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The current pandemic of diabetes mellitus will inevitably be followed by an epidemic of chronic kidney disease. It is anticipated that 25-40% of patients with type 1 diabetes and 5-40% of patients with type 2 diabetes will ultimately develop diabetic kidney disease. The control of blood pressure represents a key component for the prevention and management of diabetic nephropathy. There is a strong epidemiological connection between hypertension in diabetes and adverse outcomes in diabetes. Hypertension is closely linked to insulin resistance as part of the 'metabolic syndrome'. Diabetic nephropathy may lead to hypertension through direct actions on renal sodium handling, vascular compliance and vasomotor function. Recent clinical trials also support the utility of blood pressure reduction in the prevention of diabetic kidney disease. In patients with normoalbuminuria, transition to microalbuminuria can be prevented by blood pressure reduction. This action appears to be significant regardless of whether patients have elevated blood pressure or not. The efficacy of ACE inhibition appears to be greater than that achieved by other agents with a similar degree of blood pressure reduction; although large observational studies suggest the risk of microalbuminuria may be reduced by blood pressure reduction, regardless of modality. In patients with established microalbuminuria, ACE inhibitors and angiotensin receptor antagonists (angiotensin receptor blockers [ARBs]) consistently reduce the risk of progression from microalbuminuria to macroalbuminuria, over and above their antihypertensive actions. The clinical utility of combining these strategies remains to be established. In patients with overt nephropathy, blood pressure reduction is associated with reduced urinary albumin excretion and, subsequently, a reduced risk of renal impairment or end stage renal disease. In addition to actions on systemic blood pressure, it is now clear that ACE inhibitors and ARBs also reduce proteinuria in patients with diabetes. This anti-proteinuric activity is distinct from other antihypertensive agents and diuretics. Although there is a clear physiological rationale for blockade of the renin angiotensin system, which is strongly supported by clinical studies, to achieve the optimal lowering of blood pressure, particularly in the setting of established diabetic renal disease, a number of different antihypertensive agents will always be needed. In the end, the choice of agents should be individualised to achieve the maximal tolerated reduction in blood pressure and albuminuria. Ultimately, no matter how it is achieved, so long as it is achieved, renal risk can be reduced by agents that lower blood pressure and albuminuria.
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PMID:Blood pressure lowering for the prevention and treatment of diabetic kidney disease. 1713 4

In Australia the number of patients developing end-stage kidney disease is growing. Almost 70% of new cases of treated end-stage kidney disease are due to diabetes, hypertension or glomerulonephritis. The majority of these patients have a chronic decline of renal function over many years before dialysis is required, even when the initial insult is no longer present. Hypertension and the degree of proteinuria are the most important determinants for this progression and ample evidence suggests that angiotensin II is the key player in sustaining both hypertension and proteinuria. Angiotensin II mediates not only haemodynamic changes but also profibrotic and pro-inflammatory processes. Blockade of the renin-angiotensin system decreases proteinuria and slows the progression of both diabetic and non-diabetic proteinuric renal disease. Angiotensin-converting enzyme (ACE) inhibitors are first-line therapy in patients with type 1 diabetes mellitus and nephropathy, whereas angiotensin receptor blockers (ARB) are first-line therapy in patients with type 2 diabetes mellitus and microalbuminuria or overt nephropathy. Finally, treatment with ACE inhibitors delays the progression of proteinuric nephropathy in non-diabetic patients. Combination therapy with ACE inhibitors and ARB may allow a more complete blockade of the renin-angiotensin system and clinical trials show that ACE inhibitor-ARB combinations have an additive antiproteinuric effect of up to 40% compared with ACE inhibitor or ARB alone, without additional blood pressure-lowering effect. Finally, it is important to emphasize that progressive lowering of blood pressure to 120 mmHg is associated with improved renal outcome and that this effect is independent of baseline renal function.
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PMID:Prescribing angiotensin-converting enzyme inhibitors and angiotensin receptor blockers in chronic kidney disease. 1729 66

Retinopathy is the most common microvascular complication of diabetes mellitus, and is an important cause of blindness worldwide. Clinical trials have demonstrated that tight metabolic control inhibits the progression of retinopathy. Good blood pressure control has been shown to be protective in type 2 diabetes, and it may also reduce proliferative retinopathy in type 1 diabetes. However, such control is often difficult to achieve in clinical practice, and may be associated with problems such as hypoglycaemia. New therapies are therefore needed to reduce the risk of retinopathy. There is growing evidence that the renin-angiotensin system (RAS) plays an important role in the pathogenesis of diabetic retinopathy, and this has led to interest in RAS inhibitors as agents to prevent retinopathy. Several trials have suggested that ACE inhibitor therapy can inhibit progression of retinopathy. The Diabetic Retinopathy Candesartan Trials (DIRECT) Programme is currently investigating the effects of the angiotensin II receptor blocker candesartan on the incidence of retinopathy in type 1 diabetes and its progression in type 1 and type 2 diabetes. It is hoped that the results from such large-scale clinical trials will provide more specific information about the medical treatment of diabetic retinopathy.
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PMID:Prospects for angiotensin receptor blockers in diabetic retinopathy. 1732 27

