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Query: UMLS:C0011854 (type 1 diabetes)
 20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

One of the earliest histopathological signs of diabetic retinopathy is a selective loss of intramural pericytes from retinal capillaries. In the present study, the retinal vessels of rats with streptozotocin-induced diabetes (STZ Wistar) and rats with genetically-induced insulin dependent diabetes mellitus (BB Wistar) and non-insulin dependent diabetes mellitus (SHR/N-corpulent) were examined after 6 to 8 months duration for diabetes-related retinal microangiopathies. The SHR/N-corpulent (cp) rats were fed a 54% sucrose diet, whereas the STZ Wistar and BB Wistar rats were fed laboratory chow for 32 to 36 weeks. In all the diabetic rats, the retinal capillaries in enzyme-digested flat mounts exhibited an increase in periodic-acid-Schiff (PAS) staining and loss of pericytes compared to their respective euglycemic controls. Pericyte "ghosts", like those defined in human diabetes as intramural pockets lacking normal cell contents, were documented by high resolution micrographs in all the diabetic rats. Endothelial cell proliferation, capillary dilation, and varicose loop formation were noted in some of the diabetic rats. Hence, similar capillary lesions were found in very different groups of diabetic rats. The findings suggest that a chronic high tissue concentration of glucose is the underlying factor which triggers pathogenesis in the pericyte. Hyperglycemia-induced activation of endogenous aldose reductase of the polyol pathway is probably the initial insult, but other factors such as advanced glycosylation products may affect the final outcome.
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PMID:Degenerated intramural pericytes ('ghost cells') in the retinal capillaries of diabetic rats. 182 96

Microangiopathy is the major cause of death in Insulin Dependent Diabetes Mellitus. However, the pathogenesis of microangiopathy is still far from clear. This paper is a review of the literature on diabetic microangiopathy and discusses the current theories concerning its causes, prevention and treatment. The roles of abnormal glucose metabolism, protein glycosylation, genetic factors and puberty as well as the changes in vascular endothelium, capillary permeability and blood constituents, in the development of microangiopathy are discussed. The benefits of strict control of blood glucose concentrations are discussed along with the action of various pharmaceutical preparations such as aldose reductase inhibitors, hydroxyrutosides, pentoxifylline and free radical scavengers currently assessed in the prevention or treatment of diabetic microangiopathy.
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PMID:Microangiopathy in diabetes mellitus: I. Causes, prevention and treatment. 184 Oct 26

A unifying metabolic hypothesis completely accounting for the development of one or more of the chronic complications of diabetes on the basis of a single aspect of disturbed glucose metabolism resulting from insulin deficiency and/or hyperglycemia has been sought by clinical and basic scientists for decades. A growing body of loosely related but internally consistent scientific data obtained from cultured cells, incubated tissue preparations, animal models, and man implicate sorbitol- and glucose-induced myo-inositol depletion and altered phosphoinositide metabolism in a series of secondary biochemical, functional, and architectural abnormalities in the PNS in diabetes. These early metabolically based functional and structural changes simulate those that characterize human diabetic neuropathy. Can abnormal phosphoinositide metabolism in diabetic nerve thereby by itself explain the development of chronic diabetic neuropathy with all of its clinical complexity and heterogeneity? Almost certainly not. Even if the entire contribution of hyperglycemia to the development of diabetic neuropathy were mediated by secondary abnormalities in phosphoinositide metabolism, other factors must also play a role. Witness the differences in the histopathological picture of neuropathy in patients with IDDM and NIDDM despite similar durations and severity of diabetes, the apparent influence of age and gender on the appearance of early neuropathy in patients with IDDM, and the association of alcohol consumption with diabetic neuropathy. While early metabolic and functional disturbances in diabetic nerve such as impaired (Na,K)-ATPase function and paranodal swelling are empirically attributable to abnormal myo-inositol and phosphoinositide metabolism, more advanced abnormalities such as axo-glial dysjunction may reflect superimposed independent biochemical and/or hormonal defects (although, as mentioned previously, aldose reductase inhibition decreases axo-glial dysjunction in diabetic humans). The PNS has only a limited repertoire of responses to a variety of insults, so that Wallerian degeneration, axonal atrophy, impaired axonal transport, and dystrophic changes in diabetic neuropathy may represent multiple factors. On the other hand, the increasingly recognized importance of the phosphoinositide cascade in neuromodulation may attribute a progressively wider range of disturbances in the diabetic PNS to myo-inositol depletion and associated defects in phosphoinositide metabolism. Thus, while all effects of aldose reductase inhibitors in the PNS of diabetic rats have been reproduced by myo-inositol supplementation when this alternative intervention has been tested, the exact role of phosphoinositide metabolism in most of these responses is not well understood.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Pathogenesis of diabetic neuropathy: role of altered phosphoinositide metabolism. 256 4

