Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011881 (diabetic nephropathy)
10,836 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypertension is one of important causes of impairment in renal function. Glomerular filtration rate (GFR) remains stable while renal blood flow (RBF) declines in patients with long-term essential hypertension, resulting in an increased filtration fraction. Myogenic response of afferent arterioles and tubuloglomerular feedback to maintain RBF and GFR and sodium homeostasis can be impaired in salt-sensitive hypertension, whereas they are relatively normal in essential hypertension and its rat model. Position of pressure-natriuresis curve is shifted to the right without alteration in the slope of the curve in essential (non-salt-sensitive) hypertension, whereas the slope is significantly decreased in salt-sensitive hypertension, such as nephritis-related hypertension and diabetic nephropathy because of decreased ultrafiltration coefficient and increased sodium reabsorption.
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PMID:[Renal function and hemodynamics in hypertension]. 928 14

The number of patients with non-insulin-dependent-diabetes mellitus (NIDDM) is dramatically increasing in Japan and estimated to be 6 million, more than one of ten adults. It is well known that more than a half of diabetics are hypertensive. Therefore, it is very important to treat hypertension to reduce cardiovascular events as well as end-stage renal disease. At first, life style modification such as body weight reduction, exercise and restriction of salt and alcohol intake will be recommended. Improved glycemic control by such a non-pharmacological therapy will lower blood pressure. Recent studies demonstrated that hypoglycemic agents improving insulin resistance such as metformin and troglitazone reduce blood pressure. If these maneuvers do not lower blood pressure, hypotensive medication will be necessary. As a first line therapy, ACE inhibitor, alpha 1-blocker or Ca-channel blocker will be selected. In diabetics with proteinuria or micro-albuminuria, ACE inhibitors will be effective to delay the progression of diabetic nephropathy.
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PMID:[Treatment of hypertension associated with diabetes mellitus]. 928 29

ACE inhibitors have achieved widespread usage in the treatment of cardiovascular and renal disease. ACE inhibitors alter the balance between the vasoconstrictive, salt-retentive, and hypertrophic properties of angiotensin II (Ang II) and the vasodilatory and natriuretic properties of bradykinin and alter the metabolism of a number of other vasoactive substances. ACE inhibitors differ in the chemical structure of their active moieties, in potency, in bioavailability, in plasma half-life, in route of elimination, in their distribution and affinity for tissue-bound ACE, and in whether they are administered as prodrugs. Thus, the side effects of ACE inhibitors can be divided into those that are class specific and those that relate to specific agents. ACE inhibitors decrease systemic vascular resistance without increasing heart rate and promote natriuresis. They have proved effective in the treatment of hypertension, they decrease mortality in congestive heart failure and left ventricular dysfunction after myocardial infarction, and they delay the progression of diabetic nephropathy. Ongoing studies will elucidate the effect of ACE inhibitors on cardiovascular mortality in essential hypertension, the role of ACE inhibitors in patients without ventricular dysfunction after myocardial infarction, and the role of ACE inhibitors compared with newly available angiotensin AT1 receptor antagonists.
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PMID:Angiotensin-converting enzyme inhibitors. 957 53

We assessed blood pressure (BP), body weight, renal hemodynamics, and insulin sensitivity (by euglycemic-hyperinsulinemic clamp) in nine normoalbuminuric and seven microalbuminuric IDDM patients after 6 days on a low-sodium diet (20 mEq) and after 6 days on a high-sodium diet (250 mEq). In microalbuminuric but not in normoalbuminuric IDDM patients, switching from a low to a high-sodium diet was associated with a significant increase in mean BP (from 92 +/- 3 to 101 +/- 4 mmHg; P < 0.001) and in body weight (2.91 +/- 0.63 vs. 1.47 +/- 0.26 kg; P < 0.05). Moreover, under high-sodium conditions, angiotensin II infusion (3 ng x kg(-1) x min(-1)) caused a greater increase in mean BP (14 +/- 2 vs. 7.4 +/- 1 mmHg; P < 0.05) and a smaller reduction in renal plasma flow (-122 +/- 29 vs. -274 +/- 41 ml x min(-1) x 1.73 m2; P < 0.05) in microalbuminuric than in normoalbuminuric IDDM patients. Under low sodium conditions, aldosterone increments after angiotensin II infusion were lower (P < 0.05) in microalbuminuric than in normoalbuminuric IDDM patients. Insulin-mediated glucose disposal was not affected by sodium dietary content, but it was lower in microalbuminuric (P < 0.05) than in normoalbuminuric IDDM patients. The salt-induced changes in mean BP were related to insulin sensitivity (r = -0.78; P < 0.001). In conclusion, in IDDM patients, microalbuminuria is associated with 1) an increased responsiveness of BP to salt intake and angiotensin II, 2) impaired modulation of renal blood flow, and 3) insulin resistance. Therefore, salt sensitivity in IDDM patients clusters with other factors that are likely to play an important role in the pathogenesis of diabetic nephropathy and its cardiovascular complications.
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PMID:Enhanced responsiveness of blood pressure to sodium intake and to angiotensin II is associated with insulin resistance in IDDM patients with microalbuminuria. 970 38

