Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023890 (cirrhosis)
 42,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nine patients with diuretic-resistant edema, secondary to congestive heart failure, liver cirrhosis, or nephrotic syndrome, were treated with ultrafiltration using high water flux dialyzers. Access to the blood stream was obtained by femoral vein catheterization. As much as 8.3 kg of fluid were removed in 3--4 hours with only transient decline in blood pressure. The procedure was well tolerated and yielded immediate symptomatic relief. The potential for restoration of an edema-free state in patients with diuretic-resistant edema suggests that further experience with this technique is justified.
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PMID:Treatment of diuretic-resistant fluid retention with ultrafiltration. 69 13

Six patients with chronic uremia in whom ascites developed during maintenance hemodialysis are described. Their clinical and biochemical findings are reviewed and compared with data of 10 hemodialyzed patients without ascites. Liver cirrhosis was the origin of ascites in only one case. Hypoalbuminemia, liver cirrhosis, congestive heart failure, peritonitis, peritoneal tuberculosis and carcinomatosis were uniformly absent in the other patients. Long-term and marked overhydration seems to be at the origin of ascites. Lack of peripheral edema, probably due to ascites compartmentalization, was a constant finding in every noncirrhotic patient with ascites. When long-term overhydration was stopped after successful kidney transplantation or by means of diminished water and salt ingestion, reversal of the syndrome was attained. Nevertheless, ascites because of liver cirrhosis was not influenced by means of kidney transplantation. In three patients with ascites who did not receive a transplant, a significant reduction in water and salt ingestion was reached after intensive psychotherapy which led to reversal of the ascitic syndrome. In one anephric patient ascites did not develop despite water overloading. Survival has not been influenced by the formation of ascites. Further research is needed to determine the mechanism of sodium transfer across the peritoneal membrane. Influence of humoral factors can be considered, if an active transport mechanism could be demonstrated.
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PMID:Ascites in patients undergoing maintenance hemodialysis. Report of six cases and physiopathologic approach. 78 11

Magnesium deficiency can occur in congestive heart failure, after diuresis with furoxemide, ethacrynic acid and mercurials, and with digitalis intoxication, diabetic acidosis, acute and chronic alcoholism, delerium tremens, cirrhosis, malabsorption syndromes, protracted postoperative cases, open heart surgery, the diuretic phase of acute tubular necrosis, and with hypoparathyroidism, primary aldosteronism, juxta-glomerular hyperplasia and pancreatitis. Two cases of serious ventricular arrhythmias associated with magnesium depletion are described. Clinical manifestations are vague but center around neurologic symptoms such as weakness, tremors, stupor, coma, nausea, vomiting and anorexia. Serious cardiac arrhythmias also occur with magnesium depletion. Magnesium appears to be very useful in hypomagnesemic or digitalis-toxic tachyarrhythmias. Magnesium may also be valuable in normomagnesemic tachyarrhythmias. Ten to fifteen milliliters of a 20 percent magnesium sulfate solution, given intravenously over 1 minute, followed by a slow 4 to 6 hour infusion of 500 ml of 2 per cent magnesium sulfate in 5 per cent dextrose in water is recommended. Recurrence of arrhythmias is common and a second infusion of magnesium sulfate may be necessary. Hypermagnesemia occurs frequently in renal insufficiency, and magnesium therapy may then be contraindicated. Serum levels above 5.5 meq/liter should be avoided. Loss of deep tendon reflexes and a decrease in respiratory rate can be used as guides to magnesium therapy. A plea is made for frequent analysis of serum magnesium so that more knowledge can be gained regarding this important biologic element in cardiovascular disorders.
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PMID:Magnesium deficiency and cardiac disorders. 80 29

