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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The effect of the dopamine D1 receptor agonist, fenoldopam, was studied in streptozotocin-induced diabetic rats treated with insulin to maintain a moderate hyperglycemia and fed a low, normal or high protein diet.
Fenoldopam
at 1 microgram/kg per min i.v. resulted in a significant increase in both glomerular filtration rate (GFR) and renal blood flow (RBF) in diabetic rats fed a normal protein diet. In rats fed a low protein diet, fenoldopam failed to alter either parameter, however, there was a very significant increase in both GFR and RBF in diabetic rats fed a high protein diet. Since
diabetes
is associated with a decrease in both urinary dopamine excretion as well as the hyperemic response to protein ingestion, it is possible that stimulation of dopamine D1 receptors by fenoldopam restores renal functional reserve in diabetic animals. The observation that the dopamine D1 receptor antagonist, SCH 23390, at a dose (1 microgram/kg per min) that abolished the renal vasodilator effects of fenoldopam, failed to alter renal hemodynamics in diabetic rats suggests that endogenous dopamine has little effect.
...
PMID:Effect of dietary protein on the renal response to fenoldopam in diabetic rats. 790 43
We have studied the effect of chronic treatment with dopamine D1 receptor agonist fenoldopam (1 mg/kg, i.p. daily for 6 weeks) on renal function and metabolic parameters in streptozotocin (STZ)-diabetic rats.
Diabetes
was induced by a single tail vein injection of STZ (45 mg/kg). STZ produced severe hyperglycemia, hypoinsulinemia, hypercholesterolemia, hypertriglyceridemia, hypertension and bradycardia.
Fenoldopam
treatment significantly reduced fasting but not fed blood glucose levels and lowered the blood pressure in diabetic animals. Significant change was not observed in insulin, cholesterol, triglyceride levels. Diabetic animals showed increase in AUCglucose and decrease in AUCinsulin during oral glucose tolerance test.
Fenoldopam
treatment did not significantly change these values in diabetic animals. STZ produced increase in serum urea, creatinine and blood urea nitrogen. Diuresis and urinary sodium retention was observed in diabetic animals. Renal hypertrophy was observed as seen from increased kidney weight/body weight ratio and increased total RNA content as well as decreased total DNA content.
Fenoldopam
treatment significantly lowered serum urea, creatinine and blood urea nitrogen. Urinary sodium retention was significantly reduced and renal hypertrophy was prevented with fenoldopam treatment as seen from the improved kidney weight/body weight ratio.
Fenoldopam
treatment significantly prevented reduction in total DNA content and increase in total RNA content further substantiating reduced renal hypertrophy. Our data suggest that STZ induced
diabetes
is associated with renal dysfunctions and fenoldopam treatment could be beneficial in a condition where
diabetes mellitus
co-exists with hypertension and compromised renal function.
...
PMID:Beneficial effects of fenoldopam treatment on renal function in streptozotocin-induced diabetic rats. 1188 92
Fenoldopam
is an interesting orphan drug that is a variant of dopamine. It differs significantly from dopamine in that it is a specific agonist for the type I (DA-1) receptor. The DA-1 receptors are particularly prominent in the renal vasculature, renal tubules, mesenteric vasculature, and peripheral vessels. The DA-1 receptor stimulation vasodilates renal and peripheral vessels, causing a decrease in blood pressure and an increase in renal blood flow (RBF). Stimulation of the DA-1 receptors in the tubules causes an increase in sodium excretion, which gives rise to an increase in urine volume on the basis of a sodium natriuresis. Animal testing with fenoldopam has indicated that it is 6 times more potent than dopamine in its ability to decrease renal vascular resistance and increase RBF; this suggests that it could be a much more selective and potent renal protective agent against any toxin or stimulus that causes renal dysfunction by reducing RBF or increasing renal ischemia. The clinical activity of fenoldopam, which is administered intravenously, begins almost immediately and is clearly noticeable after 5 minutes. The drug has no rebound effect, and its use can be stopped at any time. The protocol for the use of fenoldopam as a renal protective agent (performed at the University of Minnesota) involves starting an intravenous fenoldopam infusion 2 hours before the procedure at a rate of 0.1 microg/kg/min and increasing the dose in increments of 0.1 microg/kg/min every 20 minutes, until a rate of 0.5 microg/kg/min is reached or the systolic blood pressure falls more than 40 mm Hg (or below 110 mm Hg). Any infusion level at or above 0.1 microg/kg/min is considered acceptable because the response in individual patients varies so widely. The fenoldopam infusion is maintained at the maximum rate throughout the procedure and for up to 4 hours after the end of the contrast administration. At the University of Minnesota, we have had anecdotal experience using the drug in 29 patients. The drug was used for patients who were thought to be at the highest risk for contrast-induced nephropathy, ie, patients who have both
diabetes
and pre-existing renal failure. In this small group of patients in whom hydration and other variables were not controlled, there was a startling lack of contrast-induced creatinine increase at any point during the 24 to 48 hours after the administration of contrast in all but 1 patient. Our experience suggests that fenoldopam may be of distinct benefit to high-risk patients who need intravascular contrast, especially those who may receive a large contrast dose, such as patients undergoing peripheral or coronary angiography and intervention and/or computed tomography. Although it is impossible on the basis of simple anecdotal case reports to determine whether or not the drug was the primary reason that such a marked protective effect was seen, the results are promising enough to indicate that a careful, prospective, randomized trial of fenoldopam versus hydration is warranted.
