Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011854 (type 1 diabetes)
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Diabetic nephropathy (DN) appears in about 30% of patients with type 1 diabetes (D1) and 15 to 60% of patients with type 2 diabetes (D2). It is preceded by microalbuminuria. Microalbuminuria is defined as an albumin excretion rate between 30 and 300 mg/24 h (on a 24-hour urine collection) or between 20 and 200 micrograms/min (on an overnight collection) in at least two out of three consecutive collections made within a 6-month period. Alternative screening techniques use either dipstick (Micral-Test II) or the albumin to creatinine ratio on an early morning urine sample (30-300 mg/g creatinine). Once persistent microalbuminuria is confirmed, 80% of type 1 diabetic patients and 20 to 50% of type 2 diabetic patients will progress to DN. In D2, microalbuminuria also represents a powerful predictor of early mortality from cardiovascular disease. Macroalbuminuria (AER > 300 mg/24 h, corresponding to a total protein excretion > 500 mg/24 h) will eventually lead to a end-stage renal insufficiency within 10 to 20 years. In D2, numerous patients will die from cardiovascular disease before reaching end-stage renal failure. Angiotensin-converting enzyme inhibitors can slow down the evolution toward DN when prescribed when microalbuminuria appears. Screening for microalbuminuria should therefore be a part of the annual clinical assessment in every diabetic patient.
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PMID:[How I evaluate...diabetic nephropathy. First part: micro- and macroalbuminuria]. 981 Feb 12

Diabetic nephropathy has become the single most important cause of endstage renal failure in most countries of the Western world. Against this background, the role of the renin-angiotensin system (RAS) and its blockade command considerable interest. In diabetic patients and in diabetic animals, the circulating components of the RAS are suppressed. Although the evidence is not completely uniform, there are indirect arguments (renal hemodynamic response to RAS blockade, AT1 receptor expression), however, which would be consistent with increased intrarenal action of angiotensin (ANG) II. There is solid evidence that ACE inhibitors effectively interfere with progression of micro-albuminuria both in IDDM and NIDDM. They also prevent progression of advanced renal failure in IDDM, while there is only preliminary evidence in this respect for NIDDM. ACE inhibitors are superior to conventional antihypertensive agents (with the possible exception of some calcium channel blockers), but such superiority is seen only when the levels of blood pressure are relatively high. In diabetic animals, treatment with ANG II receptor blockers interferes with the development of glomerular lesions. In acute and subacute studies on diabetic patients, ANG II receptor blockers reduced albuminuria (or proteinuria) more than beta-blockers. Head-on comparison of equipotent doses ACE inhibitors and ANG II receptor blockers in non-diabetic patients produced equal reductions in proteinuria. The long-term effects of ANG II receptor blockers on progression of advanced diabetic nephropathy is the object of two large international studies. The results will not be available before the year 2000.
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PMID:Diabetes--renal function--what are the special problems? 983 74

Nephropathy may develop in patients with type 1 diabetes because poor glycemic control produces effects that eventually lead to glomerular scarring and renal failure. The worse and more prolonged the hyperglycemia, the greater the risk of diabetic nephropathy. In patients with type 2 diabetes, hyperglycemia, as well as insulin resistance and generalized vascular disease, is involved in the pathogenesis of nephropathy. The glomerular changes of early diabetic nephropathy can be identified only by renal biopsy or by testing for microalbuminuria. Once macroalbuminuria occurs (albumin excretion rate, > 300 mg/day), usually after type 1 diabetes has been present for 10 to 15 postpubertal years, end-stage renal disease is almost inevitable. However, aggressive control of hypertension in diabetic patients without microalbuminuria helps avoid nephropathy, and tight glycemic control in those with microalbuminuria can avoid or delay its onset. Even when macroalbuminuria is present, treatment can prolong renal function. Aggressive antihypertensive therapy, especially with ACE inhibitors, can reduce renal decline by half. Avoiding circumstances that may damage the kidneys (e.g., use of radiocontrast materials or nephrotoxic drugs, dehydration, hyperlipidemia, urinary tract infection, buildup of AGEs) is critical. Some treatment methods are controversial (dietary protein restriction) or still under investigation (use of injected or oral heparin) but may help delay renal transplantation or dialysis.
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PMID:Dealing with diabetic nephropathy. 1002 5

End-stage renal failure (ESRF) in diabetic patients, mostly type 2, has become the most frequent cause of renal replacement therapy in western Europe. The majority of patients with type 2 diabetes and renal failure suffer from diabetic glomerulosclerosis, but nondiabetic renal disease and atypical presentations, e.g. as irreversible acute renal failure or ischaemic nephropathy, play an increasingly important role. Known risk factors for the onset of diabetic nephropathy include (1) genetic predisposition (indicated by a history of hypertension and cardiovascular events in first-degree relatives), (2) quality of glycaemic control, (3) level of blood pressure, and (4) smoking. At the time when type 2 diabetes is diagnosed, an abnormal blood pressure profile is found in approximately 80%. In patients with established diabetic nephropathy, hypertension is the most important factor which promotes progression, and this is susceptible to intervention. Although less data are available for type 2 diabetes (compared with type 1 diabetes), ACE inhibitors appear to be the antihypertensive agent of first choice, but monotherapy is rarely sufficient to achieve the blood pressure goal. Although, at least in principle, diabetic nephropathy is a preventable condition, currently only a minority of type 2 diabetic patients in western Europe receives adequate medical treatment to prevent onset or progression of diabetic nephropathy. Consequently, novel approaches to patient management and interdisciplinary interaction are necessary to fulfil the postulate of the St Vincent declaration concerning prevention of diabetic complications.
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PMID:Nephropathy in type 2 diabetes. 1008 14

