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Query: UMLS:C0011860 (type 2 diabetes)
 57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Both renal and cardiovascular morbidity and mortality is increased markedly in patients with type 2 diabetes. Besides the classic risk factors and markers such as glucose, blood pressure, blood lipid profile, and lifestyle (smoking, overweight), novel risk markers are identified, among them urine albumin excretion. Levels of urinary albumin excretion greater than normal are observed frequently in patients with type 2 diabetes. Moderately increased levels of albuminuria, so-called microalbuminuria, are predictive both for progressive renal function loss to diabetic nephropathy, and for cardiovascular morbidity and mortality: the higher the albuminuria level, the more chance of renal and cardiovascular complications. More advanced levels of albuminuria (overt albuminuria) are observed in patients in the diabetic nephropathy state. In this condition, renal and cardiovascular risk are extremely high, and again one may observe that the level of albumin excretion is predictive of renal and cardiovascular outcome. Several drug strategies decrease the level of urinary albumin excretion in type 2 diabetic patients. Data on using drugs that intervene in the renin-angiotensin-aldosterone-system (RAAS) are the most extensive and conclusive. RAAS intervention is a very effective strategy to decrease the amount of albumin in the urine, independent from the blood pressure decreasing characteristics of the treatment. RAAS intervention is associated with long-term renal and cardiovascular protection. Importantly, the degree of short-term albuminuria decrease is associated with the degree of renal and cardiovascular protection: the more albuminuria reduction, the more protection. The protective predictive power of the albuminuria effect of RAAS intervention is not related to (or dissociated from) the blood pressure decreasing effect of these drugs. The protective effect of RAAS intervention is present at normoalbuminuric, microalbuminuric, and overt albuminuria levels. This makes albuminuria a target for therapy in type 2 diabetes. New drug strategies that decrease or prevent albuminuria without affecting other risk factors currently are being tested, and not only will add to underscoring the need to treat albuminuria as a separate target, but also will assist in reducing the enormous residual risk burden of individual diabetic patients.
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PMID:Albuminuria: a target for treatment of type 2 diabetic nephropathy. 1741 86

Diabetes mellitus affects about 8% of the adult population. The estimated number of patients with diabetes, presently about 170 million people, is expected to increase by 50-70% within the next 25 years. Diabetes is an important component of the complex of 'common' cardiovascular risk factors, and is responsible for acceleration and worsening of atherothrombosis. Major cardiovascular events cause about 80% of the total mortality in diabetic patients. Diabetes also induces peculiar microangiopathic changes leading to diabetic nephropathy conducive to end-stage renal failure, and to diabetic retinopathy that may progress to vision loss and blindness. In terms of major cardiovascular events, coronary heart disease and ischaemic stroke are the main causes of morbidity and mortality in diabetic patients. Peripheral arterial disease frequently occurs, and is more likely to be conducive to critical limb ischaemia and amputation than in the absence of diabetes. Although there are a number of differences in the pathogenesis and clinical features of diabetic macroangiopathy and microangiopathy, these two entities often coexist and induce mutually worsening effects. Endothelial injury, dysfunction and damage are common starting points for both conditions. Causes of endothelial injury can be distinguished into those 'common' to nondiabetic atherothrombosis, such as hypertension, dyslipidaemia, smoking, hypercoagulability and platelet activation; and those more specific and in some cases 'unique' to diabetes and directly related to the metabolic derangement of the disease, such as (i) desulfation of glycosaminoglycans (GAGs) of the vascular matrix; (ii) formation of advanced glycation end-products (AGE) and their endothelial receptors (RAGE); (iii) oxidative and reductive stress; (iv) decline in nitric oxide production; (v) activation of the renin-angiotensin aldosterone system (RAAS); and (vi) endothelial inflammation caused by glucose, insulin, insulin precursors and AGE/RAGE. Prevention of major cardiovascular events with the antithrombotic agent aspirin (acetylsalicylic acid) is widely recommended, but reportedly underutilised in patients with diabetes. However, some data suggest that aspirin may be less effective than expected in preventing cardiovascular events and especially mortality in patients with diabetes, as well as in slowing progression of retinopathy. In contrast, a recent study found picotamide, a direct thromboxane inhibitor, to be superior to aspirin in diabetic patients. Clopidogrel was either equivalent or less active in diabetic versus nondiabetic patients, depending upon different clinical settings.Recent studies have shown that some GAG compounds are able to reduce micro- and macroalbuminuria in diabetic nephropathy, and hard exudates in diabetic retinopathy, but it is as yet unknown whether these agents also influence the natural history of microvascular complications of diabetes. Lifestyle changes and physical exercise are also essential in preventing cardiovascular events in diabetic patients. Available data on the control of the metabolic state and the main risk factors show that careful adjustment of blood sugar and glycated haemoglobin is more effective in counteracting microvascular damage than in preventing major cardiovascular events. The latter objective requires a more comprehensive approach to the whole constellation of risk factors both specific for diabetes and common to atherothrombosis. This approach includes lifestyle modifications, such as dietary changes and smoking cessation and the use of HMG-CoA reductase inhibitors (statins), which are able to correct the lipid status and to prevent major cardiovascular events independently of the baseline lipidaemic or cardiovascular status. Tight control of hypertension is essential to reduce not only major cardiovascular events but also microvascular complications. Among antihypertensive measures, blockade of the RAAS by means of ACE inhibitors or angiotensin II receptor antagonists recently emerged as a potentially polyvalent approach, not only for treating hypertension and reducing cardiovascular events, but also to prevent or reduce albuminuria, counteract diabetic nephropathy and lower the occurrence of new type 2 diabetes in individuals at risk.
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PMID:Approaches to prevention of cardiovascular complications and events in diabetes mellitus. 1748 45