...
PMID:Preventing contrast-induced nephropathy with fenoldopam. 1198 89
In the periphery, physiological dopamine increases renal blood flow, decreases renal resistance and acts on the kidney tubule to enhance natriuresis and diuresis. The loss of dopamine function may be involoved in the deterioration in kidney function associated with ageing and may have a role in the pathogenesis of hypertension and
diabetes
. Intravenous dopamine is used as a positive inotrope in the treatment of acute heart failure and cardiogenic shock and as a diuretic in renal failure. The clinical uses of dopamine are limited, as it must be given intravenously, and also has widespread effects. The levels of peripheral dopamine can be increased by the administration of L-dopa to increase synthesis, prodrugs to release dopamine (docarpamine, glu-dopa) or by inhibiting the breakdown of dopamine (nitecapone). Preliminary clinical trials suggest that docarpamine may be useful in patients with low cardiac output syndrome after cardiac surgery and in refractory cirrhotic ascites. Ibopamine is an agonist at dopamine D1 and D2 receptors, which may retard the progression of chronic renal failure. Glu-dopa is selective for the kidney, thus avoiding widespread side effects. The early clinical studies with ibopamine as a diuretic in heart failure were favourable but the subsequent large mortality study showed that ibopamine increased mortality.
Fenoldopam
is a selective dopamine D1 receptor agonist. Intravenous fenoldopam may be useful in the treatment of hypertension associated with coronary artery bypass surgery or in hypertensive emergencies. Although our understanding of physiological and pathological roles of peripheral dopamine has been increasing rapidly in recent times, we still need more information to allow the design of clinically useful drugs that modify these roles. One priority is an orally-active selective dopamine D1 receptor agonist.
...
PMID:The therapeutic potential of dopamine modulators on the cardiovascular and renal systems. 1199 45
Radiocontrast-induced nephropathy develops in approximately 10% to 20% of patients following administration of iodine-based dye and is one of the most prognostically detrimental complications that invasive cardiologists and radiologists encounter. Preexisting renal dysfunction and
diabetes mellitus
are two of the most powerful predictors of the likelihood of developing acute renal insufficiency after contrast delivery. To date, only adequate preprocedural hydration and postprocedural hydration to offset dehydration from contrast-induced diuresis have been shown to be effective in preventing this condition.
Fenoldopam mesylate
, a systemic vasodilator currently FDA-approved for short-term, in-hospital management of severe hypertension, has been shown to increase renal plasma flow in patients with and without chronic renal insufficiency. As a selective agonist of the dopamine-1 receptor, fenoldopam may preserve outer medullary renal blood flow and thereby attenuate radiocontrast-induced nephropathy. Small studies with fenoldopam prior to iodine-based dye administration have demonstrated low rates of radiocontrast nephropathy, and a larger, randomized trial has found that renal blood flow 1 hour after angiography rose in the fenoldopam group compared to a decline in the placebo group. The CONTRAST study has been designed to determine whether fenoldopam is indeed effective in diminishing the occurrence of radiocontrast-induced nephropathy.
...
PMID:Design and rationale of CONTRAST--a prospective, randomized, placebo-controlled trial of fenoldopam mesylate for the prevention of radiocontrast nephropathy. 1243 66
Dopamine and
diabetes mellitus
are reported to have close link between them. We have studied the effect of six-week treatment with D1 receptor agonist fenoldopam (1 mg/kg, i.p., daily) on glucose, lipid, and renal profile in streptozotocin (STZ)-induced (non-insulin dependent) type 2 diabetic rats. Streptozotocin (90 mg/kg, i.p.) was injected to two day old Sprague-Dawley pups. Streptozotocin produced hyperglycemia, hyperinsulinemia, hyperlipidemia, hypertension, increase in serum urea and creatinine by the time animals were 10 week old. Treatment with fenoldopam significantly decreased serum glucose, insulin, cholesterol, triglyceride, urea, creatinine, and blood pressure. During oral glucose tolerance test (OGTT), diabetic rats showed increase in AUC(glucose) and AUC(insulin).