Diabetic nephropathy was first described in patients with non-insulin-dependent diabetes mellitus (NIDDM, type II diabetes) by Kimmelstiel and Wilson in 1936. It is a classical, late diabetic complication, diagnosed by measurement of the urinary albumin or total protein excretion, and typically develops after more than 15 years of diabetes. As most studies of patients with type II diabetes have been performed in White, European or North American populations in which the highest incidence of this disease is recorded in individuals aged over 70 years, a low prevalence has generally been found in these patients. Nephropathy has been considered a rare complication in type II diabetes patients. Other ethnic groups such as Pima Indians in the USA or Pacific Islanders have totally different incidence patterns of type II diabetes, with a high incidence in the 20- to 50-year age group. These patients live long enough to develop nephropathy, and they do so at the same rate as insulin-dependent diabetes mellitus (IDDM, type I diabetes) patients. Since the prevalence of type II diabetes is increasing worldwide, particularly in the developing world, diabetic nephropathy will be a growing problem in patients with this disease. From our experience in the treatment of type I diabetes patients, we know that prevention of end-stage renal failure is possible in most patients, but that treatment of end-stage renal disease is very expensive. In this paper, some of the major risk factors for the development of nephropathy are discussed together with the potential for treatment. It is shown that, in type I diabetes patients, early detection by screening for microalbuminuria and immediate recourse to antihypertensive treatment are likely to increase life-expectancy significantly while at the same time reducing the total costs to healthcare. Whether this is also the case in patients with type II diabetes is less clear, as most of the controlled clinical trials of the effect of strict metabolic control or antihypertensive treatment have been performed in patients with type I diabetes. Thus, clinical trials in patients with type II diabetes should be performed, and further epidemiological data relating to these patients are needed.
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PMID:The costs of nephropathy in type II diabetes. 1015 2

Good evidence exists that genetic predisposition is a major determinant in the development of renal and cardiovascular complications of diabetes. In particular, the role of familial predisposition is well established in diabetic nephropathy which may cluster within families, both in type I (IDDM) and in type II (NIDDM) diabetes. The genes responsible for predisposition to renal and cardiovascular complications are not known, but those of the renin-angiotensin system (RAS) are plausible candidates. Beside the large number of studies aimed at evaluating the role of polymorphisms in these genes, particularly in angiotensin-converting enzyme (ACE) gene, in development of renal disease, no clear-cut evidence has been provided until now. Furthermore, a number of trials have shown that ACE-inhibitors (ACEi) may reduce the rate of progression of renal failure. If the RAS genotype were able to foresee the response to ACEi it would provide new strategies for a specific treatment of subjects at higher risk.
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PMID:Gene polymorphism of the renin-angiotensin system and progression of diabetic nephropathy. 1020 97

The renal protective effect of antihypertensive drugs is linked to 2 mechanisms. First, reduction in blood pressure (BP) is a fundamental prerequisite common to all antihypertensive drugs. The exact definition of the level to which BP should be reduced remains to be established, although there is some evidence that BP should be reduced below 130/85 mm Hg in patients with diabetic and nondiabetic nephropathies and below 125/75 mm Hg in patients with nondiabetic nephropathies and proteinuria >1 g/day. However, available data suggest that tight BP control (BP<140/80 mm Hg) can reduce the risk of cardiovascular complications in hypertensive patients with type 2 diabetes mellitus (non-insulin-dependent diabetes mellitus; NIDDM). Secondly, intrarenal actions on mechanisms such as glomerular hypertension and hypertrophy, proteinuria, mesangial cell proliferation, mesangial matrix production and probably endothelial dysfunction, which can cause and/or worsen renal failure, are relevant for the renal protective action of some drug classes. ACE inhibitors possess such properties and also seem to lower proteinuria more than other antihypertensive drugs, despite a similar BP lowering effect. Calcium antagonists likewise exert beneficial intrarenal effects, but with some differences among subclasses. It remains to be evaluated whether angiotensin II-receptor antagonists can exert intrarenal effects and antiproteinuric actions similar to those of ACE inhibitors. While primary prevention of diabetic nephropathy is still an unsolved problem. there is convincing evidence that in patients with type 1 (insulin-dependent diabetes mellitus; IDDM) or 2 diabetes mellitus and incipient nephropathy ACE inhibitors reduce urinary albumin excretion and slow the progression to overt nephropathy. Similar effects have been reported with some long-acting dihydropyridine calcium antagonists, although less consistently than with ACE inhibitors. In patients with diabetic overt nephropathy, ACE inhibitors and nondihydropyridine calcium antagonists are particularly effective in reducing proteinuria and both drugs can slow the decline in glomerular filtration rate more successfully than other antihypertensive treatment. Available data in patients with nondiabetic nephropathies indicate that ACE inhibitors can be beneficial, principally in patients with significant proteinuria, in slowing the progression of renal failure. However, it is still unclear whether this beneficial effect of ACE inhibitors is particularly evident in patients with mild and/or more advanced renal failure and whether calcium antagonists possess a similar nephroprotective effect. Overall, data from clinical trials thus seem to indicate that ACE inhibitors and possibly calcium antagonists should be preferred in the treatment of patients with diabetic and nondiabetic nephropathies. However, further information is needed to understand renal protection.
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PMID:Renal protection and antihypertensive drugs: current status. 1035 94

