Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0033687 (proteinuria)
 24,015 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 61-year-old male patient had secondary polycythemia associated with idiopathic nephrotic syndrome. Renal biopsy revealed membranous nephropathy. Polycythemia did not change in spite of partial remission of proteinuria. Serum erythropoietin determined by an enzyme-linked immunosorbent assay was 7.2 mU/ml. His serum erythropoietin maintained at a constant level during polycythemia was higher than it was before the appearance of renal ischemia, so he was kept in a polycythemic state. Whether decreasing proteinuria can improve renal ischemia requires future study. We must observe the patient for the occurrence of thromboembolism. Renal ischemia possibly induced by nephrotic syndrome is likely to cause secondary polycythemia.
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PMID:Secondary polycythemia associated with membranous nephropathy. 218 32

The case of a 38 year-old man with hepatocellular carcinoma in a non-cirrhotic liver is reported. Hyperestrogenosis with gynecomastia, polycythemia and proteinuria were present. After complete removal of the tumor, estrogen levels, red blood-cell volume and urine analysis did not return to normal and these pathologic findings were probably not paraneoplastic syndromes. Outcome was good, the patient remaining completely well without evidence of recurrence during the ensuing 30 months. The likely explanation for the persistent hyperestrogenosis was an excessive conversion of sexual hormones. The authors suggest that this abnormal hyperestrogenic state could promote hepatic neoplasia as it has been established in animals.
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PMID:[Hepatocellular carcinoma and hyperestrogenia in a male]. 282 Aug 25

We report a case of a child with familial Budd-Chiari syndrome and proteinuria. Renal biopsy disclosed predominant arteriolo-capillary endothelial and mesangial lesions suggesting a microangiopathy. This may be due to hypoxemic damage with polycythemia and high venous pressure resulting from precapillary pulmonary arteriovenous shunts.
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PMID:[Familial Budd Chiari syndrome and glomerular involvement]. 408 74

The introduction of new immunosuppressive regimens results in the significant improvement in the outcome of patients after kidney transplantation. However, about 5 percent of renal transplants are lost every year. Not only immunological (alloantigendependent) but also nonimmunological (alloantigen-independent) factors are involved in late graft loss. Among them, hypertension, hyperlipidemia, proteinuria, genetic predisposition, viral infection and nephrotoxicity of immunosuppressive drugs contribute to the development and to the progression of chronic post-transplant nephropathy. Hypertension can be both the cause and the consequence of chronic allograft failure. Hypertension is frequently observed before transplantation, persists after grafting and increases the risk of chronic allograft nephropathy. Hypercholesterolemia, obesity, atheromatosis, polycythemia, and excessive salt intake are factors contributing in post-transplant hypertension. However, in some cases, hypertension can be transferred with the grafted kidney, as observed in normotensive patients before renal transplantation. In 1 to 12 percent of cases, the cause of post transplant hypertension is the stenosis of the transplant artery. Sometimes the presence of hypertension in renal recipients may result from the recurrence of glomerulonephritis or from the development of glomerulonephritis de novo in the graft. Also immunosuppressive treatment with corticosteroids and cyclosporine A contributes to the increased prevalence of hypertension by 20-30 percent. The development of the graft nephroarteriolosclerosis as a consequence of hypertension accelerates the progression of the post-transplant nephropathy. Adequate control of the arterial pressure (< 140/90) should be achieved in all renal transplant recipients. Reduction in protein and salt intake is important to reduce hyper-filtration and slows the progression of transplant nephropathy. However, pharmacological treatment is usually needed. Angiotensin-converting-enzyme inhibitors, angiotensin II type I receptor antagonists exhibit beneficial hemodynamic effect leading to the reduction of glomerular hypertension and proteinuria. Calcium antagonists besides their systemic antihypertensive effect, can protect renal grafts from vascular and renal toxicity of CyA. Sometimes, combined therapy with these and other antihypertensive drugs and diuretics is necessary.
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PMID:[Post-transplant nephropathy and arterial hypertension]. 1186 48

