UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of a newly developed oral agent, prostaglandin E1 (PGE1) analogue TFC 612, on diabetic neuropathy was studied by giving it for 6 wk to streptozocin-induced diabetic rats that had been diabetic for 3 mo and was compared with the effects of aldose reductase inhibitor ONO 2235. Although both compounds improved decreased motor nerve conduction velocity, the effect of TFC 612 continued during the 6 wk of treatment, whereas that of ONO 2235 became weaker from wk 4. The abnormality in sciatic nerve sorbitol and myo-inositol levels was reversed with ONO 2235, whereas it was unchanged with TFC 612. With the laser Doppler flowmetry technique, a decrease in the sciatic nerve blood flow in diabetic rats was shown to improve with both compounds, but TFC 612 had a greater effect than ONO 2235, and the increased lactate level of the diabetic nerve was corrected with both compounds, suggesting that both may be associated with the amelioration of ischemia in the diabetic endoneurium. Both TFC 612 and ONO 2235 partially but significantly normalized decreased fiber size in diabetic rats. On the other hand, TFC 612 completely normalized the dilated lumen area in diabetic rats, whereas ONO 2235 did not. These results suggest that the PGE1 analogue TFC 612 has a significant effect on diabetic neuropathy, possibly via vasotropic action, and may be a potent compound for the treatment of diabetic neuropathy.
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PMID:Effect of prostaglandin E1 analogue TFC 612 on diabetic neuropathy in streptozocin-induced diabetic rats. Comparison with aldose reductase inhibitor ONO 2235. 252 92

Metabolic and vascular factors have been invoked in the pathogenesis of diabetic neuropathy but their interrelationships are poorly understood. Both aldose reductase inhibitors and vasodilators improve nerve conduction velocity, blood flow, and (Na+,K+)-ATPase activity in the streptozotocin diabetic rat, implying a metabolic-vascular interaction. NADPH is an obligate cofactor for both aldose reductase and nitric oxide synthase such that activation of aldose reductase by hyperglycemia could limit nitric oxide synthesis by cofactor competition, producing vasoconstriction, ischemia, and slowing of nerve conduction. In accordance with this construct, N-nitro-L-arginine methyl ester, a competitive inhibitor of nitric oxide synthase reversed the increased nerve conduction velocity afforded by aldose reductase inhibitor treatment in the acutely diabetic rat without affecting the attendant correction of nerve sorbitol and myo-inositol. With prolonged administration, N-nitro-L-arginine methyl ester fully reproduced the nerve conduction slowing and (Na+,K+)-ATPase impairment characteristic of diabetes. Thus the aldose reductase-inhibitor-sensitive component of conduction slowing and the reduced (Na+,K+)-ATPase activity in the diabetic rat may reflect in part impaired nitric oxide activity, thus comprising a dual metabolic-ischemic pathogenesis.
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PMID:The linked roles of nitric oxide, aldose reductase and, (Na+,K+)-ATPase in the slowing of nerve conduction in the streptozotocin diabetic rat. 804 Mar 41

In the United States, diabetic retinopathy is the leading cause of new blindness in those of occupational age. We present an overview of risk factors, including renal disease, uncontrolled blood pressure, pregnancy, poor glucose control, elevated glycosylated hemoglobin, duration of disease, and age at time of diagnosis; pathogenesis, addressing the involvement of aldose reductase, nonenzymatic glycosylation of proteins, vasoproliferative factors, ischemia and vasodilation, systemic growth factors, and platelets and blood viscosity; pathology, including nonproliferative, preproliferative, and proliferative retinopathy; and the management of this condition.
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PMID:Diabetic retinopathy: a review. 806 74

In the United States, diabetic retinopathy is the leading cause of new blindness in those of occupational age. We present an overview of risk factors, including renal disease, uncontrolled blood pressure, pregnancy, poor glucose control, elevated glycosylated hemoglobin, duration of disease, and age at time of diagnosis; pathogenesis, addressing the involvement of aldose reductase, nonenzymatic glycosylation of proteins, vasoproliferative factors, ischemia and vasodilation, systemic growth factors, and platelets and blood viscosity; pathology, including nonproliferative, preproliferative, and proliferative retinopathy; and the management of this condition.
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PMID:Diabetic retinopathy: a review. 837 27

