during all his stay in hospital, but improved greatly with a neuroleptic. He left the hospital on day 28 in a good shape, with an anxiolytic, captopril and immunosuppressors. One month later, he was back on nialamide. The pharmacology of the M.A.O.I. is reviewed and their interactions with anesthesia are discussed as well as the use of inotropes. In this case, the denervated heart-graft, free from M.A.O. inhibition, behaved normally when transplanted in a chronically M.A.O.I. treated recipient.
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PMID:Heart-transplant and mono-amine oxidase inhibitors. 280 Sep 99

The effects of sino-aortic denervation (SAD) on cardiac noradrenaline stores, turnover and neuronal re-uptake were examined in normotensive rabbits and rabbits with two-kidney, two wrapped hypertension. Ten to 12 days after SAD, left ventricular (LV) noradrenaline stores were reduced in renal hypertensives to 43% of that of the sham-operated rabbits, although there was no overt evidence of heart failure. This did not occur after SAD of normotensive rabbits. The reduction in noradrenaline content was accompanied by a reduction in [3H]-noradrenaline turnover time (4.4 h) compared with renal hypertensive (7.4 h) and the normotensive subgroups (9.3 h). Noradrenaline turnover rates were elevated by 25% in hypertensive compared with normotensive rabbits. Left ventricular tyrosine hydroxylase, dopamine-beta-hydroxylase and type A monoamine oxidase activities were similar in normotensive and hypertensive rabbits and were unaffected by SAD. Following SAD of hypertensive rabbits cardiac neuronal uptake for alpha-methylnoradrenaline was reduced by 33% compared with either the hypertensive or the normotensive rabbits. Sino-aortic denervation did not affect neuronal uptake in normotensives. These results suggest that following SAD of hypertensive rabbits, cardiac noradrenaline stores are depleted by enhanced cardiac sympathetic activity (reduction in [3H]-noradrenaline turnover time) and a reduction in neuronal re-uptake. It appears that the hypertensive hypertrophied heart is less able to tolerate chronic sympathetic overactivity and/or liability in coronary oxygen supply brought about by SAD.
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PMID:Differential effects of sino-aortic denervations on cardiac noradrenaline stores, turnover and neuronal re-uptake in normotensive and renal hypertensive rabbits. 377 95

1. The clinical utility of plasma metadrenalines for examination of sympatho-adrenal function and catecholamine metabolism was assessed from plasma measurements of these metabolites in a number of clinical conditions (hypertension, cardiac failure, bilateral adrenalectomy and X-chromosomal deletions of the gene for monoamine oxidase), and before and during activation of sympathetic outflow or infusions of noradrenaline and adrenaline. 2. Plasma concentrations of normetadrenaline were less than 25% of those of noradrenaline, concentrations of metadrenaline and adrenaline were similar and those of sulphate-conjugated metadrenalines were 20- to 30-fold higher than free metadrenalines. Hypertensive patients had elevated plasma concentrations of adrenaline, noradrenaline and conjugated but not free metadrenalines. Cardiac failure patients had 2- to 4-fold increases in plasma noradrenaline and free and conjugated normetadrenaline. Adrenalectomy resulted in undetectable plasma concentrations of adrenaline, 91-97% decreases in free and conjugated metadrenaline and a 40% decrease in normetadrenaline relative to noradrenaline. Patients with X-chromosomal deletions of the gene for monoamine oxidase had 6- and 16-fold increases in plasma free and conjugated normetadrenaline and 2- and 4-fold increases in free and conjugated metadrenaline. 3. Infusion of catecholamines increased plasma concentrations of free metadrenalines by less than 6% of increases in precursor amines, indicating that most plasma normetadrenaline (84%) and metadrenaline (90%) is derived from metabolism of catecholamines before their entry into the circulation. Considerable O-methylation of catecholamines within the adrenals explains why sympatho-adrenal activation resulted in smaller proportional increases in plasma metadrenalines than catecholamines. 4. Plasma metadrenalines provide supplementary information about sympatho-adrenal activity to that provided by catecholamines, but are more useful for examination of the extraneuronal inactivation of catecholamines, particularly detection of neurochemical phenotypes in genetic disorders of catecholamine metabolism. Significant formation of metadrenalines within chromaffin tissue explains why measurements of plasma metadrenalines provide an extraordinarily sensitive method for diagnosis of phaeochromocytoma.
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PMID:Plasma metadrenalines: do they provide useful information about sympatho-adrenal function and catecholamine metabolism? 761 12

