Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0002871 (anemia)
52,094 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The less rigorous attention to the management of the complications of chronic renal insufficiency (CRI) and its comorbid conditions has potentially tragic consequences. In fact, with early recognition and intervention, many of the complications of CRI and its comorbid conditions can be ameliorated or prevented. We review here the most prevalent, troublesome, and potentially preventable complications and comorbidities of CRI with a view toward developing high-quality, cost-effective strategies for delivering early interventional care. Complications of CRI include malnutrition, anemia, disorders of divalent ion metabolism and osteodystrophy, metabolic acidosis, and dyslipidemia. Important comorbid conditions of CRI are hypertension, diabetes mellitus, and cardiovascular disease. Clinical intuition suggests that early intervention will avert morbidity related to the hypoalbuminemia and other nutritional disorders of CRI, the metabolic acidosis, and the dyslipidemias, but prospective data are lacking at present. Correction of anemia, usually with recombinant human erythropoietin, may be key to the prevention of cardiac disease and other comorbidities of CRI. Incipient disorders of bone and mineral metabolism are managed prospectively using such measures as protein restriction to reduce phosphorus intake, phosphate binders, calcium supplementation, and vitamin D analogues. Hypertension, whatever its original etiology, is clearly an important risk factor for the progression of kidney failure and for the development of diffuse vascular disease; appropriate and aggressive treatment is essential. In patients with diabetic nephropathy, the principles of both primary and secondary prevention have been validated in several large trials of glycemic and blood pressure control. The seeds of these insidious, challenging, and costly comorbid conditions are sown very early in CRI, at a time when they are-in theory-most amenable to intervention. We therefore must be as proactive as possible in the timely implementation of relatively simple therapies that have the potential to prevent some of these adverse outcomes of CRI.
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PMID:Complications of chronic renal insufficiency: beyond cardiovascular disease. 1111 56

Aluminium (Al.) is an ubiquitous element found in every food product. The sources of Al. are especially corn, yellow cheese, salt, herbs, spices, tea and tap water. In household Al.-made ware is a major source of the element. Al. may cause diseases in humans, especially hampers many metabolic processes especially turnover of calcium, phosphorus and iron. Salts of Al. may bind to DNA, RNA, inhibit such enzymes as hexokinase, acid and alkaline phosphatases, phosphodiesterase and phosphooxydase. Al. salts are especially harmful to nervous, hematopoietic systems and to skeleton. Al. gets to organism with food, water, cosmetics, from aluminium ware and containers. Toxicity comes from substitution of Mg and Fe ions effecting in disturbances in intracellular signaling, excretory functions and cellular growth. Neurotoxic action of Al. probably comes from substitution of Mg ions in ATP, what finally influences function of every ATP using-enzymes. There are observations in experimental models proving Al. salts are responsible for Alzheimer disease development. Toxicity of Al. to skeletal system results in diminished resistance thus tendencies to breaking, and comes from lower collagen synthesis and slowing down of mineralisation. Low erythropoietin production, inhibition of hem-synthesing enzymes and binding of Al. to transferrin, effects in anaemia. Carcinogenic effects of Al. were nor proved nor denied, but high concentrations of Al. were found in many neoplastic cells. In conclusion, we should introduce prophylactic measures effecting in less Al. intake esp. avoiding use of Al.-made ware nad controlling food for Al. content.
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PMID:[Aluminum--occurrence and toxicity for organisms]. 1129 16

Cardiovascular disease mortality is high in children on maintenance dialysis, accounting for about 25% of patient deaths. Cardiovascular-related mortality rates for children on dialysis are higher than for children with successful kidney transplants. Data on the long-term consequences of risk factors for cardiovascular disease are lacking for pediatric end-stage renal disease patients. This article reviews pediatric data pertaining to the following risk factors: anemia, hypertension, hyperlipidemia, left ventricular hypertrophy, abnormal calcium-phosphorus metabolism, and hyperhomocysteinemia. The potential relationship of end-stage renal disease to the etiology of several functional disorders of the cardiovascular system is discussed. Clinical studies are needed to assess the prevalence of cardiovascular disease and of cardiovascular disease risk factors in the pediatric end-stage renal disease population. Possible preventive and therapeutic guidelines need to be developed for at-risk children on maintenance dialysis.
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PMID:Risk factors for cardiovascular disease in children on maintenance dialysis. 1153 19