Fenoldopam
significantly decreased AUC(glucose) in diabetic rats. Diabetic rats showed lower insulin sensitivity index (K(TTT)) that was significantly increased by treatment with fenoldopam in diabetic rats. Diabetic rats showed decrease in urinary sodium.
Fenoldopam
treatment significantly increased urine output as well as urinary sodium indicating reduced sodium retention. Our data indicates fenoldopam treatment improves peripheral insulin sensitivity and renal function in STZ-induced type 2 diabetic rats.
...
PMID:Fenoldopam treatment improves peripheral insulin sensitivity and renal function in STZ-induced type 2 diabetic rats. 1279 96
The prevalence of nephrotoxic effects after administration of contrast material is increasing. Other than good hydration before the radiological procedure, previous attempts to prevent the effects of contrast nephrotoxicity have been ineffective.
Fenoldopam
and acetylcysteine are possible preventive medications being used in selected cases. Both drugs await approval from the Food and Drug Administration for use in preventing contrast-induced nephrotoxic effects. The onset of action of the 2 drugs differs, and each drug has different pharmacological actions. Determining which drug should be used is based on whether the patient can be given anything by mouth, whether the procedure is emergent, cost, degree of renal insufficiency before the radiological procedure, blood pressure, and whether the patient has
diabetes
. Further studies will determine if one drug is preferred over the other or if their combined use is the preferred approach for high-risk patients. Future options could include an intravenous form of acetylcysteine and an oral form of fenoldopam.
...
PMID:Acetylcysteine and fenoldopam. Promising new approaches for preventing effects of contrast nephrotoxicity. 1283 Jul 79
Most preclinical treatments for sepsis failed in clinical trials in part because the experimental models of sepsis were performed on healthy animals that do not mimic septic patients. Here, we report that experimental
diabetes
worsens glycemia, inflammation, and mortality in experimental sepsis.
Diabetes
increases hyperglycemia, systemic inflammation, and mortality in sepsis.
Diabetes
exacerbates serum tumor necrosis factor (TNF) levels in sepsis by increasing splenic TNF production. Both serum from diabetic mice and glucose increase cytokine production in splenocytes. Anti-inflammatory treatments cannot control hyperglycemia and are less effective in diabetic patients. By contrast, dopaminergic agonist type-1, fenoldopam, attenuates hyperglycemia, and systemic inflammation in diabetic septic mice by inhibiting splenic p65NF-kB phosphorylation.
Fenoldopam
inhibits TNF production in splenocytes even at high glucose concentrations and inhibits the canonical NF-kB pathway by inhibiting p65RelA and p50NF-kB1 phosphorylation without affecting the non-canonical NF-kB proteins. Treatment with fenoldopam
rescues
diabetic mice from established polymicrobial peritonitis even when the treatment is started after the onset of sepsis. These results suggest that dopaminergic agonists can control hyperglycemia, systemic inflammation and provide therapeutic advantages for treating diabetic patients with sepsis in a clinically relevant time frame.
...
PMID:Dopaminergic Control of Inflammation and Glycemia in Sepsis and Diabetes. 2978 Mar 90
Sepsis is a leading cause of death in hospitalized patients. Many experimental treatments may have failed in clinical trials for sepsis, in part, because they focused on immune responses of healthy animals that did not mimic the metabolic settings of septic patients. Epidemiological studies show an association between metabolic and immune alterations and over 1/3 of septic patients are diabetic, but the mechanism linking these systems is unknown. Here, we report that metabolic fasting increased systemic inflammation and worsened survival in experimental sepsis. Feeding and administration of glucose in fasted mice activated the vagal tone without affecting blood pressure. Vagal stimulation attenuated hyperglycemia and serum TNF levels in sham but only hyperglycemia in splenectomized mice. Vagal stimulation induced the production of dopamine from the adrenal glands. Experimental
diabetes
increased hyperglycemia and systemic inflammation in experimental sepsis.
Fenoldopam
, a specific dopaminergic type-1 agonist, attenuated hyperglycemia and systemic inflammation in diabetic endotoxemic mice. These results indicate that glucose activates vagal control of hyperglycemia and inflammation in fasted septic mice via dopamine.
...
PMID:Glucose Activates Vagal Control of Hyperglycemia and Inflammation in Fasted Mice. 3070 Jul 38
