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The number of patients with significant chronic renal failure is expanding rapidly in the United States. All physicians and medical-care providers will have an increasingly important role in the detection and management of renal failure in patients who are not undergoing dialysis. Patients with diabetes or hypertension should be carefully monitored for the development of renal insufficiency by using screening tools such as blood pressure measurement, determination of serum creatinine, urinalysis, and determination of 24-hour urinary microalbuminuria. In order to slow the progression of renal disease, attenuate uremic complications, and prepare patients with renal failure for renal replacement therapy, all medical-care providers should "take care of the BEANS." Blood pressure should be maintained in a target range lower than 130/85 mm Hg, and in many patients, angiotensin-converting enzyme inhibitors may be beneficial. Erythropoietin should be used to maintain the hemoglobin level at 10 to 12 g/dL. Access for long-term dialysis should be created when the serum creatinine value increases above 4.0 mg/dL or the glomerular filtration rate declines below 20 mL/min. Nutritional status must be closely monitored in order to avoid protein malnutrition and to initiate dialysis before the patient's nutritional status has deteriorated. Nutritional care also involves correction of acidosis, prevention and treatment of hyperphosphatemia, and administration of vitamin supplements to provide folic acid. Specialty referral to nephrology should occur when the creatinine level increases above 3.0 mg/dL or when the involvement of a nephrologist would be beneficial for ongoing management of the patient.
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PMID:A practical approach to the management of patients with chronic renal failure. 1008 97

Advances in technology have made it possible to deliver a high Kt/V in a shorter time. The realization that duration of dialysis may be an important predictor of survival independent of dialysis dose has resulted in the popularity of prolonged slow dialysis (PHD). The longer duration and increased frequency of dialysis achieve excellent small- and middle-molecular weight solute clearance and also attenuate the peak concentration of uremic toxins. The slow dialysis process enables the equilibration of tissue and vascular compartments, resulting in better clearance and decreased postdialysis rebound increase in solutes. Gentle, persistent ultrafiltration allows the control of hypertension with minimal antihypertensive use. The intense and more frequent dialysis improves appetite and permits liberalization of diet. This greater dietary protein intake results in a progressive increase in serum albumin level and dry weight. Nocturnal hemodialysis achieves control of hyperphosphatemia without phosphate binders and a significant reduction in serum beta(2)-microglobulin levels. Normalization of extracellular volume, better clearance of uremic toxins, and improved nutrition result in a significant improvement in survival. The flexible time schedule with home hemodialysis and improvement of sleep and neurocognitive function allow better rehabilitation. The available evidence indicates PHD may be closer to the concept of an ideal dialysis, but there is lingering uncertainty about the consequence of prolonged immune stimulation, catabolism, and loss of essential solutes with these therapies.
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PMID:In search of ideal hemodialysis: is prolonged frequent dialysis the answer? 1067 42

Clinical and experimental data suggest that Parathormon (PTH), calcium, and phosphorus participate in left ventricular hypertrophy (LVH) and affect myocardial contractility in end-stage renal disease. Cellular calcium overload and interstitial fibrosis induced by PTH may lead to impairment of left ventricular diastolic function. Hyperphosphatemia is an independent risk of cardiovascular mortality in dialysis patients. The aim of the study was to estimate the influence of PTH and calcium-phosphorus metabolism on left ventricular structure and function in hemodialysis patients, without hypertension and antihypertensive drug therapy (SBP = 126.2 +/- 11.1 DBP = 75.8 +/- 6.5 mmHg). Echocardiographic findings in a group of 22 normotensive HD patients had been compared to 43 hypertensive HD patients. Relationships between PTH, calcium-phosphorus metabolism and echocardiography in normotensive group were then evaluated. Left ventricular mass index (LVMI) was lower in normotensive patients: 128.3 +/- 46.2 versus 165.8 +/- 46.7 (p < 0.01). The prevalence of LVH was 55% in normotensive HD patients compared to 86% in hypertensive group (p < 0.01). In normotensive group we found correlation between PTH and LVMI (r = 0.44; p < 0.05). There were also significant relationships between calcium and posterior wall thickness (r = -0.44; p < 0.05), phosphorus and LVMI (r = 0.47; p < 0.05). A significant correlation was observed between both phosphorus, calcium x phosphorus product and E/A ratio: r = -0.47 and r = -0.43, respectively (p < 0.05 both). Disturbances of calcium-phosphorus metabolism and secondary hyperparathyroidism contributes to left ventricular hypertrophy, and impaired left ventricular diastolic function in normotensive hemodialysis patients.
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PMID:Parathormon, calcium, phosphorus, and left ventricular structure and function in normotensive hemodialysis patients. 1125 21