The factors involved in renin release have been extensively evaluated. The primary determinants are the transmural pressure at the afferent arteriole, sodium delivery to the macula densa, and the activity of the adrenergic nervous system. Other possible factors include circulating catecholamines, the serum and cerebrospinal fluid sodium concentration, serum potassium concentration, angiotensin II concentration, and antidiuretic hormone release. There is no convincing evidence that the renin-angiotensin system mediates renal autoregulation. Plasma renin activity is altered in a number of clinical settings. This parameter is elevated in most patients with cirrhosis and the nephrotic syndrome as well as in individuals with severe congestive heart failure. Despite inappropriately large weight gains, plasma renin suppresses normally with increased salt intake in edematous patients who have a normal glomerular filtration rate. The mechanisms of the alteration in the renin-angiotensin system in Bartter's syndrome is still not clear.
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PMID:Renin and the kidney. 110 Oct 89

Genesis of the muscatel-like fibrosis of the liver was studied on section and experimental material. The methods of histological, histochemical and electron microscopy analysis were used. It was established that the rise of pressure in the system of hepatic veins in chronic cardiac decompensation was accompanied by drastic venous congestion, hemorrhages and necrosis of hepacytes in the circumference of the central and collecting veins and along the lines of their junction which resulted in inversion of the hepatic lobes. In the zones of venous congestion pericentral fibrosis developed, which occasionally may be accompanied by priportal fibrosis. At later stages, muscatel-like cirrhosis of the liver was formed. The latter was underlaid by an elevated tropocollagenous activity of cells, this activity apart from fibroplasts, may be fulfilled also by Dupffer's cells. In chronic hepatic congestion a number of compensatory-adaptive changes in the vessels may occur.
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PMID:[Morphogenesis of congestive fibrosis of the liver]. 113 Oct 64

The major benefits of the perioperative administration of nonsteroidal anti-inflammatory drugs (NSAIDs) are related to the ability of these agents to provide analgesia without cardiovascular or respiratory depression. However, there are several possible adverse effects of NSAIDs. All NSAIDs reduce the synthesis of prostaglandins by the kidneys, but their administration in the perioperative period appears to have little potential for renal toxicity when adequate hydration is maintained and renal function is not dependent on renal prostaglandins. However, NSAIDs may cause impairment of renal function in patients with conditions such as hypovolaemia, congestive cardiac failure, or hepatic cirrhosis, since renal function in these patients may be dependent on the vascular effects of prostaglandins. Platelet aggregation is inhibited by the administration of NSAIDs, and most studies of their haematological effects report that NSAIDs are associated with an increase in bleeding times. In patients with normal haemostatic function before NSAID administration, almost all indices of coagulation remain within the normal range after NSAID treatment. Most studies of perioperative blood loss have reported no significant difference between the effects of NSAIDs and placebo in this regard. The incidence of major allergic reactions in the general population appears to be small with NSAIDs. Overall, NSAIDs appear to be safe and well tolerated drugs with a valuable role to play in the treatment of postoperative pain.
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PMID:Potential renal, haematological and allergic adverse effects associated with nonsteroidal anti-inflammatory drugs. 128 59

As a contribution to the study of ascites in patients with liver cirrhosis, congestive heart failure and peritoneal carcinomatosis evaluate in serum and ascites the concentrations of alphafetoprotein, carcinoembryonic antigen and fibronectin, they might suggest a diagnosis for the basic pathology. Forty-seven patients were studied, from whom 23 with cirrhosis, 17 peritoneal carcinomatosis and 7 with congestive heart failure. We conclude that: a) none of the tools usually employed in the analysis of ascitic fluid alone can make the base pathological process responsible for producing ascites; b) fibronectins were more useful for differential diagnosis between cirrhosis and carcinomatosis; c) alpha-fetoprotein and carcinoembryonic antigen were not useful for the definition for differential diagnosis.
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PMID:[Immunological parameters in the differential diagnosis of ascites secondary to peritoneal carcinomatosis, hepatic cirrhosis, and congestive heart failure]. 128 85