Premature coronary artery disease (CAD) in subjects with type 1 diabetes dramatically affects quality of life and morbidity and leads to premature death, but there is still little known about the mechanisms and predictors of this complication. In the present study, we explored the role of genetic variants of angiotensinogen (AGT, M235T), ACE (I/D), and angiotensin type 1 receptor (ATR1, A1166C) as predictors of rapid progression of subclinical coronary atherosclerosis. Five-hundred eighty-five type 1 diabetic patients and 592 similar age and sex control subjects were evaluated for progression of coronary artery calcification (CAC), a marker of subclinical CAD, before and after a 2.5-year follow-up. In logistic regression analysis, CAC progression was dramatically more likely in type 1 diabetic subjects not treated with ACE inhibitor/angiotensin receptor blocker who had the TT-ID-AA/AC genotype combination than in those with other genotypes (odds ratio 11.6 [95%CI 4.5-29.6], P < 0.0001) and was even stronger when adjusted for cardiovascular disease risk factors and the mean A1C (37.5 [3.6-388], P = 0.002). In conclusion, a combination of genotype variants of the renin-angiotensin system genes is a powerful determinant of subclinical progression of coronary artery atherosclerosis in type 1 diabetic patients and may partially explain accelerated CAD in type 1 diabetes.
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PMID:Polymorphisms of the renin-angiotensin system genes predict progression of subclinical coronary atherosclerosis. 1759 5

In diabetes and hypertension, the induction of increased transforming growth factor-beta (TGF-beta) activity due to glucose and angiotensin II is a significant factor in the development of fibrosis and organ failure. We showed previously that glucose and angiotensin II induce the latent TGF-beta activator thrombospondin-1 (TSP1). Because activation of latent TGF-beta is a major means of regulating TGF-beta, we addressed the role of TSP1-mediated TGF-beta activation in the development of diabetic cardiomyopathy exacerbated by abdominal aortic coarctation in a rat model of type 1 diabetes using a peptide antagonist of TSP1-dependent TGF-beta activation. This surgical manipulation elevates initial blood pressure and angiotensin II. The hearts of these rats had increased TSP1, collagen, and TGF-beta activity, and cardiac function was diminished. A peptide antagonist of TSP1-dependent TGF-beta activation prevented progression of cardiac fibrosis and improved cardiac function by reducing TGF-beta activity. These data suggest that TSP1 is a significant mediator of fibrotic complications of diabetes associated with stimulation of the renin-angiotensin system, and further studies to assess the blockade of TSP1-dependent TGF-beta activation as a potential antifibrotic therapeutic strategy are warranted.
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PMID:A thrombospondin-1 antagonist of transforming growth factor-beta activation blocks cardiomyopathy in rats with diabetes and elevated angiotensin II. 1764 Sep 65

Autoimmune polyglandular syndrome (APs) type 2 is characterized by the presence of Addison's disease, in association with autoimmune thyroid disease and/or type 1 diabetes mellitus and is rare in children. A 12.5 yr old prepubertal boy presented with symptoms related to Addison's disease and a large goiter. He was euthyroid with positive thyroid antibodies, low cortisol, aldosterone and very high adrenocorticotropin (ActH) and renin levels. Growth hormone (GH) secretion and an MrI scan of the pituitary were normal. He was started on hydrocortisone, fludrocortisone and subsequently on L thyroxine. Eighteen months later, decreased growth rate was noted and GH deficiency was detected, apparently secondary to autoimmune hypophysitis. Interestingly, he did not develop any other pituitary hormone deficiencies. He was started on GH therapy and had a good treatment response in the next 3 years. the combination of adrenal and thyroid insufficiencies with autoimmune hypophysitis is a very rare manifestation of APs-type 2. GH deficiency as the only symptom of lymphocytic hypophysitis is extremely rare. In children with autoimmune polyendocrine disorders, careful monitoring of growth is needed. In the case of low growth rate, GH should be evaluated by dynamic tests and, if GH deficiency is detected, treatment with hGH must be initiated.
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PMID:Growth hormone deficiency in a patient with autoimmune polyendocrinopathy type 2. 1772 10