Chronic exposure to high altitude is associated with the development of erythrocytosis, proteinuria, and, in some cases, hyperuricemia. We examined the relationship between high-altitude polycythemia and proteinuria and hyperuricemia in Cerro de Pasco, Peru (altitude, 4,300 m). We studied 25 adult men with hematocrits less than 65% and 27 subjects with excessive erythrocytosis (EE; hematocrit > 65%) living in Cerro de Pasco, Peru and compared them with 28 control subjects living in Lima, Peru (at sea level) and after 48 hours of exposure to high altitude. Serum urate levels were significantly elevated in patients with EE at altitude, and gout occurred in 4 of 27 of these subjects. Urate level strongly correlated with hematocrit (r = 0.71; P < 0.0001). Urate production (24-hour urine urate excretion and urine urate-creatinine ratio) was increased in this group compared with those at sea level. Fractional urate excretion was not increased, and fractional lithium excretion was reduced, in keeping with increased proximal reabsorption of filtrate. Significantly higher blood pressures and decreased renin levels in the EE group were in keeping with increased proximal sodium reabsorption. Serum urate levels correlated with mean blood pressure (r = 0.50; P < 0.0001). Significant proteinuria was more prevalent in the EE group despite normal renal function. Hyperuricemia is common in subjects living at high altitude and associated with EE, hypertension, and proteinuria. The increase in uric acid levels appears to be caused by increased urate generation secondary to systemic hypoxia, although a relative impairment in renal excretion also may contribute.
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PMID:Hyperuricemia, hypertension, and proteinuria associated with high-altitude polycythemia. 1204 23

There are close to 1 million people in the world who are alive simply because they have access to one form or another of renal replacement therapy (RRT). Ninety percent live in high-income countries. Little is known of prevalence and incidence of chronic kidney disease and of end-stage renal disease (ESRD) in middle-income and low-income countries, where the use of RRT is scarce or nonexistent. However, no intervention is undertaken, these people will experience progression to ESRD and death from uremia, because RRT is out of reach for them. These are the individuals for whom efforts should be focused to prevent or delay progression toward ESRD. In 1992, the Mario Negri Institute for Pharmacological Research in Bergamo, Italy, with the cooperation of the young doctors of the Ospedale Giovanni XXIII in La Paz (Bolivia), activated a specific project titled "El Proyecto de Enfermedades Renales en Bolivia" (The Project for Renal Diseases in Bolivia). The project sought to demonstrate that in emerging countries the best strategies against renal disease are prevention and early detection. After proper training of local personnel at the Clinical Research Center "Aldo e Cele Dacco" of the Mario Negri Institute in Bergamo, Italy, an educational campaign titled "First Clinical and Epidemiological Program of Renal Diseases"-under the auspices of the Renal Sister Center Program of the International Society of Nephrology-was conducted in 3 selected areas of Bolivia, including tropical, valley, and plains areas. The goal was to define the frequency of asymptomatic renal disease in these areas by screening a large population of patients at relatively low costs. The screening was formally performed at first-level health centers (Unidad de Salud). Participants were instructed to void a clean urine specimen, and a dipstick test was performed. Patients with positive urinalysis were enrolled in a follow-up program with subsequent laboratory and clinical checks. The study was conducted by 21 clinical centers. Apparently healthy patients (14,082) were enrolled over a period of 7 months. Urinary abnormalities were found on first screening in 4261 patients, but only 1019 patients (23.9%) were available for follow-up. At second urinalysis, 35% of patients had no abnormalities. In the remaining positive group of patients, further investigations disclosed the following abnormalities: urinary tract infection (48.4%), isolated hematuria (43.9%), chronic renal failure (1.6%), renal tuberculosis (1.6%), and other diagnoses 4.3% (kidney stones, 1.3%; diabetic nephropathy, 1%; polycystic kidney diseases, 1.9%). The experience gained from this initial screening program formed the basis for a second study aimed to prevent renal disease progression in a selected Bolivian population with high altitude polycythemia. In conclusion, our studies show that mass screening of the population for renal disease is feasible in developing countries and can provide useful information on frequency of renal diseases. Also, in patients with altitude polycythemia, long-term treatment with low doses of enalapril safely prevents increase in arterial blood pressure and progressively reduces hematocrit and proteinuria. Aside from its scientific value, this last study can be taken as an example of how, by rationalizing resources and investing in research programs, renal disease progression and cardiovascular risk may eventually improve, which ultimately should translate into less demand for dialysis, and thus provide alternatives to costly RRT. The transformation of the Bolivian pilot model into a systematic program applicable to most emerging countries may be seen as a task of national nephrology societies, along with methodologic and economic support of international bodies.
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PMID:Strategies for national health care systems in emerging countries: the case of screening and prevention of renal disease progression in Bolivia. 1601 7