There is increasing evidence about important cardiovascular effects of aldosterone through classic mineralocorticoid receptors in the heart. It is now clear that aldosterone/excess salt administration has been shown to produce both cardiac hypertrophy and interstitial cardiac fibrosis in rats. In clinical studies, it has been reported that aldosterone seems to play an important role in cardiac hypertrophy. However, it has still not been established whether aldosterone is involved in cardiac hypertrophy in patients with end-stage renal failure treated with hemodialysis. In the present study, we have analyzed the association between cardiac hypertrophy and aldosterone in 29 patients (18 patients with nondiabetic nephropathy and 11 patients with diabetic nephropathy) who developed end-stage renal disease and received hemodialysis. Among the nondiabetic patients, left ventricular mass index correlated significantly with plasma aldosterone concentrations during both before and after hemodialysis, but it did not correlate with plasma renin activity. Furthermore, left ventricular mass index also correlated with mean blood pressure. In contrast, these correlations were not seen in the diabetic patients, despite similar age distribution, duration of hemodialysis, and several echocardiographic parameters between two groups. In conclusion, our study provides new evidence for a relation between left ventricular hypertrophy and plasma aldosterone concentrations that seems to be independent of blood pressure in nondiabetic patients with end-stage renal failure treated with hemodialysis.
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PMID:Involvement of aldosterone in left ventricular hypertrophy of patients with end-stage renal failure treated with hemodialysis. 1050 43

There is a dramatic increase in the incidence of end-stage renal disease in non-insulin dependent diabetes mellitus (NIDDM) requiring renal replacement therapy. The most important risk factors of the onset of nephropathy in NIDDM are genetic predisposition (history of diabetes, hypertension and cardiovascular events in first-degree relatives), hypertension, quality of glycaemic control and smoking. These risk factors play an important role also in the progression of diabetic nephropathy. In about 20-25% of NIDDM patients nondiabetic renal diseases cause the renal damage (other primary nephropathies, ischaemic nephropathy). NIDDM is mainly the part of metabolic x syndrome (hypertension, obesity, dyslipidaemia, impaired glucose tolerance or NIDDM) and, for this reason, all members of metabolic x syndrome has to be involved in treatment strategies e.g. blood pressure "subnormalization", aggressive glycaemic control, cessation of smoking, the treatment of obesity and dyslipidaemia with diet, physical activity and antilipidaemic drugs, as well as restriction of dietary protein and salt intake. The successful prevention and treatment of diabetic nephropathy needs the development of an interdisciplinary interaction that involves general practitioners, diabetologists and nephrologists.
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PMID:[Nephropathy in non-insulin-dependent (type-2) diabetes mellitus]. 1076 44