After the synthesis of epoetins alpha and -beta, a third molecule of recombinant human erythropoietin (rHuEPO) was synthesized and was named epoetin-omega. The molecule of epoetin-omega is a sialoglycoprotein with smaller amounts of O-bound sugars, less acidic and with different hydrophylity than the other 2 epoetins. The purpose of the study was to assess the efficacy, safety and clinical tolerance of epoetin-omega for treatment of renal anemia. In an open-label, uncontrolled prospective clinical study, 22 end-stage renal disease patients (9 male and 13 female) were followed for 6 months. They all had a hemoglobin (Hb) value below 85 g/l, and were on regular hemodialysis therapy 3 times a week, 4 hours per session. The initial weekly dose of epoetin-omega was 90 units per kg of body weight (b.w.) divided in 3 equal portions and administered subcutaneously after each dialysis session. After correction of the hemoglobin, the dose of rHuEPO was individualized to keep Hb within target limits of 100-120 g/l. To follow efficacy and safety, a number of clinical and laboratory parameters were monitored. All patients responded well to the therapy with corrected hemoglobin after the 10th week of the study. The mean dose of epoetin-omega during the correction period never exceeded 100 U/kg b.w. per week. The average maintenance dose of rHuEPO was 50-60 U/kg b.w. per week. Iron was, where needed, supplied intravenously. We noted no change in serum urea. creatinine, phosphorus, and heparin dose per dialysis session. The prothrombin time improved during the study. Serum albumin increased. No change was observed in urea reduction ratio (URR), body weight and mean arterial pressure. One serious adverse event was noted: worsening of hypertension in 1 patient, with the development of hypertensive encephalopathy and severe headache. rHuEPO treatment was stopped. The blood pressure was effectively controlled by reducting her body weight by 5%. Thereafter, rHuEPO therapy was resumed with good blood pressure control. We could conclude that recombinant human erythropoietin-omega was an efficient and safe therapeutic agent for the treatment of renal anemia.
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PMID:Epoetin omega for treatment of anemia in maintenance hemodialysis patients. 1192 56

Dialysis patients constitute a high-risk subset of patients for developing cardiovascular disease, which accounts for nearly 50% of deaths. After stratification for age, race and gender, cardiovascular mortality is 10-20 times higher in dialysis patients than in the general population. Cardiovascular disease in this population cannot be fully explained by the high prevalence of classical cardiovascular risk factors (age, hypertension, diabetes, hyperlipidemia, smoking, etc.). Thus, the involvement of "new" cardiovascular risk factors (hyperhomocysteinemia, hyperfibrinogenemia, high lipoprotein (a) levels, oxidative stress, inflammation, etc.), and uremia-related factors (anemia, impaired calcium-phosphorus metabolism, hyperparathyroidism, accumulation of endogenous inhibitors of nitric oxide synthesis, etc.) has been also invoked to play a role in the increased cardiovascular risk in these patients. Endothelial dysfunction is the initial event in the development of atherosclerosis. Uremic patients exhibit an endothelial dysfunction, even before starting dialysis, which persists o is even aggravated under dialysis treatment. Uremic patients must be considered at high risk of developing cardiovascular disease. Thus cardiovascular risk factors in these patients should be managed early, aggressive and multifactorially in order to reduce their high cardiovascular morbidity and mortality.
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PMID:[Cardiovascular risk in patients with chronic renal failure. Patients in renal replacement therapy]. 1198 73

Much needs to be achieved in improving survival and quality of life for chronic renal failure patients. Progress in attaining this goal may accrue from attention to underlying pathophysiologic processes early and throughout a person's life. The endocrine perturbations described in this article--alterations in the homeostasis of phosphorus, calcium, vitamin D and parathyroid hormone; erythropoietin deficiency; and sexual dysfunction in uremia--provide good examples for the need to identify early and manage prospectively over time manifestations of chronic renal failure. The complexity of the skeletal and extraskeletal sequelae of dysregulated mineral metabolism and the complications of chronic anemia have been discussed, while stressing possible implications of these endocrine abnormalities for both morbidity and mortality. There is a great need for more randomized clinical trials to evaluate new and old treatment approaches, with the goal of developing better evidence-based practice guidelines.
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PMID:Endocrine abnormalities in chronic renal failure. 1205 83

