UMLS:C0035078 - FACTA Search

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Query: UMLS:C0035078 (renal failure)
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Patients on dialysis constitute a major healthcare burden with high prevalence of coronary artery disease frequently requiring coronary revascularization. Prior studies have reported high complications rates with revascularization in patients on dialysis. However, information on the use glycoprotein and direct thrombin inhibitors in this patient population undergoing percutaneous revascularization is limited. We retrospectively analyzed the procedural success and in-hospital outcomes of percutaneous coronary revascularization in 56 consecutive patients on dialysis compared with 524 patients without renal failure, between January 2001 and August 2007 at our facility. Additionally, we also analyzed the off-label use of glycoprotein IIb/IIIa (GP IIb/IIIa) inhibitors during revascularization in this high-risk group of patients to evaluate for possible increased bleeding complications. In the study group, 7 interventions were performed on peritoneal dialysis and 49 on hemodialysis patients. Sixty-one percent of these patients had diabetes mellitus. A total of 72 lesions were intervened upon; 12 underwent angioplasty and 60 underwent stenting. Four of 72 interventions were not successful, giving a procedural success rate of 94%. There were 6 immediate complications (10.7%), but no deaths. Thirty-two patients (57%) received GP IIb/IIIa inhibitors while direct thrombin inhibitors were used during percutaneous coronary intervention in 11(20%) patients. There were no bleeding complications with use of either GP IIb/IIIa inhibitors or direct thrombin inhibitors. In our experience, percutaneous coronary intervention has high procedural success in dialysis patients and concomitant use of GP IIb/IIIa inhibitors is not associated with any major bleeding complications, making this a feasible, safe and effective revascularization option for patients on dialysis; however, this merits further study in a randomized prospective trial.
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PMID:Percutaneous coronary intervention and the use of glycoprotein IIb/IIIa inhibitors in patients with chronic kidney disease on dialysis: a single center experience. 1883 64

Diabetic micro- and macroangiopathies are leading causes of acquired blindness, end-stage renal failure and accelerated atherosclerosis, which could account for disabilities and high mortality rates in patients with diabetes. Recent large landmark clinical studies have shown that intensive control of blood glucose or blood pressure (BP) reduces the risk for vascular complications in diabetes. However, the strict control of blood glucose or BP is often difficult to maintain, and current therapeutic options are far from satisfactory. Therefore, to develop novel therapeutic strategies that specifically target vascular complications in diabetes may be actually desired for most patients with diabetes. Pigment epithelium-derived factor (PEDF) is a glycoprotein that belongs to the superfamily of serine protease inhibitors with complex neurotrophic, neuroprotective, anti-angiogenic, anti-oxidative, and anti-inflammatory properties, any of which could potentially be exploited as a therapeutic option for the treatment of vascular complications in diabetes. This article summarizes the pathophysiological role of PEDF for vascular complication in diabetes and its potential therapeutic implication in this devastating disorder.
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PMID:Pigment epithelium-derived factor (PEDF): its potential therapeutic implication in diabetic vascular complications. 1899 13

Tamm-Horsfall protein (THP) is the most abundant protein in the urine. THP is expressed in the renal tubule as a precursor protein having 640 amino acid residues and anchored by GPI anchor in the cell membrane. Thereafter, THP is secreted as a glycoprotein is a molecular weight of about 95-100 kD. Despite several investigations from the perspective of renal failure, the physiological role of this protein is not yet clear. It has been reported that THP is also related to certain conditions, such as kidney stone formation and urinary tract infection. To examine the excretion of THP into urine, we constructed an enzyme linked immunosorbent assay(ELISA) for the measurement of THP in the urine. THP was purified from healthy human urine using Diatomaceous Earth. Then we obtained an antibody to purified THP and constructed a sandwich ELISA assay system to test urine samples. The sensitivity of measurement was 0.78 ng/ml. In this assay, the concentration of THP in spot urine can be linearly measured from 0.78 ng/ml to 50 ng/ml. The CV of assay was 2.4 to 4.1%. The measurement was not disrupted by urinary albumin (approximately 15 mg/ml), hemoglobin (approximately 15 microg/ml), glucose (approximately 30 mg/ml) and ascorbic acid (approximately 10 mg/ml). Pretreatment by centrifugation or filtration of urine affected the concentration of THP because of the agglutinated form of THP. We showed that the urinary excretion rate remained almost constant in our test population, 1.00-1.65 mg/hr (average +/- 1SD 1.30 +/- 0.25) for healthy men and 0.61-1.51 mg/hr (0.90 +/- 0.30) for healthy women and 1.10 +/- 0.34 mg/hr overall.
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PMID:[Construction of urinary Tamm-Horsfall protein assay by enzyme-linked immunosorbent assay and establishment of reference range of healthy subject]. 1906 82