Angiotensin II receptor blockers (ARBs) represent a new class of effective and well tolerated orally active antihypertensive agents. Recent clinical trials have shown the added benefits of ARBs in hypertensive patients (reduction in left ventricular hypertrophy, improvement in diastolic function, decrease in ventricular arrhythmias, reduction in microalbuminuria, and improvement in renal function), and cardioprotective effect in patients with heart failure. Several large long-term studies are in progress to assess the beneficial effects of ARBs on cardiac hypertrophy, renal function, and cardiovascular and cerebrovascular morbidity and mortality in hypertensive patients with or without diabetes mellitus, and the value of these drugs in patients with heart disease and diabetic nephropathy. The ARBs specifically block the interaction of angiotensin II at the AT1 receptor, thereby relaxing smooth muscle, increasing salt and water excretion, reducing plasma volume, and decreasing cellular hypertrophy. These agents exert their blood pressure-lowering effect mainly by reducing peripheral vascular resistance usually without a rise in heart rate. Most of the commercially available ARBs control blood pressure for 24 h after once daily dosing. Sustained efficacy of blood pressure control, without any evidence of tachyphylaxis, has been demonstrated after long-term administration (3 years) of some of the ARBs. The efficacy of ARBs is similar to that of thiazide diuretics, beta-blockers, angiotensin-converting enzyme inhibitors or calcium channel blockers in patients with similar degree of hypertension. Higher daily doses, dietary salt restriction, and concomitant diuretic or ACE inhibitor administration amplify the antihypertensive effect of ARBs. The ARBs have a low incidence of adverse effects (headache, upper respiratory infection, back pain, muscle cramps, fatigue and dizziness), even in the elderly patients. After the approval of losartan, five other ARBs (candesartan cilexetil, eprosartan, irbesartan, telmisartan, and valsartan) and three combinations with hydrochlorothiazide (irbesartan, losartan and valsartan) have been approved as antihypertensive agents, and some 28 compounds are in various stages of development. The ARBs are non-peptide compounds with varied structures; some (candesartan, losartan, irbesartan, and valsartan) have a common tetrazolo-biphenyl structure. Except for irbesartan, all active ARBs have a carboxylic acid group. Candesartan cilexetil is a prodrug, while losartan has a metabolite (EXP3174) which is more active than the parent drug. No other metabolites of ARBs contribute significantly to the antihypertensive effect. The variation in the molecular structure of the ARBs results in differences in the binding affinity to the receptor and pharmacokinetic profiles. The differences observed in lipid solubility, absorption/distribution, plasma protein binding, bioavailability, biotransformation, plasma half-life, and systemic elimination influence the time of onset, duration of action, and efficacy of the ARBs. On the basis of the daily mg dose, the antihypertensive potency of the ARBs follows the sequence: candesartan cilexetil > telmisartan approximately = losartan > irbesartan approximately = valsartan > eprosartan. After oral administration, the ARBs are rapidly absorbed (time for peak plasma levels = 0.5-4 h) but they have a wide range of bioavailability (from a low of 13% for eprosartan to a high of 60-80% for irbesartan); food does not influence the bioavailability, except for valsartan (a reduction of 40-50%) and eprosartan (increase). A limited dose-peak plasma levels/areas under the plasma level-time curve proportionality is observed for some of the ARBs. Most of these drugs have high plasma protein binding (95-100%); irbesartan has the lowest binding among the group (90%). The steady-state volumes of distribution vary from a low of 9 L (candesartan) to a high of 500 L (telmisartan). (ABSTRACT TRUNCATE
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PMID:Clinical pharmacokinetics of angiotensin II (AT1) receptor blockers in hypertension. 1085 85

Microalbuminuria (MA) is defined as persistent elevation of albumin in the urine, of 30-300 mg/day (20-200 microg/min). These values are less than the values detected by routine urine dipstick testing, which does not become positive until protein excretion exceeds 300-500 mg/day. Use of the albumin-to-creatinine ratio is recommended as the preferred screening strategy for all diabetic patients. MA is measured in spot morning urine obtained from the patient in the office and sent for measurement of both albumin and creatinine. A value above 0.03 mg/mg suggests that albumin excretion is above 30 mg/day and therefore MA is present. MA should be checked annually in everyone, and every 6 months within the first year of treatment to assess the impact in patients started on antihypertensive therapy. MA is an established risk factor for renal disease progression in type 1 diabetes and its presence is the earliest clinical sign of diabetic nephropathy. In addition, a number of studies suggest that MA is an important risk factor for cardiovascular disease and defines a group at high risk for early cardiovascular mortality in both type 2 diabetes and essential hypertension. MA also signifies abnormal vascular permeability and the presence of atherosclerosis. Among nondiabetic patients with essential hypertension, MA is associated with higher blood pressures, increased serum total cholesterol, and reduced serum high-density lipoprotein cholesterol. Thus, taken together these data support the concept that the presence of MA is the kidney's notice to the physician/patient that there is a problem with the vasculature. MA can be reduced, and progression to overt proteinuria prevented, by aggressive blood pressure reduction. The National Kidney Foundation recommends that blood pressure levels be maintained at or below 130/80 mm Hg in anyone with diabetes or renal disease. This should be accomplished with antihypertensive agents that prevent the rise in MA and hence prevent development of proteinuria. Such agents are angiotensin-converting enzyme inhibitors, angiotensin receptor blockers and, to a lesser extent, Beta blockers, non-dihydropyridine calcium antagonists, and diuretics. In summary, the presence of MA is a marker of endothelial dysfunction and a harbinger of markedly enhanced cardiovascular risk. All patients with diabetes and/or hypertension should be screened for the presence of microalbuminuria with use of spot morning urine. To maximize prevention of MA development, the following goals should be instituted: 1) blood pressure should be maintained at less than 130/80 mm Hg and a low-salt, moderate-potassium diet instituted; 2) in diabetics, HbA1c should be kept at less than 7%; 3) in obese patients, a weight loss program should be implemented, with a goal BMI of less than 30; and 4) the physician and patient, working together, should maintain low-density lipoprotein cholesterol at less than 120 mg/dL, and less than 100 mg/dL if diabetes is present. (c)2001 by Le Jacq Communications, Inc.
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PMID:Microalbuminuria: what is it? Why is it important? What should be done about it? 1141 91