Immunoglobulin (Ig) A-associated vasculitis is commonly equated with the multiorgan systemic vasculitic syndrome Henoch-Schonlein purpura (HSP), which occurs predominantly in the pediatric age group. By natural language search of the databases of two outpatient dermatopathology practices, the authors selected for review 37 cases of IgA-associated vasculitis, 23 of which were associated with antecedent infection, most commonly of the upper respiratory tract. Criteria for a diagnosis of HSP were met in 15 cases, 13 of which were in the setting of prior infection. Lower extremity skin involvement was ubiquitous. A more widespread form of vasculitis was also seen, particularly in the setting of previous infection. Several of the patients with previous infection had underlying medical illnesses including rheumatoid arthritis, atopy, renal failure, lupus erythematosus, insulin dependent diabetes mellitus, autoimmune thyroid disease, and Wegener's granulomatosis. In those patients lacking an apparent microbial trigger, Sjogren's disease with anti-Ro antibodies and hypergammaglobulinemia, lupus erythematosus, inflammatory bowel disease, IgA paraproteinemia, bronchogenic and prostatic carcinoma, cryoglobulinemia, and lymphoma were uncovered. Regardless of whether an infectious stimulus was implicated, certain cofactors with the potential to enhance vascular injury were uncovered; these included anti-Ro antibodies, antineutrophil cytoplasmic antibody, diabetic microangiopathy, and a hyperviscosity state. In the infective group, a pustular vasculitis, defined as a neutrophilic vascular reaction in concert with epithelial pustulation, was seen in 81% of cases versus 33% in the noninfectious group (p = 0.02). The prototypic histomorphology in the noninfective group was one of a mild cell poor leukocytoclastic vasculitis; Vasculitis was of greater severity in patients with antecedent infection (p = 0.026). An infectious trigger, typically of mucosal origin, can frequently be identified in patients with cutaneous IgA-associated vasculitis, especially those with the symptom complex of HSP. The light microscopy appears to distinguish patients who have an infectious trigger from those who do not. IgA-associated vasculitis may be a clue to the presence of certain underlying disorders where there is immune dysregulation or enhanced susceptibility to immune complex entrapment.
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PMID:A clinical and histologic study of 37 cases of immunoglobulin A-associated vasculitis. 1038 44

In patients with type I diabetes mellitus, adequate blood glucose control prevents the development or aggravation of late complications. Apart from administration of insulin, transplantation of insulin-producing tissue is also a possibility. Transplantation of Langerhans islets which contain the insulin-producing beta cells is still in its initial phase. Transplantation of the entire pancreas received a boost in the mid-eighties when it became possible to drain the secretion of the exocrine part of the pancreas to the bladder using the duodenum. Other important steps forward were prevention and treatment of rejection and improvement of the preservation fluid. Because pancreas transplantation makes lifelong immunosuppression necessary, it is performed mainly in patients subjected to kidney transplantation because of terminal renal failure. The one-year survival of the patients after simultaneous pancreas and kidney transplantation increased to over 90%, that of the grafted pancreas to 82% and that of the grafted kidney to 86-90%. The one-year survival after transplantation of the pancreas alone increased to 62%. A successful pancreas transplantation leads to independence from insulin treatment and to normal glucose and HbA1c values. Pancreas transplantation also reduces diabetes nephropathy and progression of coronary sclerosis.
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PMID:[Gastrointestinal surgery and gastroenterology. II. Transplantation of pancreas]. 1052 12

Diabetic nephropathy is the leading cause of kidney failure in the United States. Poor glycemic control, hypertension, and smoking have been implicated as risk factors for the development and progression of diabetic nephropathy in patients with type 1 diabetes mellitus. Improved medical therapy including angiotensin-converting enzyme inhibitors and tight glycemic control with use of intensive insulin therapy have been shown to reduce the progression of diabetic nephropathy substantially based on albumin excretion rates. Despite these improvements in medical management, many patients still experience progression from early diabetic nephropathy to end-stage renal disease. Successful pancreas transplantation leads to normal glycemic control in patients with type 1 diabetes, but historically it has generally been limited to patients with both kidney failure and diabetes. In this review of the current treatment of diabetic nephropathy, we examine the potential role of preemptive pancreas transplantation in patients with diabetic nephropathy.
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PMID:Pancreas transplantation for the prevention of diabetic nephropathy. 1063 Jul 57


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