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 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The essential problem of the vicious circle leading to end-stage cardiovascular disease is atherosclerosis. This paper focuses on the functional changes centred on the endothelium that accompany the development of atherosclerosis, examining in particular pathological alterations in the L-arginine/nitric oxide (NO) pathway. Changes in the NO system are associated with altered platelet and monocyte interactions with the vessel wall, abnormal vasoconstriction and altered vascular structure. Diabetes, hyperglycaemia, hypertension and hypercholesterolaemia are all involved in this process. Endothelin is a vasoconstrictor peptide produced by endothelial cells which is upregulated under these conditions. Normalising endothelial function could involve platelet inhibition, lipid-lowering agents to prevent foam cell formation and decrease the lipid load of the blood vessel wall, and agents to interfere with some of the mechanisms involved in vasoconstriction, proliferation and migration, including ACE-inhibitors and angiotensin receptor antagonists, and possibly new tools such as endothelin receptor antagonists.
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PMID:The internist and the vessel wall. 917 1

Hyperkalaemia is a frequent electrolyte disturbance connected with new knowledge and practical routine. It is developed by the disorders of the "external balance" (potassium [K] intake and output) as well as the "internal balance" (distribution of K in the extracellular and intracellular fluid compartments). Factors playing a role in it are: the upright posture, physical activity and hyperosmolality. In the hormonal regulation of K metabolism first of all beta adrenergic agents, insulin and aldosterone have significance; the first two mainly in the internal balance. Hyperkalaemia is occurring especially frequently in renal patients (in acute and chronic renal insufficiency, in dialyzed persons) in patients with diabetes, in adrenal insufficiency (Addison's disease, in selective hypoaldosteronisms and in pseudohypoaldosteronisms) in renal tubular acidosis as well as in response to various drugs (ACE inhibitors, angiotensin receptor antagonists, beta blocking agents, potassium sparing diuretics, NSAID's, anticoagulants etc.). Interactions between illness and drugs as well as between drugs and hormones may have outstanding importance in the development of hyperkalaemia. Physical activity carried out in the upright posture in the presence of hyperosmolality (water restriction together with salt or/and glucose loading) developing in pharmacological hypoaldosteronism accompanied with insulin deficiency, may be especially dangerous with respect to hyperkalaemia. To avoid life-threatening hyperkalaemia it is necessary 1. to stop cardiotoxicity with calcium; 2. to enhance K uptake by the cells by bicarbonate, insulin and beta adrenergic agents; and 3. to remove abnormal quantities of K from the body by enemas and/or ion exchange resins. The quickest and best way of treatment of hyperkalaemia is haemodialysis.
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PMID:[Hyperkalemias]. 1061 44

The renin angiotensin system (RAS) is now recognized as the body's most powerful hormone system for controlling renal hemodynamics and sodium excretion and, therefore, body fluid volumes and arterial pressure. The discovery of angiotensin converting enzyme inhibitors (ACEi) was a keystone for the understanding of the significance of the RAS since ACEi proved to be effective in controlling hypertension and heart failure and in preventing the development of the vascular injury of chronic diseases like scleroderma and diabetes mellitus. The success of ACEi stimulated the research into inhibitors of other actors of the RAS like renin or angiotensin receptor antagonists. It is not often realized that the discovery of ACEi owes a great deal to basic research in which the venom of a Brazilian viper, Bothrops Jararaca, was instrumental for the discovery of bradykinin by Rocha e Silva and the bradykinin potentiating factor. This article reviews the contribution of the converting enzyme inhibitors for the demonstration of the relevance of the RAS to several human pathologies.
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PMID:Angiotensin converting enzyme: history and relevance. 1070 50