Oral phosphosoda is increasingly being used as a bowel preparation for colonoscopy, as it requires that a much smaller volume be ingested and is equally effective and less costly than polyethylene glycol-based electrolyte solutions. Oral phosphosoda has a good safety record, but complications of its use may occur. We describe a patient who died as a result of severe hyperphosphatemia after an oral phosphosoda bowel preparation. A 55-year-old man was admitted with rectal bleeding, abdominal pain, and vomiting. He had a history of diabetes, hypertension, and end-stage renal disease and had successful renal transplant 3 years prior. His initial serum creatinine, calcium, phosphate, and electrolyte levels were normal. He vomited after polyethylene glycol-based electrolyte solution, and an alternate bowel preparation with oral phosphosoda was recommended. He received 90 mL of oral phosphosoda as a single dose. Six hours later, he had cardiorespiratory arrest and was found to have hyperphosphatemia (serum phosphate, 17.8 mg/dL), a high anion gap acidosis, hypoxia, and oliguric renal failure. Resuscitation was unsuccessful. Autopsy showed ischemic colitis. We conclude that bowel preparation with phosphosoda may be associated with severe complications and should be avoided if there is any suggestion of impaired renal function or poor gut motility.
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PMID:Fatal hyperphosphatemia from a phosphosoda bowel preparation. 1190 63

The interlinking of CVD with CKD is undeniable. CVD accounts for more than 50% of all morbidity and mortality in patients with kidney disease who have undergone renal replacement therapy, and CVD is also prevalent in patients with mild and moderately severe kidney disease. To help address the elevated risks of these patients, primary care physicians need to maintain vigilance in (1) identifying patients who have CKD and (2) implementing strategies for reducing the prevalence of CVD in this population. It is essential that patients be screened for relatively mild kidney disease by measurement of serum creatinine and urine microalbumin and by calculation of the glomerular filtration rate in mL/min/1.73 m2 using equations based on serum creatinine. Rigorous assessment of conventional risk factors, including dyslipidemia, hypertension, and diabetes, is also necessary to prevent the poor outcomes currently observed in persons with CKD. Routine use of ACE inhibitors and aspirin is encouraged in all patients with CKD, and strict glycemic and blood pressure control is recommended for optimal outcomes. In addition, patients should be screened and treated for risk factors particularly associated with kidney disease and CVD morbidity and mortality, including anemia, hyperphosphatemia, and hyperparathyroidism. Finally, physicians should be careful to avoid therapeutic nihilism in patients with kidney disease; those at highest risk of CVD are likely to receive the greatest benefit from cardiovascular therapies.
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PMID:Cardiovascular disease and the kidney. Tracking a killer in chronic kidney disease. 1198 33

Many studies have been devoted to investigating new techniques and new dialysis strategies aimed at achieving adequate removal of "uremic toxins". Conversely, few studies focus on the effect of different dialysis techniques on long-term outcome, including large series and with adequate follow-up. Dialysis dose, membrane biocompatibility and permeability, convective techniques, and the number and duration of dialysis sessions have all been considered as potentially related to patient outcome. The available data from the literature clearly show a significant relationship between the urea kinetic model based dialysis delivered and long-term patient outcome. A significant positive correlation between survival and Kt/V up to 1.3 per session in patients treated three times a week with standard low flux cellulosic dialyzers has been shown. Many studies have shown an effect of high flux membranes on the appearance of symptoms related to dialysis amyloidosis. It is likely that such an effect is further enhanced by convective or mixed techniques. The role of these techniques in patient survival is suggested by some studies, but should be confirmed in larger series. The use of techniques suitable for ultra-pure dialysis fluids are mandatory whenever high permeability membranes are used. Treatment schedules which include long dialysis sessions or an increased number of sessions such as daily dialysis, seem to be beneficial for the control of hypertension or hyperphosphatemia. However, their role on patient survival has not yet been clearly assessed. Together with the choice of the best strategy, great attention should be paid to other factors known to be related to patient outcome, such as early patient referral, and the type and efficiency of vascular access.
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PMID:[New dialysis therapy modalities: what role do they play in the hemodialysis patient's outcome?]. 1216 42

Vascular calcification is a frequent complication of uremic patients. In addition to classical risk factors such as age, male gender, smoking, inflammation, hypertension, dyslipidemia, and diabetes, which also exist in the general population, patients with chronic renal failure have other risk factors such as oxidative stress, inflammation, hyperparathyroidism, hypoparathyroidism, hypercalcemia, hyperphosphatemia, and overtreatment with calcium and vitamin D. These latter risk factors may even have a better predictive value than classical risk factors for coronary heart disease in uremic patients.
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PMID:Advanced oxidation protein products, parathyroid hormone and vascular calcification in uremia. 1220 1