Fig. 5 provides a summary of the natural history of diabetic nephropathy in IDDM patients. The figure also includes the possibilities of intervention in the various stages of diabetic nephropathy. GFR values in normals are shown by the hatched area in the upper part of the figure. The lower part shows development of albuminuria. The level 20-200 micrograms/min is the microalbuminuric range. At present it is not possible to predict a malignant course either from the parental history (1), or from the prediabetic course (2). Neither at clinical diagnosis of diabetes, can complications be predicted (3). The figure shows a typical course in a patient developing diabetes at the age of 14 years. The patient showed poor metabolic control as indicated by the high level of GFR (greater than 150 ml/min) (4) and the increasing albumin excretion rate (4). At the age of 22 years the patient developed microalbuminuria (5) and later clinical nephropathy at age 30 years, typically after 16 years of diabetes. Blood pressure rises, and GFR starts to decline during incipient diabetic nephropathy with increasing microalbuminuria (greater than 70 micrograms/min) (5) (6), and end-stage renal failure reached at the age of 40 years,--if intervention is not undertaken. Intervention is possible as follows: A) hyperfiltration may be reduced by non-glycemic intervention such as a moderate reduction of protein intake, treatment with aldose reductase inhibitors (work in progress) or acute administration of a somatostatin analogue.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effect of blood pressure intervention on renal function in insulin-dependent diabetes. 261 18

The hypothesis that sorbitol accumulation could contribute to a reduced erythrocyte deformability in diabetes was investigated. Erythrocyte sorbitol and erythrocyte viscosity at high and low shear rates were studied in 20 insulin-dependent diabetic (IDDM) and 20 matched control subjects. An increased erythrocyte sorbitol and an increased low-shear erythrocyte viscosity were found in the IDDM patients, but there was no significant correlation (r = .11, NS) between the parameters. Incubation (3 h, 37 degrees C) in a Krebs buffer containing 33.3 mM glucose resulted in a significant sorbitol accumulation, but erythrocyte viscosity was not affected. Despite this fact, addition of 1 mM statil (ICI 128436) in the 5.5- and 33.3-mM glucose media not only prevented erythrocyte sorbitol accumulation but also improved erythrocyte viscosity in diabetic and control subjects. The effect was more pronounced at the low (approximately 16%) than at the high (approximately 2%) shear rate. The effect on erythrocyte viscosity disappeared by washing the erythrocytes after incubation, although erythrocyte sorbitol remained different. Our results suggest that sorbitol accumulation does not contribute to an increased erythrocyte viscosity in diabetes, and statil shows a positive effect on erythrocyte viscosity independent of its aldose reductase-inhibiting property.
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PMID:Effect of statil (ICI 128436) on erythrocyte viscosity in vitro. 337 86

Diabetic retinopathy is a common, and potentially blinding or visually disabling complication of diabetes. Nearly all diabetic subjects will have some degree of retinopathy after 20 years of diabetes, and 50% of those with insulin dependent diabetes will have proliferative retinopathy after 15 years. Macular oedema frequently produces central vision loss and legal blindness, most commonly in non-insulin dependent diabetics. In recent years, several therapeutic modalities have been demonstrated to be effective on the basis of large-scale randomized, controlled clinical trials. These include panretinal photocoagulation (PRP), using the argon laser or xenon arc, for proliferative retinopathy, and focal photocoagulation for macular oedema. Vitrectomy surgery is effective for diabetic vitreous haemorrhage and traction retinal detachment, producing improved vision in most patients, but only a relatively small percentage of patients so treated recover good visual acuity (greater than or equal to 6/12). Other therapeutic modalities, such as hypophysectomy for severe retinopathy, remain controversial, while still others, such as rigorous blood glucose control and aldose reductase inhibitors, are currently under investigation. The primary care physician who deals with diabetic patients should be familiar with the lesions of diabetic retinopathy and with current therapeutic modalities. He should perform an examination of the posterior retina with the direct ophthalmoscope on each diabetic patient at each visit, and should institute prompt referral to an ophthalmologist at the first sign of change. Periodic examination of all diabetic patients by an ophthalmologist should be conducted at the intervals recommended in the previous section. Definitive evaluation and treatment of diabetic retinopathy should be carried out by the ophthalmologist.
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PMID:Diabetic retinopathy: current concepts of evaluation and treatment. 353 6