Cyanotic nephropathy (CN) is often accompanied by congenital cyanotic heart diseases (CCHD). The purpose of this study was to clarify the risk factors and the mechanisms of involved in the development and progression of CN. Thirty patients with CCHD were examined. We analyzed the risk factors for the development of CN on the basis of the clinical and laboratory findings. We also examined ten renal biopsy specimens obtained from patients with CN. Patients with CN showed significantly higher hematocrit levels than those without CN (P=0.025), although there was no difference between the two groups in terms of oxygen saturation. The renal plasma flow (RPF) in patients both with and without CN was low. However, the filtration fraction (FF) was significantly lower in patients with CN than in those without CN (P=0.001). The glomeruli of biopsy specimens with significant proteinuria (n=7) were larger than those of biopsy specimens without significant proteinuria, and there were more capillaries per glomerulus in the former than in the latter (n=3) and the control specimens (n=6) (glomerular size: P<0.01; number of glomerular capillaries: P<0.01). In conclusion, hyperviscosity by polycythemia may be responsible for the development of CN. This pathological condition may induce an angiogenic increase in the glomerular capillary beds, in turn leading to glomerulomegaly. In addition, the failure of a compensatory mechanism to respond to reduced RPF by hyperfiltration may be accompanied by the development and progression of CN.
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PMID:Mechanisms of development and progression of cyanotic nephropathy. 1690 84

Cystic renal lymphangiectasia (CRL) is a rare malformation of lymphatics that can present in childhood and adulthood. Symptoms and radiologic features are relatively well defined, but clinical evolution and prognosis remain unclear. We treated a boy with CRL who developed chronic renal insufficiency. The first manifestation was abdominal swelling associated with an umbilical hernia noted incidentally at 1.6 years. Computed tomography with intravenous contrast administration demonstrated perirenal cysts with fluid collection, suggesting CRL. Intractable ascites resisted pharmacologic treatments such as diuretics. After approximately 7 years, the ascites resolved spontaneously, but the perirenal cysts persisted. At 11 years, proteinuria was noted. A renal biopsy specimen showed interstitial abnormalities consistent with CRL, glomeruli showed a focal segmental mesangial increase. Proteinuria persisted despite administration of an angiotensin-converting enzyme inhibitor, increasing as obesity and hypertension worsened. Renal function gradually declined in the ensuing years. Polycythemia coexisted with a normal serum erythropoietin concentration. A follow-up renal biopsy specimen disclosed glomerular enlargement together with focal segmental mesangial expansion, suggesting obesity-related glomerulopathy. Our observation suggest that under some specific circumstances like our patient CRL may exacerbate. Management of complicating obesity and hypertension are likely to be important for maintaining normal renal function, especially in the diffuse bilateral type of CRL present in our patient.
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PMID:Chronic renal insufficiency in a boy with cystic renal lymphangiectasia: morphological findings and long-term follow-up. 1818 26

Renal venous thrombosis (RVT) is a rare but a well recognized entity in children and neonates. The clinical signs of neonatal RVT include hypertension, enlarged kidney(s), hematuria, renal insufficiency, proteinuria, thrombocytopenia, or all. Persisting impairment of kidney function and hypertension are serious and common complications in patients with RVT. Risk factors for the development of RVT include maternal diabetes mellitus, pathologic states associated with thrombosis (e.g., shock, dehydration, perinatal asphyxia, polycythemia), and sepsis. Inherited prothrombotic abnormalities have been described in some reports of RVT. We report the case of a male newborn with left RVT and associated homozygosity for both factor V Leiden (G1691A) and methylenetetrahydrofolate reductase C677T mutations in addition to elevated serum lipoprotein (a). The patient was treated with heparin. We believe our case to be the first reported case in the English medical literature of such an association between neonatal RVT and homozygosity for both factor V Leiden and methylenetetrahydrofolate reductase. This case and other studies clearly demonstrate that neonatal RVT should be evaluated for thrombophilia conditions.
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PMID:Renal venous thrombosis in a newborn with prothrombotic risk factors. 1954 80

More than 140 million people live permanently at high altitude (>2400 m) under hypoxic conditions that challenge basic physiology. Here we present a short historical review of the populating of these regions and of evidence for genetic adaptations and environmental factors (such as exposure to cobalt) that may influence the phenotypic responses. We also review some of the common renal physiologic responses focusing on clinical manifestations. The frequent presentation of systemic hypertension and microalbuminuria with relatively preserved GFR coupled with the presence of polycythemia and hyperuricemia suggests a new clinical syndrome we term high altitude renal syndrome (HARS). ACE inhibitors appear effective at reducing proteinuria and lowering hemoglobin levels in these patients.
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PMID:High altitude renal syndrome (HARS). 2156 53


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