The human cardiac nervous system consists of a sympathetic and a parasympathetic branch with (-)-norepinephrine and acetylcholine as the respective endogenous neurotransmitters. Dysfunction of the cardiac nervous system is implicated in various types of cardiac disease, such as heart failure, myocardial infarction and diabetic autonomic neuropathy. In vivo assessment of the distribution and function of cardiac sympathetic and parasympathetic neurones with positron emission tomography (PET) and single-photon emission tomography (SPET) can be achieved by means of a number of carbon-11-, fluorine-18-, bromine-76- and iodine-123-labelled tracer molecules. Available tracers for mapping sympathetic neurones can be divided into radiolabelled catecholamines, such as 6-[18F]fluorodopamine, (-)-6-[18F]fluoronorepinephrine and (-)-[11C]epinephrine, and radiolabelled catecholamine analogues, such as [123I]meta-iodobenzylguanidine, [11C]meta-hydroxyephedrine, [18F]fluorometaraminol, [11C]phenylephrine and meta-[76Br]bromobenzylguanidine. Resistance to metabolism by monoamine oxidase and catechol-O-methyl transferase simplifies the myocardial kinetics of the second group. Both groups of compounds are excellent agents for an overall assessment of sympathetic innervation. Biomathematical modelling of tracer kinetics is complicated by the complexity of the steps governing neuronal uptake, retention and release of these agents as well as by their high neuronal affinity, which leads to partial flow dependence of uptake. Mapping of cardiac parasympathetic neurones is limited by a low density and focal distribution pattern of these neurones in myocardium. Available tracers are derivatives of vesamicol, a molecule that binds to a receptor associated with the vesicular acetylcholine transporter. Compounds like (-)-[18F]fluoroethoxybenzovesamicol display a high degree of non-specific binding in myocardium which restricts their utility for cardiac neuronal imaging.
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PMID:PET and SPET tracers for mapping the cardiac nervous system. 1200 20

Although systemic hypertension is a common clinical disorder, hypertensive emergencies are unusual in clinical practice. Situations that qualify as hypertensive emergencies include accelerated or malignant hypertension, hypertensive encephalopathy, acute left ventricular failure, acute aortic dissection, pheochromocytoma crisis, interaction between tyramine-containing foods or drugs and monoamine oxidase inhibitors, eclampsia, drug-induced hypertension and possibly intracranial hemorrhage. It is important to recognize these conditions since immediate lowering of systemic blood pressure is indicated. The diagnosis of hypertensive emergencies depends on the clinical manifestations rather than on the absolute level of the blood pressure. Depending on the target organ that is affected, the manifestations of hypertensive emergencies can be quite expressive, yet variable. Thus, the physician has to make the clinical diagnosis urgently in order to render appropriate therapy. Several parenteral drugs can quickly and effectively lower the blood pressure in hypertensive emergencies. Intravenous fenoldopam, a selective dopamine (DA1) receptor agonist, offers the advantage of improving renal blood flow and causing natriuresis. Intravenous nicardipine may be beneficial in reserving tissue perfusion in patients with ischemic disorders. Whereas trimethaphan camsilate is the drug of choice for managing acute aortic dissection, hydralazine remains the drug of choice for the treatment of eclampsia. The alpha-adrenoceptor, phentolamine, is useful in patients with pheochromocytoma crisis. Enalaprilat is the only ACE inhibitor available for parenteral use and may be particularly useful in treating hypertensive emergencies in patients with heart failure. However, ACE inhibitors may cause a precipitous fall in blood pressure in patients who are hypovolemic. Although useful as adjunctive therapy in hypertensive crises, diuretics should be used with caution in these patients because prior volume depletion may be present in some conditions such as malignant hypertension. The treating physician should be familiar with the pharmacological and clinical actions of drugs which are indicated for and useful in the treatment of hypertensive emergencies. Once the patient's situation has stabilized, the patient may be switched to an oral medication and the physician should discuss long term follow up plans. With appropriate clinical diagnosis, hypertensive emergencies can be successfully treated and the complications can be prevented with timely intervention.
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PMID:Hypertensive emergencies. Etiology and management. 1472 43

