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

Detecting a microalbuminuria in a diabetic patient is enough to diagnose a diabetic glomerulopathy (which is more properly termed diabetic nephropathy). To appreciate exactly means to know what are the lesions of mesangium matrix and interstitial tissue; therefore, a renal biopsy is useful, (but needs to be examined by quantitative histo-morphometry). Numerous factors facilitate the progression of renal insufficiency in these patients: high blood pressure, poor glycemie control, high protein diet. Avoiding each of these factors allows to delay the time of dialysis and renal transplantation. Now diabetics represent the large group of patients in renal replacement therapy world-wide. These therapies are twice to thrice as expensive as they are for non diabetic patients.
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PMID:[Diabetic glomerulopathy]. 180 57

The etiology of diabetic glomerulopathy appears to be related, at least in part, to the degree of hyperglycemia, the resultant nonenzymatic glycosylation of proteins, and the eventual formation of advanced glycosylation end products in long-lived structural proteins. To investigate the relationship between the glomerular basement membrane (GBM) changes of diabetic nephropathy and the formation of advanced glycosylation end products, we studied control rats, diabetic rats, and control and diabetic rats who received aminoguanidine, a compound that pharmacologically inhibits formation of advanced glycosylation end products. After 9 months, rat weight was smaller and kidney weight larger in both diabetic groups compared with both control groups. GBM width was increased in the diabetic group compared with the control group. Aminoguanidine administration to diabetic rats ameliorated this increase in GBM. Thus, aminoguanidine administration from the onset of experimental diabetes prevented the widening of the GBM that is typical of diabetes.
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PMID:Prevention of glomerular basement membrane thickening by aminoguanidine in experimental diabetes mellitus. 194 26

The development of diabetic glomerulopathy in kidneys transplanted to diabetic patients was estimated in transplant biopsies and evaluated in relation to suspected clinical risk factors for diabetic nephropathy. Surgical biopsies were taken at baseline and at 24-36 months post-transplantation in 16 Type 1 (insulin-dependent) diabetic patients and 8 non-diabetic control subjects with a glomerular filtration rate more than 30 ml.min-1 at follow-up. Immunosuppressive therapy included cyclosporine in all but one case. Stereological methods were used to assess basement membrane thickness, volume fraction of mesangium per glomerulus, and volume fraction of matrix per mesangium. The volume fraction of interstitial tissue per cortex was estimated by light microscopy. After 2 years the basement membrane thickness had increased by 55 nm (SD 58 nm) in the diabetic group. This change was significantly different from that of 2 nm (SD 37 nm) in control subjects (p = 0.02). Mesangial volume fraction increased significantly by 0.04 (SD 0.03) in diabetic patients, and this change was significantly different from that of -0.01 (SD 0.04) in non-diabetic patients (p = 0.009). No change was detectable in the matrix expressed as fraction of mesangial volume. An increase in interstitial volume fraction from baseline to 2 years was observed, but was significant only in the diabetic group (p = 0.04). The changes in structural parameters did not correlate with mean values during follow-up of glycated haemoglobin or estimated protein intake, nor was any pattern discernible in the relationship to graft tissue types.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Kidney transplantation in type 1 (insulin-dependent) diabetic patients. Early glomerulopathy. 195

The pathophysiological connections between insulin resistance, hypertension and type 2 diabetes are discussed in this review article. Increased blood pressure levels are often found in type 2 diabetic patients long before the diabetes itself is diagnosed. By contrast, in type 1 diabetes hypertension is predominantly the consequence of diabetic glomerulopathy. Non-pharmacological strategies should be favoured in the treatment of hypertension in type 2 diabetic patients before specific pharmacological intervention is started. Antihypertensive treatment with beta-blocking agents and diuretics is criticized by many experts in the field of metabolic disorders, since these drugs induce a deterioration of glycaemic control and lipid metabolism in diabetic patients. Since calcium channel blockers, ACE inhibitors and alpha 1-specific blocking agents have no influence on metabolism, these drugs are recommended for the antihypertensive treatment of diabetic patients. Further studies should be undertaken to clarify, whether ACE-inhibitors have a specific nephroprotective effect. Since most type 2 diabetic patients do not develop diabetic nephropathy, a possible nephroprotective effect of ACE inhibitors is only relevant to the antihypertensive treatment of type 1 diabetic patients.
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PMID:[Hypertension, insulin resistance and diabetes mellitus: pathophysiological interactions and therapeutic consequences]. 198 Jul 67