The first human studies using relatively high-doses of ANF revealed similar effects as observed in the preceding animal reports, including effects on systemic vasculature (blood pressure fall, decrease in intravascular volume), renal vasculature (rise in GFR, fall in renal blood flow), renal electrolyte excretion (rises in many electrolytes), and changes in release of a number of different hormones. Whether all these changes are the result of direct ANF effects or secondary to a (single) primary event of the hormone remains to be determined. Certainly, it has been proven that more physiological doses of ANF fail to induce short-term changes in many of these parameters leaving only a rise in hematocrit, natriuresis and an inhibition of the RAAS as important detectable ANF effects in humans. This leads us to hypothesize that ANF is a "natriuretic" hormone with physiological significance. The primary function in humans is to regulate sodium homeostasis in response to changes in intravascular volume (cardiac atrial stretch). Induction of excess renal sodium excretion and extracellular volume shift appear to be the effector mechanisms. The exact mechanism of the natriuresis in humans still needs to be resolved. It appears however, that possibly a small rise in GFR, a reduction in proximal and distal tubular sodium reabsorption, as well as an ensuing medullary washout, are of importance. The pathophysiological role of ANF in human disease is unclear. One may find elevated plasma irANF levels and/or decreased responses to exogenous ANF in some disease states. Whether these findings are secondary to the disease state rather than the cause of the disease remains to be resolved. Therapeutic applications for ANF, or drugs that intervene in its production or receptor-binding, seem to be multiple. Most important could be the antihypertensive effect, although areas such as congestive heart failure, renal failure, liver cirrhosis and the nephrotic syndrome cannot be excluded. Although the data that have been gathered to date allowed us to draw some careful conclusions as to the (patho)physiological role of ANF, the exact place of ANF in sodium homeostatic control must still be better defined. To achieve this, we will need more carefully designed low-dose ANF infusion, as well as ANF-breakdown inhibitor studies. Even more promising, however, is the potential area of studies open to us when ANF-receptor (ant)agonists become available for human use.
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PMID:Atrial natriuretic factor: its (patho)physiological significance in humans. 131 17

Diuretics have long been used to lower blood pressure in hypertensive patients or to control body fluid and electrolyte homeostasis in diseases such as congestive heart failure, chronic renal failure or cirrhosis. The initial response to diuretics is a negative sodium and fluid balance. The diuretic-induced loss of salt and water activates several hormonal systems such as vasopressin, the renin-angiotensin-aldosterone system or the sympathetic nervous system which tend to compensate for the changes in sodium and water balance. This neurohormonal response may have important clinical implications. Thus, the activation of the renin-angiotensin-aldosterone cascade appears to be partially responsible for the flat dose-blood pressure response curve of thiazides in hypertensive patients. It may also be responsible for the difference between responders and non-responders to diuretic therapy and for the development of side-effects such as hypokalaemia, metabolic alkalosis or hyponatraemia. There are several ways to prevent the undesirable consequences of the neurohormonal responses to diuretics. The first is to use low doses of these agents. It is also possible to combine them with agents that block the activity of the renin-angiotensin-aldosterone system such as ACE inhibitors or in combination with drugs that reduce aldosterone secretion such as calcium antagonists. The development of drugs able to enhance urinary sodium excretion and to reduce simultaneously the activity of the renin-angiotensin-aldosterone system may offer a new interesting alternative. This might perhaps be achieved in the future with the administration of neutral endopeptidase inhibitors which interfere with the enzymatic degradation of atrial natriuretic peptide.
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PMID:Neurohormonal consequences of diuretics in different cardiovascular syndromes. 136 43

Drug-induced hypokalaemia is a widespread problem in the elderly that can be caused by many therapeutically useful substances, the most common of which are diuretics. In certain classes of patients (e.g. those with acute myocardial infarction, with congestive heart failure receiving digitalis, or with cirrhosis), iatrogenic hypokalaemia is an established risk factor. In patients with hypertension who have no underlying heart disease or liver disease, the use of diuretics may lead to worsened glucose tolerance and cardiac arrhythmias. There is also evidence for an increased risk of sudden cardiac death.
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PMID:Drug-induced hypokalaemia. A cause for concern. 155 72


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