Treatment of migraine presents special problems in the elderly. Co-morbid diseases may prohibit the use of some medications. Moreover, even when these contraindications do not exist, older patients are more likely than younger ones to develop adverse events. Managing older migraine patients, therefore, necessitates particular caution, including taking into account possible pharmacological interactions associated with the greater use of drugs for concomitant diseases in the elderly. Paracetamol (acetaminophen) is the safest drug for symptomatic treatment of migraine in the elderly. Use of selective serotonin 5-HT(1B/1D) receptor agonists ('triptans') is not recommended, even in the absence of cardiovascular or cerebrovascular risk, and NSAID use should be limited because of potential gastrointestinal adverse effects. Prophylactic treatments include antidepressants, beta-adrenoceptor antagonists, calcium channel antagonists and antiepileptics. Selection of a drug from one of these classes should be dictated by the patient's co-morbidities. Beta-adrenoceptor antagonists are appropriate in patients with hypertension but are contraindicated in those with chronic obstructive pulmonary disease, diabetes mellitus, heart failure and peripheral vascular disease. Use of antidepressants in low doses is, in general, well tolerated by elderly people and as effective, overall, as in young adults. This approach is preferred in patients with concomitant mood disorders. However, prostatism, glaucoma and heart disease make the use of tricyclic antidepressants more difficult. Fewer efficacy data in the elderly are available for selective serotonin reuptake inhibitors, which can be tried in particular cases because of their good tolerability profile. Calcium channel antagonists are contraindicated in patients with hypotension, heart failure, atrioventricular block, Parkinson's disease or depression (flunarizine), and in those taking beta-adrenoceptor antagonists and monoamine oxidase inhibitors (verapamil). Antiepileptic drug use should be limited to migraine with high frequency of attacks and refractoriness to other treatments. Promising additional strategies include ACE inhibitors and angiotensin II type 1 receptor antagonists because of their effectiveness and good tolerability in patients with migraine, particularly in those with hypertension. Because of its favourable compliance and safety profile, botulinum toxin type A can be considered an alternative treatment in elderly migraine patients who have not responded to other currently available migraine prophylactic agents. Pharmacological treatment of migraine poses special problems in regard to both symptomatic and prophylactic treatment. Contraindications to triptan use, adverse effects of NSAIDs, and unwanted reactions to some antiemetics reduce the list of drugs available for the treatment of migraine attacks in elderly patients. The choice of prophylactic treatment (beta-adrenoceptor antagonists, calcium channel antagonists, antiepileptics, and more recently, some antihypertensive drugs) is influenced by co-morbidities and should be directed at those drugs that are believed to have fewer adverse effects and a better safety profile. Unfortunately, for most of these drugs, efficacy studies are lacking in the elderly.
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PMID:Practical considerations for the treatment of elderly patients with migraine. 1687 31

Pulmonary hypertension is a devastating disease, which leads to right heart failure. Serotonin (5-HT) plays important roles in the pathogenesis of pulmonary hypertension and pulmonary vascular remodeling. The role of 5-HT in right heart failure, however, is unknown. Since oxidative stress may mediate heart failure, the present study examined the effects of 5-HT on protein oxidation in the adult rat right heart ventricle. Treatment of perfused isolated hearts with 5-HT resulted in the promotion of protein carbonylation, specifically in the right ventricle, but not in the left. While no differences between right and left ventricular antioxidant enzymes and 5-HT receptors/transporter were detected, monoamine oxidase A (MAO-A) expression and activity were found to be lower in the right ventricle compared to the left. These results indicate that differences in neither the reactive oxygen species (ROS) scavenging ability, 5-HT membrane signaling capacity, nor MAO-dependent production of hydrogen peroxide are responsible for varied 5-HT-mediated protein carbonylation in right and left ventricles. Rather, lower MAO-A in the right heart might preserve cytosolic 5-HT which triggers other mechanisms for ROS production. Consistently, inhibition of MAO-A resulted in the promotion of protein carbonylation. We propose that low MAO-A, thus reduced degradation of 5-HT, increases the intracellular 5-HT activity in the right ventricle, leading to the promotion of protein carbonylation.
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PMID:Serotonin-mediated protein carbonylation in the right heart. 1861 98


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