The evidence for the potential involvement of gadolinium-based contrast agents (GBCAs) in the pathomechanism of nephrogenic systemic fibrosis (NSF), a rare but serious disease occurring in patients with severe or end-stage renal failure, has grown due to recent epidemiological and preclinical research. Nevertheless there is still uncertainty with regard to the prevailing patho-physiological processes that may lead to NSF. To examine the potential mechanism of the fibrotic skin changes we applied a recently published rat model of NSF for investigations into serum markers for inflammation. For this purpose male Wistar rats were treated either once, three, or eight times with a daily intravenous injection of 2.5 mmol/kg gadodiamide, the drug substance of the magnetic resonance imaging (MRI) agent Omniscan. Clinical observations, hematology, clinical pathology, histopathology including electron microscopy and gadolinium (Gd) determination in serum, skin, femur and liver tissue, and a multiplexed analysis of 70 protein serum markers were performed. Gd was detectable in the skin, femur, and liver of the gadodiamide-treated rats 6h after the first administration. Macroscopic skin changes, appearing as reddening and early scab formation, were observed in one animal after the third daily administration and affected all animals after 8 daily administrations. Microscopy revealed dermal infiltrations after three administrations, progressing towards inflammatory lesions, ulcerations and crusts. Among the investigated serum marker panel 13 cytokines were significantly (p<0.01) elevated 6 h after the first injection, and eight stayed elevated over all time points: the monocyte chemotactic proteins MCP-1 and MCP-3, the macrophage inflammatory proteins MIP-1beta and MIP-2, the tumor necrosis factor TNF-alpha, the extracellular matrix regulator tissue inhibitor of metalloproteinase type 1 (TIMP-1), the vascular epithelial growth factor (VEGF) and osteopontin. The latter cytokine is of particular interest, since this matrix cellular glycoprotein is involved in the regulation of dystrophic calcification but also plays a role as a chemoattractant for dendritic cells, macrophages and T-lymphocytes, which in turn activate inflammatory pathways. Reflecting the physiological role of osteopontin, we hypothesize that Gd release from the GBCA-complex leads to the formation of insoluble Gd-deposits subsequently eliciting a physiological response similar to that seen during dystrophic calcification, i.e. an up-regulation of osteopontin and chemoattractant cytokines. Concomitant increase in vascular permeability caused by MIP-1, TNF-alpha and VEGF may lead to extravasation of chelated Gd or Gd-deposits. The inherent persistence of the Gd-deposits may subsequently result in an overactivation of pro-inflammatory pathways progressing towards overt skin effects.
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PMID:The involvement of pro-inflammatory cytokines in nephrogenic systemic fibrosis - a mechanistic hypothesis based on preclinical results from a rat model treated with gadodiamide. 1913 Dec 26