Hypertension commonly occurs in conjunction with insulin resistance and other components of the cardiometabolic syndrome. Insulin resistance plays a significant role in the relationship between hypertension, Type 2 diabetes mellitus, chronic kidney disease, and cardiovascular disease. There is accumulating evidence that insulin resistance occurs in cardiovascular and renal tissue as well as in classical metabolic tissues (i.e., skeletal muscle, liver, and adipose tissue). Activation of the renin-angiotensin-aldosterone system and subsequent elevations in angiotensin II and aldosterone, as seen in cardiometabolic syndrome, contribute to altered insulin/IGF-1 signaling pathways and reactive oxygen species formation to induce endothelial dysfunction and cardiovascular disease. This review examines currently understood mechanisms underlying the development of resistance to the metabolic actions of insulin in cardiovascular as well as skeletal muscle tissue.
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PMID:Renin-angiotensin-aldosterone system and oxidative stress in cardiovascular insulin resistance. 1758 14

The term metabolic syndrome or cardiometabolic syndrome describes the clustering of several cardiovascular and renal risk factors, including type 2 diabetes mellitus, central obesity, hypertension, and dyslipidemia. Over the past 15 years, several studies have examined the association between the metabolic/cardiometabolic syndrome or its central component, insulin resistance, with the presence of elevated urine albumin excretion. Intrarenal changes associated with the cardiometabolic syndrome result in elevated glomerular filtration rate, impaired pressure natriuresis, endothelial dysfunction related to changes in nitric oxide and, hence, impaired renal autoregulation and enhanced chronic inflammation. The aforementioned changes that occur in the cardiometabolic syndrome all contribute to the development of renal injury. While this review focuses on the epidemiology and mechanisms associated with vascular/renal injury, it must be remembered that prevention and treatment of kidney disease require a multifactorial approach. Weight loss through diet and exercise can reverse many of these pathophysiologic adaptations. Pharmacologic intervention should be aimed at achieving guideline goals and include insulin sensitizers to aid in tight glycemic control, lipid control, blockade of the renin-angiotensin-aldosterone system for blood pressure reduction, and anti-inflammatory therapies.
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PMID:Cardiometabolic syndrome and chronic kidney disease: what is the link? 1767 96