Diabetes increases the incidence of cardiovascular disease as well as the complications of myocardial infarction. Studies using animal models of diabetes have demonstrated that the metabolic alterations occurring at the myocyte level may contribute to the severity of ischemic injury in diabetic hearts. Of the several mechanisms being investigated to understand the pathogenesis of diabetic complications, the increased metabolism of glucose via the polyol pathway has received considerable attention. Deviant metabolic regulation due to increased flux through aldose reductase in diabetic hearts may influence the ability of the myocardium to withstand ischemia insult. To determine if aldose reductase inhibition improves tolerance to ischemia, hearts from acute type I diabetic and nondiabetic control rats were isolated and retrograde perfused. Each group was exposed to 1 micromol/l zopolrestat, a specific inhibitor of aldose reductase, for 10 min, followed by 20 min of global ischemia and 60 min of reperfusion in the absence of zopolrestat. Zopolrestat reduced sorbitol levels before ischemia in diabetic hearts. The cytosolic redox state (NADH/NAD+), as measured by lactate-to-pyruvate ratios, was significantly lowered under baseline, ischemic, and reperfusion conditions in diabetic hearts perfused with zopolrestat. In these diabetic hearts, ATP was significantly higher in zopolrestat hearts during ischemia, as were phosphocreatine and left ventricular-developed pressure on reperfusion. Zopolrestat provided similar metabolic and functional benefits in nondiabetic hearts. Creatine kinase release was reduced by approximately 50% in both nondiabetic and diabetic hearts treated with zopolrestat. These data indicate that inhibition of aldose reductase activity preserves high-energy phosphates, maintains a lower cytosolic NADH/NAD+ ratio, and markedly protects both diabetic and nondiabetic hearts during ischemia and reperfusion.
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PMID:Aldose reductase inhibition protects diabetic and nondiabetic rat hearts from ischemic injury. 900 Jul 7

Motor and sensory nerve conduction velocities (MNCV and SNCV) were reduced in the sciatic nerve of rats after 4 weeks of untreated streptozotocin-induced diabetes, and declined further during the following 4 weeks. Treating diabetic rats with the novel peptide HP228 had no effect on the decline of MNCV after the first 4 weeks of diabetes but attenuated the decline in SNCV. HP228 treatment also prevented any further decline in MNCV or SNCV between weeks 4 and 8 of diabetes. Consequently, at the conclusion of the study, the nerve conduction velocities (NCVs) in treated rats were significantly (both P < .001) higher than in untreated diabetic rats. Reduced nerve homogenate Na+,K+-adenosine triphosphatase (ATPase) activity in diabetic rats was significantly (P < .05) increased by HP228 but remained significantly (P < .05) lower than in untreated controls. HP228 treatment also reduced nerve Na+,K+-ATPase activity of control rats compared with untreated controls (P < .05). There was no effect of HP228 on the hyperglycemia, nerve polyol accumulation, myo-inositol depletion, reduced nerve laser Doppler blood flow, thermal hypoalgesia, or reduced mean axonal caliber in diabetic rats or on any of these parameters in control rats. These data demonstrate that a novel peptide may protect against the slowing of nerve conduction in prolonged diabetes and that the mechanism of action is unrelated to aldose reductase inhibition, prevention of nerve ischemia, or axonal atrophy. HP228 may prove a potential therapeutic agent for the treatment of prolonged diabetic neuropathy.
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PMID:Effects of the peptide HP228 on nerve disorders in diabetic rats. 962 61

Diabetic polyneuropathy is a complication, that affects most patients with longstanding diabetes mellitus, deteriorating their quality of life. In the last few years, new therapeutic approaches have been developed that can improve symptoms and neurologic function, and which may prevent and in some cases stop nerve damage, and even, promote nerve fiber regeneration. These treatments are supported by several investigations in animals and humans: a) thigh glycemic control (insulin), b) aldose reductase inhibition (tolrestat), c) prevention of protein glycation (amino-guanidine), d) improvement of nerve ischemia (vaso-dilators, gamma-linolenic acid), and e) administration of neurotrophic factors (gangliosides). Most evidence support the usefulness for glycemic control. Early treatment is suggested, because marked nerve fiber loss is present in advanced neuropathy.
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PMID:[Treatment of diabetic neuropathy]. 965