The multifactorial glycoprotein, adiponectin has demonstrable insulin-sensitizing, anti-atherogenic and anti-inflammatory properties. However, despite the prevalence of both insulin-resistance and vascular disease in patients with end-stage kidney disease, levels of adiponectin are high. Adiponectin circulates in different sizes (the high-molecular-weight (HMW) isoform is thought to be the most insulin-sensitizing type) and binds to two receptors, adiponectin receptors (AdipoR) 1 and 2. The adiponectin/receptor system appears to be upregulated in end-stage kidney disease possibly as an appropriate counter-regulatory response to the uraemic milieu. In contrast, adiponectin and its HMW isoform, AdipoR mRNA expression on peripheral blood mononuclear cells decrease after kidney transplantation, likely secondary to immunosuppression and/or an improvement in glomerular filtration rate and the uraemic environment. Adiponectin has also been detected in the urine of patients with proteinuric kidney disease. The presence of AdipoR on an immortal cell line of proximal tubular epithelial cells (HK-2) and an increased amount of intact HMW isoform in the urine of patients with various forms of proteinuria lead us to speculate about the potential role of urinary adiponectin. This review will also discuss the structure and function of adiponectin and its potential relevance to patients with kidney disease and the different factors that may influence the metabolism of this protein in kidney failure.
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PMID:Review article: Adiponectin: its role in kidney disease. 1913 7

The serum glycoprotein fetuin-A is an important inhibitor of extra-osseous calcification, but correlations between serum fetuin-A levels and the extent of vascular calcification are controversial. In this study, we used a rat model of adenine-induced renal failure with secondary hyperparathyroidism that exhibits all characteristic features of patients with chronic kidney disease. These rats had medial vascular calcification along with reduced levels of both serum and hepatic fetuin-A. Treatment with an inhibitor of ectopic calcification, alendronate, decreased bone turnover and eliminated completely the vascular calcification in this rat model, but there was no change in the levels of hepatic and serum fetuin-A. Centrifugation of the serum of untreated rats with renal failure gave a small precipitate composed of fetuin-A, calcium, magnesium, and phosphate; this complex, absent from normal rat serum, was not found in the serum of alendronate-treated rats with renal failure. Rat serum contained three types of phosphorylated fetuin-A, as well as unphosphorylated forms, but only the fully phosphorylated fetuin-A was present in the mineral complex. The amount of this complex reflected the risk of mineral precipitation. Our results suggest that the measurement of serum fetuin-mineral complex rather than fetuin-A alone might provide a better indication of extra-osseous calcification propensity.
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PMID:Fully phosphorylated fetuin-A forms a mineral complex in the serum of rats with adenine-induced renal failure. 2107 51

Drug transport and disposition are influenced by a non-specific and reversible drug binding to plasma and tissues proteins. Albumin and al acid glycoprotein are the most important transport proteins of the blood. Albumin possesses specific sites for acidic and basic drug binding and can interact with them in the plasma since a third site is trapped only by digoxin. Diseases and stress conditions induce conformational changes either in plasma or in tissue proteins by the synthesis of endogenous substances which can strong interfere with the amount of the free pharmacological effective drug ratio. This may affect the binding of drugs in target molecules inducing significant pharmacokinetic alterations. Stress conditions are associated with FFA increase in serum playing an antagonistic role with other acidic molecules (e.g. ampicillin) to the same binding site. The bounded drug is displaced and freer ratio is available to interact with various organ receptors leading to pharmacological effect enhancement and therefore to side effects manifestation such as seizures. Furthermore conjunctive tissues diseases, ageing, prolonged bleeding, starvation or diseases affecting protein profile, characterized by reduced total plasma proteins, followed by albumin decrease and lessen binding sites lead to more free drug availability enhancing its pharmacological effect. Increased a1-acid glycoprotein the acute phase protein as by heart infraction or liver morbidities (e.g CCl4 intoxication) mainly occupied from basic substances, in the case of cationic drug treatment resulted to the enhancement of them and consequently to pronounced effectiveness. In addition, renal failure reduced free fractions of many acidic drugs. It may be concluded that by narrowed therapeutic index of a medicine, and when drug/drug or drug/disease interactions are anticipated, drug monitoring seems to be necessary for its dosage adjustment.
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PMID:The role of the protein-binding on the mode of drug action as well the interactions with other drugs. 1923 May 95