Previous studies have shown that the selective aldosterone blocker eplerenone, in doses of up to 200 mg/d, reduces albuminuria in patients with type 2 diabetes. This study was conducted to ascertain whether lower doses of eplerenone (50 or 100 mg/d) co-administered with the angiotensin-converting enzyme (ACE) inhibitor enalapril would produce a similar antialbuminuric effect while obviating the hyperkalemia observed previously. After open-label run-in with enalapril 20 mg/d, patients with diabetes and a urinary albumin:creatinine ratio (UACR) > or = 50 mg/g were randomly assigned to receive enalapril plus one of three double-blind daily treatments for 12 wk: placebo, eplerenone 50 mg (EPL50), or eplerenone 100 mg (EPL100). After week 4, amlodipine 2.5 to 10 mg/d was allowed for BP control (systolic/diastolic BP < or = 130/80 mmHg). The primary study end points were the percentage change from baseline at week 12 in UACR and the incidence of hyperkalemia. Secondary end points included percentage changes from baseline in UACR at weeks 4 and 8 and changes from baseline in systolic and diastolic BP. Treatment with EPL50 or EPL100 but not placebo significantly reduced albuminuria from baseline. By week 12, UACR was reduced by 7.4% in the placebo group, by 41.0% in the EPL50 group, and by 48.4% in the EPL100 group (both eplerenone groups, P < 0.001 versus placebo). The incidences of sustained and severe hyperkalemia were not significantly different in any of the three treatment arms and did not differ on the basis of quartile of estimated GFR (all NS). For the secondary end points, both eplerenone treatment groups significantly reduced albuminuria from baseline as early as week 4 (P < 0.001), whereas placebo treatment (including enalapril) did not result in any significant decreases in UACR. Systolic BP decreased significantly in all treatment groups at all time points, but, generally, all treatment groups experienced similar decreases in BP. Co-administration of EPL50 or EPL100 with an ACE inhibitor as compared with an ACE inhibitor alone significantly reduces albuminuria in patients with diabetes without producing significant increases in hyperkalemia.
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PMID:Selective aldosterone blockade with eplerenone reduces albuminuria in patients with type 2 diabetes. 1769 11

Impaired insulin sensitivity and hypertension are risk factors for atherosclerosis, which in turn leads to a variety of cardiovascular diseases. In both conditions, the risks of morbidity and mortality appear to be further increased. Impaired insulin sensitivity is also a precursor for diabetes. The renin-angiotensin-aldosterone system (RAAS) is implicated in the development of both hypertension and insulin resistance. Antihypertensive agents that act by blocking the RAAS, such as angiotensin-converting enzyme (ACE) inhibitors, may improve insulin sensitivity and therefore prevent the deleterious consequences of insulin resistance, including type 2 diabetes. ACE inhibitors appear to improve insulin sensitivity in patients with hypertension and insulin resistance, including diabetes. This review assesses the literature surrounding the use of the ACE inhibitor perindopril in patients with hypertension and varying degrees of insulin resistance, including the effects of perindopril in preventing the development of diabetes and subsequent cardiovascular morbidity and mortality.
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PMID:Effects of perindopril in hypertensive patients with or without type 2 diabetes mellitus, and with altered insulin sensitivity. 1790 6

The aim of this review is to explore the dysregulation of adrenocortical secretions as a major contributor in the development of obesity and insulin resistance. Disturbance of adipose tissue physiology is one of the primary events in the development of pathologies associated with the metabolic syndrome, such as obesity and type 2 diabetes. Several studies indicate that alterations in metabolism of glucocorticoids (GC) and androgens, as well as aldosterone in excess, are involved in the emergence of metabolic syndrome. Cross talk among adipose tissue, the hypothalamo-pituitary complex, and adrenal gland activity plays a major role in the control of food intake, glucose metabolism, lipid storage, and energy balance. Perturbation of this cross talk induces alterations in the regulatory mechanisms of adrenocortical steroid synthesis, secretion, degradation, and/or recycling, at the level of the zonae glomerulosa (aldosterone), fasciculata (GC and GC metabolites), and reticularis (androgens and androgen precursors DHEA and DHEAS). As a whole, these adrenocortical perturbations contribute to the development of metabolic syndrome at both the paracrine and systemic level by favoring the physiological dysregulation of organs responsive to aldosterone, GC, and/or androgens, including adipose tissue.
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PMID:Adrenocortical dysregulation as a major player in insulin resistance and onset of obesity. 1791 38