The role of the renin-angiotensin system (RAS) in the regulation of blood pressure and the pathogenesis of both hypertension and renal complications involves an intricate interplay of genetic and environmental factors. In the case of diabetic nephropathy, the genes governing the RAS are an obvious choice in the search for contributing factors. These genetic components can reflect polygenetic mechanisms or a major gene effect. During recent years, polymorphisms of the genes governing both angiotensin converting enzyme (ACE) and angiotensinogen have been studied, with varying outcomes. Investigation of the interaction between ACE inhibition and the glycemic state yields equally interesting results. In healthy subjects on a high salt diet, the hyperglycemic state produced significant increases in renal plasma flow (RPF) in response to administration of the ACE inhibitor captopril. A similar study using the angiotensin receptor blocker (ARB) eprosartan demonstrated again that the agent had little effect on RPF in subjects in a normal glycemic state; however, when administered during a hyperglycemic state, a marked increase in RPF occurred. Implications for the prevention of nephropathy and endstage renal disease (ESRD) in diabetics with hypertension are significant. Until recently, pharmacologic intervention in the RAS has focused on the ACE step, with documented success being reported in the prevention of diabetic nephropathy and ESRD using ACE inhibitors. Despite this success, data suggest that greater therapeutic benefit might be accomplished by blocking the deleterious effects of angiotensin II at the receptor site. From a renoprotective perspective, the ARB appear to have tremendous potential in the management of hypertension.
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PMID:Renal implications of angiotensin receptor blockers. 1145 12

There is a unique relationship between the kidney and blood pressure (BP): on the one hand, renal dysfunction and particularly renal disease cause an increase in BP, while on the other hand, high BP accelerates loss of function of the diseased kidney. Transplantation studies, both in experimental animals and humans, documented that "blood pressure goes with the kidney," a normotensive recipient of a kidney genetically programmed for hypertension (HT) will develop HT, while conversely hypertensive patients with renal failure receiving the kidney of a normotensive donor may develop normotension. Family studies showed higher BP values and more frequent HT in first degree relatives of patients with primary glomerulonephritis or diabetic nephropathy, both type 1 and type 2. The notion that HT accelerates the loss of renal function has been proposed at the turn of the century, but definite evidence by observational and interventional studies has only been provided in the last two decades. The issue has been much confounded by the mistaken believe that damaged kidneys require higher BP values in order to function properly. The mechanisms of BP increase in renal disease comprise: salt retention, inappropriate activity of the renin-angiotensin system (RAS) and of the sympathetic nerve system as well as impaired endothelial cell-mediated vasodilatation. There is ample evidence both in primary renal disease (AIPRI and REIN trials) and in nephropathy of type 1 and type 2 diabetes (IDNT, RENAAL) that pharmacological blockade of the RAS by angiotensin-converting enzyme inhibitors or angiotensin II type 1 receptor blockers has BP-independent renoprotective effects. More recently, it has also been shown that blockade of the sympathetic nerve system has BP-independent effects on albuminuria and on glomerulosclerosis.
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PMID:Kidney and hypertension. 1198 15


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