The renin-angiotensin-aldosterone system actively participates in the derangement of renal function since the early stages of heart failure (HF). A diminished capacity to excrete sodium secondary to increased proximal tubular re-absorption and loss of the renal functional reserve are the two most relevant initial alterations of renal function in which angiotensin II has been proven to act directly. Meanwhile, the octapeptide contributes to maintain glomerular filtration rate (GFR) within normal limits through efferent arteriole vasoconstriction. Administration of angiotensin converting enzyme inhibitors (ACEi) or angiotensin receptor antagonists (ARA) may thus be accompanied by a functional fall in that parameter. Advanced age, higher initial serum creatinine, history of hypertension, diabetes and atrial fibrillation predict the onset of GFR impairment associated with blockade of the renin-angiotensin system. Concomitant administration of betablockers may help to protect renal function, and preliminary data indicate that the combination of ACEi and ARA is not accompanied by a higher renal risk. The good prognostic effects of aldosterone antagonists in HF does not seem to be related to intrarenal effects of these compounds with the exception of preventing potassium loss and hypokalemia. The systematic therapeutic use of drug(s) provided with beneficial renal effects, to treat arterial hypertension or myocardial ischemia, may contribute to delay of, or prevent the development of HF.
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PMID:Renal implications of the renin-angiotensin-aldosterone system blockade in heart failure. 1108 65

Angiotensin-converting enzyme (ACE) inhibitors appear to possess unique cardioprotective benefits, even when used in patients without high blood pressure or left ventricular dysfunction (the traditional indications for ACE inhibitor therapy). The ACE inhibitors improve endothelial function and regress both left ventricular hypertrophy and arterial mass better than other antihypertensive agents that lower blood pressure equally as well. These agents promote collateral vessel development and improve prognosis in patients who have had a coronary revascularization procedure (i.e., percutaneous transluminal coronary angioplasty and coronary artery bypass graft surgery). Insulin resistance, present not only in type 2 diabetes but also commonly in patients with hypertension or coronary artery disease, or both, sensitizes the vasculature to the trophic effects of angiotensin II and aldosterone. This may partly explain the improvement in prognosis noted when patients who have atherosclerosis or diabetes are treated with an ACE inhibitor. Therapy with ACE inhibitors has also been shown, in two large, randomized trials, to reduce the incidence of new-onset type 2 diabetes through largely unknown mechanisms. The ACE inhibitors are safe, well tolerated and affordable medications. The data suggest that most people with atherosclerosis should be considered candidates for ACE inhibitor therapy, unless they are intolerant to the medication, or have systolic blood pressures consistently <100 mm Hg. Patients who show evidence of insulin resistance (with or without overt type 2 diabetes) should also be considered as candidates for prophylactic ACE inhibitor therapy. Although angiotensin receptor blockers should not be considered equivalent to ACE inhibitors for this indication, they may be a reasonable alternative for patients intolerant of ACE inhibitors.
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PMID:Should an angiotensin-converting enzyme inhibitor be standard therapy for patients with atherosclerotic disease? 1115 22

Hypertension plays a critical role in causing a high rate of cardiovascular events in patients with diabetes mellitus. Large trials show that lowering blood pressure in the patient with diabetes who has hypertension has profoundly favorable effects. This review discusses recent trials to answer the question of how low patients' blood pressure should go and which agents should be used to achieve this goal. The National Institutes of Health's guidelines, published in the Sixth Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure, call for a blood pressure goal of <130/85 mmHg in patients with diabetes. Based on data from the recent trials, an even lower blood pressure of <130/80 mmHg in patients with diabetes and hypertension appears to be appropriate. Observational studies show that the lowest cardiovascular event rate is observed in patients with diabetes whose systolic blood pressure is <120 mmHg. Thus, goal blood pressure in patients with diabetes who have hypertension may need to be revised lower, to <120/80 mmHg. In patients with overt proteinuria of 1 g/d or more, mean arterial pressure of <92 mmHg is recommended. Available evidence justifies the use of angiotensin-converting enzyme (ACE) inhibitors as first-line agents and angiotensin receptor blockers in those patients who are intolerant to ACE inhibitors. Because the blood pressure goal is lower in patients with diabetes who are hypertensive, these patients require the use of multiple agents. Diuretics or long-acting calcium channel blockers are logical second choices because of their synergistic blood pressure reduction effect observed with ACE inhibitors. Alpha-blockers should be used with caution, however. In patients with renal disease, loop diuretics may be required to reduce sodium and volume overload and to improve blood pressure control.
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PMID:Treatment of hypertension in patients with diabetes: lessons from recent trials. 1117 14