Patients suffering from the severe complications associated with both insulin- (IDDM) and non-insulin-dependent diabetes mellitus (NIDDM): nephropathy, retinopathy, neuropathy, and atherosclerosis are still largely left without a prospect of an efficient treatment. This is the case even if it has been assumed for decades and now finally proved by the results from the Diabetes Control and Complications Trial (DCCT) that hyperglycemia is the single main cause of these complications. Improved glycemic control as a result of intensive insulin treatment has the potential to reduce the incidence and progression of complications, but implementation and monitoring of improved glycemic control in all groups of IDDM and NIDDM patients in different communities will be difficult and expensive. Results from the recently terminated DCCT have shown that even with intensive insulin treatment, there will be a significant burden of complications on the diabetic population. It will, therefore, still be of immense importance for the long-term quality of life for the diabetic patient that additional possibilities are developed for prevention and intervention against diabetic complications. Almost two decades of research, animal model testing, and clinical trials have been conducted on various efficient aldose reductase inhibitors. Now the concept of inhibition of formation of advanced glycosylation endproducts on proteins and lipids resulting from extra- and intracellular hyperglycemia is entering the scene as an alternative or perhaps supplementary approach to reduce the occurrence of diabetic complications. An overview of the results from these two fields of research and associated drug-development programs will be presented along with thoughts on possible future developments.
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PMID:Diabetic late complications: will aldose reductase inhibitors or inhibitors of advanced glycosylation endproduct formation hold promise? 759 49

Glomerular vasodilatation in the early stages of type I diabetes mellitus apparently results from arteriolar insensitivity to vasoconstrictors. Since cytosolic free calcium ([Ca2+]i) is a major signaling mechanism for smooth muscle contraction, we studied whether growth of smooth muscle-like rat glomerular mesangial cells in media with high glucose concentration affects [Ca2+]i responses to vasoconstrictors. In cells grown for five days in 22 mM glucose, we observed blunted responsiveness to three structurally unrelated vasoconstrictors that elevate [Ca2+]i via a phospholipase C-dependent mechanism, angiotensin II, prostaglandin F2 alpha, and arginine vasopressin. Inhibition of [Ca2+]i responses was not due to an osmotic effect of high glucose, since it was not mimicked by hypertonic mannitol. While the size of intracellular Ca2+ pools was unaffected by elevated glucose, Na+/Ca2+ exchange was markedly inhibited, thus ruling out both impaired filling of Ca2+ stores and enhanced counter-regulatory mechanisms. Impaired myoinositol transport or intracellular sorbitol accumulation were not responsible for the effects of high glucose, since supplementation of media with myo-inositol or with the aldose reductase inhibitor. Alcon 1576, failed to reverse insensitivity to vasoconstrictors. On the other hand, down-regulation or pharmacological inhibition of protein kinase C completely reversed the effects of high glucose, thus indicating involvement of this signal transduction pathway. These data suggest a possible intracellular mechanism for the impaired vascular sensitivity underlying early renal hemodynamic changes in diabetes mellitus.
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PMID:High glucose inhibits cytosolic calcium signaling in cultured rat mesangial cells. 845 57

The morphologically distinct diabetic or 'metabolic' cataract is rare in newly diagnosed insulin dependent diabetes. The cases described are of five adolescents (three girls, two boys) with newly diagnosed insulin dependent diabetes who developed metabolic cataracts close to the time of diagnosis (0-16 months). They all had a prolonged duration of symptoms before diagnosis (4-24 months) and high glycated haemoglobin levels at diagnosis (15-21%). The pathogenesis of diabetic cataract is not well understood in humans. An attempt is made to link clinical observations with evidence from experimental animal models to understand the mechanism of cataract formation, with particular reference to the aldose reductase pathway. It is recommended that the lens and retina are examined at the onset of diabetes in all children, especially those who have a prolonged duration of symptoms before diagnosis and who report persistent blurred vision.
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PMID:Metabolic cataracts in newly diagnosed diabetes. 906 99

Diabetes mellitus causes profound alterations in many body tissues. Microvascular diabetic complications include diabetic neuropathy, nephropathy and retinopathy. Nephropathy first becomes manifest with hyperfiltration and microalbuminuria. These functional changes evolve over several years to a stage of marked deterioration of renal function. The possible preventive measures are metabolic control, reduction of dietary protein intake and use of ACE-inhibitors. Metabolic control is also important for the prevention of diabetic retinopathy. In fact, patients with HbA1c higher than 10% have an increased risk of progression of retinopathy. Moreover, an accelerated progression of retinopathy has been observed in patients with systemic hypertension following the onset of microalbuminuria. It has been demonstrated that diabetic neuropathy can also be present during childhood; therefore, it is possible to detect electrophysiological abnormalities in children and adolescents with IDDM. Glycaemic and blood pressure control are, so far, the main means for possible prevention or modification of the natural history of diabetic microvascular complications. Tight glycaemic control may have beneficial effects for diabetic neuropathy. In addition, other preventive measures, such as aldose reductase inhibitors, gangliosides, neurotrophic vitamins, etc., have been studied in the last years. However, no conclusive results have been obtained so far.
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PMID:Prevention of microvascular complications in diabetic children and adolescents. 1019 52


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