Diabetic nephropathy is one of the most frequent causes of end-stage renal disease (ESRD), and there has been a dramatic increase in the number of patients entering renal replacement therapy in the last few years. Moreover, diabetic nephropathy is associated with elevated cardiovascular morbidity and mortality. Prevention and treatment of diabetic nephropathy is based on optimal metabolic and blood pressure control, proteinuria reduction, and renin-angiotensin-aldosterone system (RAAS) inhibition. In the normoalbuminuric patient, optimal glycemic control (HbA1c below 7.0%) plays a fundamental role in the primary prevention of ESRD. Furthermore, blood pressure levels below 130/80 mmHg are strongly recommended. In the microalbuminuric stage, strict glycemic control (HbA1c below 7.0%) likely reduces the incidence of overt nephropathy, while blood pressure values less than 130/80 mmHg are recommended. Moreover, there is evidence that inhibition of RAAS, either by angiotensin-converting-enzyme inhibitors (ACE-I) or angiotensin-receptor blockers (ARB), reduces the development of overt nephropathy, regardless of the blood pressure levels. ACE-I are recommended as the drugs of choice in type 1 diabetes, while both ACE-I and ARB are considered first-choice drugs in type 2 diabetes. Once overt proteinuria has developed, it is uncertain whether glycemic control affects the progression of nephropathy, which is strongly influenced by blood pressure and proteinuria. Optimal blood pressure levels are < 130/80 mmHg in patients with proteinuria < 1 g/day and < 120/75 mmHg in patients with proteinuria > or =1 g/day. In type 1 diabetes there is consensus on the renoprotective role of ACE-I, while in type 2 diabetes, ARB have been shown to be more effective than conventional therapy or calcium-channel blockers in slowing the progression of nephropathy. Lastly, a multifactorial therapeutic approach based on optimal glycemic control, intensive antihypertensive therapy, inhibition of RAAS, statins and aspirin is pivotal in the prevention and treatment of diabetic nephropathy.
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PMID:[Risk and prevention of diabetic nephropathy]. 1792 42

The metabolic syndrome (MS), a cluster of risk factors, such as obesity, hyperglycemia, hypertension and dyslipidemia, contributes to the development of cardio-vascular diseases and type 2 diabetes mellitus (DM2). Insulin resistance (IR) plays a key role in MS being strongly linked to abdominal visceral fat. Treatment for obese patients with MS should aim at improving IR, delaying the onset of DM2 and at reducing cardio-vascular risk. Weight loss, first therapeutic target, may be obtained through life-style modifications and anti-obesity drugs or bariatric surgery, at need. In these patients drug therapy is necessary if therapeutic life-style changes are not sufficient. Some drugs have adverse metabolic effects, therefore the therapeutic choices must be specific and rational. Metformin, Thiazolidinediones and Acarbose are anti-hyperglycemic drugs of choice: they reduce the incidence of DM2 and IR (or improve insulin sensitivity) and they decrease or stabilize the visceral adipose tissue mass (Thiazolidinediones increases subcutaneous fat only). Also Angiotensin II receptor blockers and Angiotensin-converting enzyme inhibitors reduce the incidence of DM2 and insulin resistance and they are first-line antihypertensive drugs in MS. Calcium channel blockers, Alpha-1 antagonists and Alpha-2 agonists drugs are metabolically neutral and slight weight gains are related to the hydro-sodium retention. Beta-blockers and Diuretics, except for Indapamide and Anti-aldosterone drugs, can reduce insulin sensitivity, impair lipid profile and increase DM2 incidence; they are not first-line therapy yet they are necessary in selected cases only. Statins, Fibrates and omega-3 Fatty acids are indicated to normalize dyslipidemia. Low doses of acetylsalicylic acid are also recommended.
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PMID:[Therapeutic options for metabolic syndrome in obese patients]. 1806 54

Hypertension is a multifactorial disorder leading to pathophysiologic changes in target organs over time through diverse mechanisms. In addition, hypertension frequently resists control with monotherapy, necessitating combination therapy with two or more antihypertensive agents. Many currently available fixed-dose antihypertensive combinations combine drugs with different, but complementary, mechanisms of action to improve overall efficacy and tolerability. In addition, it is possible to select drug combinations whereby one drug offsets the negative effects of the other drug. Fixed-dose antihypertensive combinations may provide significant advantages over high-dose monotherapy, such as improved BP-lowering efficacy, reduced adverse event frequency, improved patient compliance, potentially lower treatment costs, and shorter time to BP control. Combination therapy has been recommended as potential first-line therapy in recent consensus guideline statements, especially for higher-risk patients, such as those with stage 2 hypertension. The combination of a renin-angiotensin-aldosterone system-targeting agent, such as an ACE inhibitor or angiotensin II receptor antagonist (ARB), and a diuretic or calcium channel antagonist appears to provide synergy with regard to BP lowering. In addition, ACE inhibitors and ARBs have demonstrated beneficial effects beyond BP reduction, reducing cardiovascular morbidity and mortality, inhibiting development and progression of type 2 diabetes mellitus and the progression of renal disease. Preliminary studies of fixed-dose combinations have shown reductions in left ventricular hypertrophy and improvements in markers of renal function. Additional studies currently underway will compare the effects of available fixed-dose combinations on cardiovascular morbidity and mortality, and markers of renal dysfunction.
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PMID:Fixed-dose combination antihypertensives and reduction in target organ damage: are they all the same? 1807 8


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