Those diabetic patients who progress to advanced kidney disease constitute a subpopulation that is particularly vulnerable to the angiotoxic effects of the insulin-dependent disorder. Until the predisposing factors are identified, the most effective way to arrest renal deterioration is by controlling those currently recognized risk factors that accelerate the glomerulopathy. Treatments that normalize blood pressure, reduce dietary protein intake, and control hyperglycemia have been shown to retard the progression of diabetic nephropathy.
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PMID:Diabetic nephropathy: can the natural history be modified? 199 23

At present the pathogenesis of diabetic nephropathy remains unresolved. Clearly lack of insulin, with its associated disorders of carbohydrate, protein, and/or lipid metabolism, initiates the process which eventually leads to the characteristic histologic picture of diabetic nephropathy. The disturbance in cellular metabolism per se could directly injure the kidney by altering the energy needs of the cell or by leading to the accumulation of cellular toxins (ie, polyols) or by causing the deficiency of key cellular metabolites (ie, myoinositol). Elevation of the plasma glucose concentration enhances the glycosylation of proteins, which in turn can lead to glomerular basement membrane thickening, loss of charge selectivity, and direct cellular damage. The multiple disturbances in intermediary metabolism are associated with increased levels of and/or enhanced sensitivity to a variety of growth factors, including IGF-I and angiotensin, and this could lead to glomerular hypertrophy. An increase in the filtered load and subsequent reabsorption of electrolytes and metabolites also could contribute to renal hypertrophy. In all animal models of nephropathy, including diabetes, glomerular hypertrophy has been shown to be the best correlate of glomerular sclerosis, proteinuria, and progressive renal deterioration. The potential mechanisms by which glomerular hypertrophy can lead to renal histologic damage were discussed previously. By increasing the luminal diameter, glomerular hypertrophy also would be expected to augment wall tension and thereby increase intraglomerular pressure. Derangements in cellular metabolism or altered sensitivity to angiotensin also can directly elevate the intraglomerular pressure and lead to structural renal damage. In this schema, elevated intraglomerular pressure is but one of many pathogenic factors that contribute to the development of diabetic glomerulopathy and albuminuria. The precise role of increased glomerular pressure in the evolution of diabetic nephropathy remains uncertain at present. In rats, severe diabetic nephropathy can occur without an increase in Pgc, while in humans, hyperfiltration does not appear to be a predictor of proteinuria and renal dysfunction. Lastly, it is likely that a variety of other factors, including the coagulation system, plasma/cell lipid levels, prostaglandins, etc, also play a role in the pathogenesis of diabetic nephropathy. According to the outline presented in Figure 1, it is unlikely that any single factor will be sufficient to explain the development of diabetic glomerulosclerosis. Ultimately, the origin of diabetic nephropathy in IDDM must be traced to insulin lack, with its associated derangements in cellular metabolism. Therefore, the importance of tight glucose control should not be underemphasized.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Hyperfiltration and diabetic nephropathy: is it the beginning? Or is it the end? 219 Feb 80

Kidney disease, characterized by proteinuria and glomerular lesions, is a common complication of spontaneous diabetes mellitus in many animal species. It occurs in animals with hypoinsulinemia, hyperinsulinemia, or impaired glucose tolerance. The renal functional and structural abnormalities in spontaneously diabetic animals resemble human diabetic nephropathy in many respects. Mesangial expansion and glomerular basement membrane thickening, two structural hallmarks of diabetic glomerulopathy in humans, are the most frequently encountered lesions in animals. In addition, a nodular form of mesangial expansion that resembles but is not identical with human nodular glomerulosclerosis or the Kimmelstiel-Wilson lesion has been observed in some animal models. Other abnormalities, such as exudative hyaline lesions and arteriolar hyalinosis, have also been noted occasionally in other models. Although diabetic animals may develop kidney disease that resembles human diabetic nephropathy, no single animal model develops renal changes identical to those seen in humans. Nonetheless, animal models with spontaneous diabetic kidney disease may be useful for investigating the mechanisms of development of diabetic nephropathy and the effects of various treatment modalities on the progression of renal disease.
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PMID:Animal models of spontaneous diabetic kidney disease. 219 83