After being distributed in the circulating blood, drugs bind to serum proteins varying degrees. In general, such binding is reversible, and a dynamic equilibrium exists between the bound and unbound molecular species. It is believed that unless there is a specific transport system (e.g. receptor-mediated endocytosis, protein-mediated transport), only unbound drugs are able to penetrate through biomembranes, are distributed to tissues, and undergo metabolism and glomerular filtration. It is also believed that only unbound molecules present in target tissues can exert their pharmacological effects, and that the concentration of unbound molecules in tissues is in proportion to the drug serum concentration. Therefore, drug-serum protein binding is critically involved in the manifestation of the pharmacological effects of a drug as well as its pharmacokinetics. Among serum proteins, human serum albumin (HSA) and alpha(1)-acid glycoprotein (AGP) play important roles in protein binding for many drugs, which is of key importance to drug distribution in the body. In addition, they are widely used in clinical settings as blood preparations and drug delivery system carriers. It is thus of great importance from the viewpoint of pharmaceutical science to clarify the structure, function, and pharmaceutical properties of HSA and AGP. Accordingly, since starting my laboratory, the focus of my research has involved molecular pharmaceutical studies on the interactions of drugs and HSA and AGP for the purpose of applying these findings to clinical fields, such as drug treatment, diagnosis and drug discovery. In this review, the molecular properties of HSA and AGP will be briefly outlined. The static and dynamic topology of drug binding sites on these proteins, investigated by various spectroscopic techniques, X-ray crystallography, quantitative structure-activity relationships, molecular modeling, photo affinity labeling, site-directed mutagenesis etc., changes in the serum protein binding of drugs in pathological conditions, such as liver and kidney failure and various inflammation diseases and factors contributing to the changes will then be summarized. Finally, cases in which protein binding displacement can be applied to medical fields will also be introduced.
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PMID:[Study on binding of drug to serum protein]. 1933 95

Using different mouse monoclonal and human antiphospholipid (aPL) antibodies, we developed a new animal model of renal injury that shares many features with thrombotic microangiopathy (TMA). We found that more than 1 mechanism/signaling pathway is involved in glomerular injury induced by aPL antibodies in this model. Both complement-dependent and complement-independent pathways were identified that lead to glomerular endothelial cell damage and renal function impairment. We also found that C5a-C5aR interaction is a crucial step for the activation of the coagulation cascade and glomerular injury induced by complement-activating antibodies. In addition, our studies demonstrated complement-independent mechanisms in which reactivity with beta(2) glycoprotein I (beta2GPI) plays an important role in aPL-induced glomerular damage and renal failure. Independently of the mechanism responsible for aPL-induced TMA, mice that express low levels of tissue factor (TF) were protected from glomerular injury. That genetic reduction of TF prevents renal injury induced by different aPL antibodies indicates that TF is a common mediator of glomerular damage and a possible target for selective pharmacologic intervention. Treatment with pravastatin, which down-regulates glomerular TF synthesis, prevents aPL-induced TMA in this mouse model, thus emphasizing that targeting TF might be a good therapeutic intervention in patients with TMA.
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PMID:Role of tissue factor in a mouse model of thrombotic microangiopathy induced by antiphospholipid antibodies. 1953 96

Currently, the May-Hegglin anomaly (MHA), Sebastian (SBS), Fechtner (FTNS) and Epstein (EPS) syndrome are considered to be distinct clinical manifestations of a single disease caused by mutations of the MYH9 gene encoding the heavy chain of non-muscle myosin IIA (NMMHC-IIA). Manifestations of these disorders include giant platelets, thrombocytopenia and combinations of the presence of granulocyte inclusions, deafness, cataracts and renal failure. We examined 15 patients from 10 unrelated families on whom we performed immunostaining of NMMHC-IIA in blood samples. Polymerase chain reaction (PCR) analysis of selected exons of the MYH9 gene revealed mutations in nine samples with one novel mutation. Results of fluorescence and mutational analysis were compared with clinical manifestations of the MYH9 disorder. We also determined the number of glycoprotein sites on the surface of platelets. Most patients had an increased number of glycoproteins, which could be due to platelet size.
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PMID:Clinical manifestation and molecular genetic characterization of MYH9 disorders. 1955 53

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