Formerly a 'taboo' subject, long-term complications are now being increasingly discussed with the family by the health-care team. Identifying potential predictors and establishing early intervention can change the course of these complications in the young patient with diabetes. Although the most recognized risk factor is glycaemic exposure, the development of diabetes complications is likely to result from an interaction between genetic and environmental factors. Other major environmental risk factors are hypertension, smoking, higher body mass index and lipid disorders. This article will concentrate on specific paediatric aspects, including the impact of puberty; endothelial dysfunction and genetic susceptibility. Endothelial function assessed by flow-mediated dilatation is a non-invasive method that has been suitable for use in children and adolescents. In type 1 diabetes mellitus children, endothelium dysfunction has been documented among patients with short diabetes duration and has been correlated to folate status, triglyceride and low-density lipoprotein cholesterol levels. Studies in the paediatric population have also revealed an association of diabetes complications with genetic variants in the renin-angiotensin system, polyol pathway, lipid oxidation and folate metabolism. Currently, achieving the best glycaemic control remains the gold standard for prevention of long-term diabetes complications in the clinical context. However, recent identification of genetic markers and development of research tools that predict long-term complications might have a potential role as instruments in assessing the effectiveness of intervention in the early course of the disease.
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PMID:Identifying children at particular risk of long-term diabetes complications. 1772 84

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

Increasing afferent renal nerve activity decreases efferent renal nerve activity and increases urinary sodium excretion. Activation of renal pelvic mechanosensory nerves is impaired in streptozotocin (STZ)-treated rats (model of type 1 diabetes). Decreased activation of renal sensory nerves would lead to increased efferent renal nerve activity, sodium retention, and hypertension. We examined whether the reduced activation of renal sensory nerves in STZ rats was due to increased renal angiotensin activity and whether activation of the renal sensory nerves was impaired in obese Zucker diabetic fatty (ZDF) rats (model of type 2 diabetes). In an isolated renal pelvic wall preparation from rats treated with STZ for 2 wk, PGE2 failed to increase the release of substance P, from 5 +/- 1 to 6 +/- 1 pg/min. In pelvises from sham STZ rats, PGE2 increased substance P release from 6 +/- 1 to 13 +/- 2 pg/min. Adding losartan to the incubation bath increased PGE2-mediated release of substance P in STZ rats, from 5 +/- 1 to 10 +/- 2 pg/min, but had no effect in sham STZ rats. In pelvises from obese ZDF rats (22-46 wk old), PGE2 increased substance P release from 12.0 +/- 1.2 to 18.3 +/- 1.2 pg/min, which was less than that from lean ZDF rats (10.3 +/- 1.6 to 22.5 +/- 2.4 pg/min). Losartan had no effect on the PGE2-mediated substance P release in obese or lean ZDF rats. We conclude that the mechanisms involved in the decreased responsiveness of the renal sensory nerves in STZ rats involve activation of the renin angiotensin system in STZ but not in obese ZDF rats.
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PMID:Impaired responsiveness of renal sensory nerves in streptozotocin-treated rats and obese Zucker diabetic fatty rats: role of angiotensin. 1819 87

Retinopathy is the most feared complication of diabetes, compromising quality of life in most sufferers. Almost all patients with type 1 diabetes will develop retinopathy over a 15- to 20-year period, and approximately 20-30% will advance to the blinding stage of the disease[1]. Greater than 60% of patients with type 2 diabetes will have retinopathy. This situation is highlighted by the frightening statistic that diabetic retinopathy (DR) remains the most common cause of vision impairment in people of working age in Western society. With the global epidemic of type 2 diabetes, this predicament is set to worsen as over 360 million people are projected to suffer from diabetes and its complications by 2030. Vision loss from diabetes is due to a number of factors, including haemorrhage from new and poorly formed blood vessels, retinal detachment due to contraction of deposited fibrous tissue, and neovascular glaucoma resulting in an increase in intraocular pressure. Diabetic macular oedema is now the principal cause of vision loss in diabetes and involves leakage from a disrupted blood-retinal barrier. In terms of treatment, there is clear evidence that strict metabolic and blood pressure control can lower the risk of developing DR and reduce disease progression. Laser photocoagulation and vitrectomy are effective in preventing severe vision loss in DR, particularly in the most advanced stages of the disease. However, both procedures have limitations. This review examines evidence from preclinical and clinical studies that shows that targeting inhibition of the renin-angiotensin system, vascular endothelial growth factor, corticosteroids, protein kinase C, growth hormone, and advanced glycation end-products are potential treatments for DR.
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PMID:Update on the treatment of diabetic retinopathy. 1826 28


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