The mechanisms responsible for hyperfiltration in diabetes mellitus (DM) as well as for the initiation and progression of diabetic nephropathy are not fully elucidated. Enhanced prostaglandin E2 (PGE2) production has been invoked in the former and thromboxane (TXB2) and hyperlipidemia in the latter. Fish oil (FO)-enriched diets can favorably alter eicosanoid synthesis and serum lipid profiles. We therefore examined the effects of a FO-enriched diet on glomerular filtration (GFR), proteinuria, glomerular eicosanoid production, and serum lipids in rats with streptozotocin-induced DM (STZ-DM). Groups of 5-8 rats with STZ-DM were maintained on low insulin and then pair-fed with isocaloric diets enriched with either FO (20% w/w) or beef tallow (BT; 20% w/w). GFR was determined in the same animals at onset of diet and after 8 and 20 weeks on the respective diets by [14C]inulin clearance using implanted osmotic minipumps each time. Significant hyperfiltration was present initially and GFR did not change on either diet for 20 weeks, in spite of a significant and greater than 50% decrease in all prostaglandins (PGE2, TXB2, PGF2 alpha, 6-keto, PGF1 alpha) produced by glomeruli isolated from DM/FO as compared to DM/BT or control rats. FO diet completely corrected the hypertriglyceridemia of diabetes and significantly reduced the mild and early proteinuria of DM. The decrease in proteinuria and the correction of hyperlipidemia of DM by a FO-enriched diet may be beneficial in the long term not only for the development of diabetic glomerulopathy, but also for the accelerated atherosclerosis of DM.
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PMID:Effects of fish oil on glomerular function in rats with diabetes mellitus. 240 55

A link between circulating anti-insulin antibodies and diabetic glomerulopathy has been suggested. This paper presents two different studies aiming to detect a relationship between incipient nephropathy (indicated by microalbuminuria) and anti-insulin antibodies. In 64 type I diabetics, overnight urinary albumin excretion during an exercise-test was found to be correlated with systolic blood pressure (r = 0.258 p less than 0.05), anti-insulin antibodies (r = 0.258 p less than 0.05), and glycosylated hemoglobin (r = 0.258 p less than 0.05) whereas no correlation was found among these three parameters. In another group of 80 type I diabetics, urinary albumin excretion during a standardized exercise-test was also correlated with anti-insulin antibodies (r = 0.360 p less than 0.001). In this latter group, diabetics with elevated (greater than 200 microU/ml) levels of anti-insulin antibodies had higher values of microalbuminuria after exercise (p less than 0.001) when compared to those with lower or undetectable levels, although they did not differ with respect to blood pressure and glycemic control. Therefore, we confirm preliminary reports indicating a statistical relationship between anti-insulin antibodies and microalbuminuria. We hypothesize that anti-insulin antibodies may be an additional factor of risk in the pathogenesis of early (reversible) stages of diabetic nephropathy.
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PMID:A correlation between microalbuminuria and anti-insulin antibodies in type I diabetics. 277 98

Arterial hypertension is a frequent finding, even early in the course of diabetic nephropathy. Systemic and glomerular hypertension enhance the development of diabetic glomerulopathy and accelerate the rate of decline in glomerular filtration rate in diabetic nephropathy. Conversely, effective antihypertensive treatment reduces albuminuria and diminishes the rate of decline in glomerular filtration rate, thereby postponing end-stage renal failure in diabetic nephropathy.
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PMID:High blood pressure is a major factor in progression of diabetic nephropathy. 297 Oct 78


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