The role of genetic investigations in diabetes one can describe in aspect of their role in the pathogenesis of type 1 and type 2 as well as in pathogenesis of chronic complications and gene therapy of diabetes. There is not only one gene responsible for type 1 diabetes. Similarly there are many gene-candidates in type 2 diabetes. Only in 6 types of MODY the genes responsible for beta-cell dysfunction were described. In diabetic complications some role e.g. in retinopathy may be played by genes of growth factors, heparan sulfate synthesis as well as genes of adrenergic receptor beta 3. In diabetic nephropathy the genes of renin synthesis, converting enzyme, aldose reductase or angiotensin receptor can be of importance. It should be emphasized that identification of human genome and genes responsible for diabetes can contribute to introduction of gene therapy in diabetes.
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PMID:[The role of genetic studies in finding the etiopathogenesis of diabetes mellitus]. 1129 31

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

Recent clinical trials clearly demonstrate that patients with diabetes and hypertension, and patients with renal disease and hypertension, should have their blood pressure lowered intensively. A recent analysis of long-term clinical trials over the past 8 years clearly demonstrates that the lower the blood pressure over a range of values, the greater the preservation of renal function. It is also readily apparent that monotherapy does not suffice in attaining these more intensified goals. A review of five clinical trials in the recent National Kidney Foundation consensus report demonstrates that patients randomized to the lower level of blood pressure required an average of 3.2 different antihypertensive medications taken daily. Consequently, it is evident that the question is no longer what the initial preferred monotherapy should be, but rather what should be the optimal drug to add to an angiotensin converting enzyme inhibitor or angiotensin receptor blocker. In this paper we review data from several recent studies clearly indicating that to achieve goal blood pressure in the clinical setting of metabolic disarray and hyperglycemia, long-acting calcium antagonists constitute an excellent add-on agent for enhancing efficacy. We anticipate that the data that will accrue from the IDNT and RENAAL studies will further delineate the renal effects of dihydropyridine calcium antagonists.
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PMID:What is the optimal strategy to intensify blood pressure control and prevent progression of renal failure? 1155 78

The use of angiotensin-converting enzyme (ACE) inhibitors, angiotensin receptor antagonists, or aldosterone antagonists can have important beneficial effects on the progression of renal disease associated with glomerular and interstitial fibrosis, especially if the adverse side effects (eg, hyperkalemia) can be minimized. Because it appears that chronic renal insufficiency and proteinuria may well be cardiovascular risk factors, it is exciting to note that recent large scale epidemiologic studies (Heart Outcomes and Prevention Evaluation [HOPE]) have shown both cardioprotective and renoprotective effects of ACE inhibition. It appears paradoxic that such renoprotective effects are clearly evident in diabetes mellitus in which the plasma renin activity may be suppressed. Even in this setting, it appears that there is activation of the renal angiotensin system(s), and inhibitions of these intrarenal systems are involved in the renoprotective effects of these agents. Recent studies have identified nearly all of the components needed to generate angiotensin II in the renal luminal compartment, and suggest that there may be a direct effect through AT(1) receptors on NaCl transport in the distal nephron. The possibility that the components of this intraluminal renin-angiotensin system may be acutely regulated by variations in dietary salt intake provides an opportunity to better understand the normal maintenance of salt balance. Whether or not inhibition of these pathways is involved in the renoprotective effects of ACE inhibitors and angiotensin receptor antagonists is an important issue to be addressed.
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PMID:Prevention, protection, and the intrarenal renin-angiotensin systems. 1170 7


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