Dialysis patients suffer a manifold increase in cardiovascular mortality when compared to a nonuremic population, while this phenomenon is not sufficiently explained by an increased prevalence of traditional risk factors, such as hypercholesterolemia and hypertension. The presence of hyperphosphatemia, of an increased calcium x phosphate product, as well as the magnitude of vascular and valvular calcifications, were recently identified as specific major risk factors of cardiovascular mortality in the uremic population. Furthermore, hyperphosphatemia and an increased calcium x phosphate product could be quantitatively linked to the burden of coronary artery calcification in young dialysis patients, suggesting the correction of hyperphosphatemia as the central target for preventive therapeutic intervention. Recent studies in knockout mice, however, point to the alternative possibility that deficiencies in calcium-regulatory proteins may represent important pathomechanisms leading to extraosseous calcifications. alpha 2-Heremans Schmid glycoprotein (Ahsg/fetuin) and matrix Gla protein (MGP) are strong inhibitors of calcification in vivo. Novel evidence that deficiencies of such proteins may be involved in the pathogenesis of cardiovascular calcifications in dialysis patients will be discussed.
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PMID:Deficiencies of calcium-regulatory proteins in dialysis patients: a novel concept of cardiovascular calcification in uremia. 1269 17

Arteriosclerosis, atherosclerosis and vascular calcification are causally related to the high morbidity and mortality of patients with chronic renal failure. Oxidative stress and carbonyl stress of uremia, dialysis procedure and/or intravenous iron therapy result in AGE (advanced glycation end-product), ALE (advanced lipoxidation end-product) and AOPP (advanced oxidation protein product) formation, favouring together with elevated CRP (C-reactive protein) levels the development of cardiovascular and cerebrovascular complications. Enhanced plasma levels of homocysteine and ADMA (asymmetric dimethylarginine) contribute to this process. In addition, in chronic renal insufficiency hyperphosphatemia and an enhanced calcium x phosphorus ion product are associated with the morbidity and mortality of the patients, particularly in the presence of fetuin deficiency. Phosphorus, AGEs and AOPPs, beside other factors, catalyze the conversion of vascular smooth muscle cells to osteoblast--like cells (particularly in the presence of monocytes/macrophages), resulting in bone matrix protein formation. Other risk factors, such as age, male sex, smoking, hypertension, diabetes, chronic inflammation, insulin resistance or dyslipidemia (enhanced non-HDL-cholesterol) also contribute to the atherosclerotic risk profile of the patient with chronic renal insufficiency. While there is growing understanding of the mechanisms involved in arteriosclerosis, atherosclerosis and vascular calcification in uremia, we are still missing effective therapeutic maneuvers for reduction of excess mortality in uremic patients.
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PMID:[Atherosclerosis and uremia: signifance of non-traditional risk factors]. 1277 74

Cardiovascular calcification is a common consequence of aging, diabetes, hypercholesterolemia, mechanically abnormal valve function, and chronic renal insufficiency. Although vascular calcification may appear to be a uniform response to vascular insult, it is a heterogenous disorder, with overlapping yet distinct mechanisms of initiation and progression. A minimum of four histoanatomic variants-atherosclerotic (fibrotic) calcification, cardiac valve calcification, medial artery calcification, and vascular calciphylaxis-arise in response to metabolic, mechanical, infectious, and inflammatory injuries. Common to the first three variants is a variable degree of vascular infiltration by T cells and macrophages. Once thought benign, the deleterious clinical consequences of calcific vasculopathy are now becoming clear; stroke, amputation, ischemic heart disease, and increased mortality are portended by the anatomy and extent of calcific vasculopathy. Along with dystrophic calcium deposition in dying cells and lipoprotein deposits, active endochondral and intramembranous (nonendochondral) ossification processes contribute to vascular calcium load. Thus vascular calcification is subject to regulation by osteotropic hormones and skeletal morphogens in addition to key inhibitors of passive tissue mineralization. In response to oxidized lipids, inflammation, and mechanical injury, the microvascular smooth muscle cell becomes activated. Orthotopically, proliferating stromal myofibroblasts provide osteoprogenitors for skeletal growth and fracture repair; however, in valves and arteries, vascular myofibroblasts contribute to cardiovascular ossification. Current data suggest that paracrine signals are provided by bone morphogenetic protein-2, Wnts, parathyroid hormone-related polypeptide, osteopontin, osteoprotegerin, and matrix Gla protein, all entrained to endocrine, metabolic, inflammatory, and mechanical cues. In end-stage renal disease, a "perfect storm" of vascular calcification often occurs, with hyperglycemia, hyperphosphatemia, hypercholesterolemia, hypertension, parathyroid hormone resistance, and iatrogenic calcitriol excess contributing to severe calcific vasculopathy. This brief review recounts emerging themes in the pathobiology of vascular calcification and highlights some fundamental deficiencies in our understanding of vascular endocrinology and metabolism that are immediately relevant to human health and health care.
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PMID:Osteogenic regulation of vascular calcification: an early perspective. 1510 15


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