Several studies have shown that maintenance of glycolysis limits the metabolic and functional consequences of low-flow ischemia. Because diabetic animals are known to have impaired glycolytic metabolism coupled with increased flux through the aldose reductase (AR) pathway, we hypothesized that inhibition of AR would enhance glycolysis and thereby improve metabolic and functional recovery during low-flow ischemia. Hearts (n = 12) from nondiabetic control and diabetic rats were isolated and retrograde perfused using 11 mM glucose with or without the AR inhibitor zopolrestat (1 microM). Hearts were subjected to 30 min of low-flow ischemia (10% of baseline flow) and 30 min of reperfusion. 31P NMR spectroscopy was used to monitor time-dependent changes in phosphocreatine (PCr), ATP, and intracellular pH. Changes in the cytosolic redox ratio of NADH to NAD+ were obtained by measuring the ratio of tissue lactate to pyruvate. Effluent lactate concentrations and oxygen consumption were determined from the perfusate. AR inhibition improved functional recovery in both control and diabetic hearts, coupled with a lower cytosolic redox state and greater effluent lactate concentrations during ischemia. ATP levels during ischemia were significantly higher in AR-inhibited hearts, as was recovery of PCr. In diabetic hearts, AR inhibition also limited acidosis during ischemia and normalized pH recovery on reperfusion. These data demonstrate that AR inhibition maintains higher levels of high-energy phosphates and improves functional recovery upon reperfusion in hearts subjected to low-flow ischemia, consistent with an increase in glycolysis. Accordingly, this approach of inhibiting AR offers a novel method for protecting ischemic myocardium.
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PMID:Metabolic effects of aldose reductase inhibition during low-flow ischemia and reperfusion. 968 14

Increased iris vessel permeability observed in diabetics has also been reported to occur in diabetic animals and galactose-fed rats. The potential role of aldose reductase in the induction of iris vessel changes has been investigated in rats fed a 50% galactose diet with/without the aldose reductase inhibitors AL 1576, sorbinil or ponalrestat for 7 to 18 months. Compared to normal control rats, long-term galactose-fed rats display a breakdown of the blood-aqueous barrier due to iris vessel changes that include focal straightening, dilation, constriction, increased permeability, ischemia and new vessel proliferation. The onset and progression of these iridal vessel changes were prevented by the aldose reductase inhibitors AL 1576 and sorbinil, and reduced by Ponalrestat. Computerized analyses of lumen areas of iris vessels indicated an 18-fold decrease in the vascular area near the pupillary boarder in untreated galactose-fed rats compared with age-matched controls and galactose-fed rats treated with aldose reductase inhibitors. These observations linking iris vessel changes with galactose-feeding, coupled with the fact that aldose reductase inhibitors also prevent these changes, strongly suggest a link between the sorbitol pathway and the appearance and progression of iris vessel changes.
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PMID:Iris vasculopathy in galactose-fed rats. 1006 86

Giant cell arteritis (GCA) is a systemic vasculitis preferentially affecting large and medium-sized arteries. Inflammatory infiltrates in the arterial wall induce luminal occlusion with subsequent ischemia and degradation of the elastic membranes, allowing aneurysm formation. To identify pathways relevant to the disease process, differential display-PCR was used. The enzyme aldose reductase (AR), which is implicated in the regulation of tissue osmolarity, was found to be upregulated in the arteritic lesions. Upregulated AR expression was limited to areas of tissue destruction in inflamed arteries, where it was detected in T cells, macrophages, and smooth muscle cells. The production of AR was highly correlated with the presence of 4-hydroxynonenal (HNE), a toxic aldehyde and downstream product of lipid peroxidation. In vitro exposure of mononuclear cells to HNE was sufficient to induce AR production. The in vivo relationship of AR and HNE was explored by treating human GCA temporal artery-severe combined immunodeficiency (SCID) mouse chimeras with the AR inhibitors Sorbinil and Zopolrestat. Inhibition of AR increased HNE adducts twofold and the number of apoptotic cells in the arterial wall threefold. These data demonstrate that AR has a tissue-protective function by preventing damage from lipid peroxidation. We propose that AR is an oxidative defense mechanism able to neutralize the toxic effects of lipid peroxidation and has a role in limiting the arterial wall injury mediated by reactive oxygen species.
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PMID:Aldose reductase functions as a detoxification system for lipid peroxidation products in vasculitis. 1019 73

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