A child responds to a deficiency of an essential nutrient either by continuing to grow and consuming body stores with eventual reduction in the bodily functions (Type I) or by reducing growth and avidly conserving the nutrient to maintain the concentration of the nutrient in the tissues (Type II). Examples of Type I nutrient deficiency are anemia (iron deficiency), beri-beri (thiamin deficiency), pellagra (niacin or nicotinic acid deficiency), scurvy (vitamin C or ascorbic acid deficiency), xerophthalmia (vitamin A or retinol deficiency) and iodine deficiency disorders. Diagnosis is relatively simple via clinical symptoms and measurement of the concentration of the nutrient itself. There are no characteristic symptoms to distinguish which Type II nutrient deficiency an individual has; all deficiencies result in the poor growth, stunting, and wasting generally ascribed to protein-energy malnutrition. In Type II, growth stops, the body starts to conserve the nutrient, and its excretion falls to very low levels. In severe deficiency the body may start to break down its own tissues and the reduction of appetite accompanies this condition. An animal can die from zinc deficiency even though it is has a normal concentration of zinc in its tissues, but it can respond rapidly to small amount of dietary zinc. The mechanisms by which the body stops growing in response to nutritional lack are similar to the hormonal picture seen in endocrine disease (reduction of the production of the hormonal mediators of growth, down-regulation of receptors, and reduction of protein synthesis). Growth failure is the clinical sign characteristic of a diet deficient in protein, zinc, magnesium, phosphorus, and potassium. Wasting may be also ascribed to toxins, infection, worms, or persistent diarrhea. Anorexia is another common response in nutrient deficiency. Only a supplementation diet with a balance of nutrients will promote rapid recovery.
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PMID:Specific deficiencies versus growth failure: type I and type II nutrients. 1234 13

Probiotic bacteria are used for production of fermented dairy products. The use of probiotic bacteria has the potential to replenish the natural intestinal flora of the body. These bacteria competitively inhibit the growth and colonization of pathogenic bacteria. Breastmilk is the best food for babies, also from a probiotic point of view. Human milk, in fact, contains many substances that stimulate the growth of bifidobacteria in vitro and in the small intestine of infants. Improvement of lactose digestion and avoidance of symptoms of intolerance in lactose malabsorbers are the most profoundly studied health-relevant effects of fermented milk. In fact fermented milks are nutritionally similar to unfermented milk, except that some of lactose is broken down to glucose and galactose. The role of fermented milk in complementary feeding and in particular for the prevention of anaemia is an innovative theme, recently focused. Iron deficiency in infants and young children is widespread and has serious consequences for child health. Prevention of iron deficiency should therefore be given high priority. The too-early introduction of unmodified cow's milk and milk products is an important nutritional risk factors for the development of iron-deficiency anaemia. Fermented milks represent an excellent source of nutrients such as calcium, protein, phosphorus and riboflavin. During the fermentation of milk, lactic acid and other organic acids are produced and these increase the absorption of iron. If fermented milk is consumed at mealtimes, these acids are likely to have a positive effect on the absorption of iron from other foods.
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PMID:The role of fermented milk in complementary feeding of young children: lessons from transition countries. 1255 42

In December of 1999 and 2000 we visited all hemodialysis centers of Lithuania and collected data about all hemodialysis patients, using special questionnaires. The aim of the study was to evaluate the relationship between lethality of hemodialysis patients, erythropoietin dosage for renal anemia treatment and hemodialysis quality. The patients with higher Kt/V, higher levels of iron and albumin, normal levels of phosphorus and parathyroid hormone (PTH) requested lower doses of erythropoietin (analysis of the patients who were on hemodialysis in 2000 more than 6 months). So, we can conclude that adequate hemodialysis procedure and good management of hemodialysis patient are leading to the decrease request of erythropoietin doses for anemia treatment. We compared two groups of patients in order to examine relationship between hemodialysis quality and lethality of hemodialysis patients. We selected incident patients registered in December of 1999 and we divided these patients in December of 2000 in two groups: a) 175 patients, who continued hemodialysis treatment and b) 41 patients, who died in 2000. The results revealed, that dead patients were elder, their duration of weekly hemodialysis was shorter, Hb concentration lower, they had worse nutritional status (blood albumin level was lower). Lethality was associated with underlying diseases such as diabetes, hypertensive nephropathy and renal amyloidosis.
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PMID:[Relationship between lethality of hemodialysis patients, erythropoietin dosage for renal anemia treatment and hemodialysis quality]. 1276 33

The risk for cardiovascular disease (CVD) morbidity and mortality remains alarmingly high in all stages of chronic kidney disease (CKD). CVD often begins before end-stage renal disease (ESRD), and patients with reduced kidney function are more likely to die of CVD than to develop ESRD. Three pathological forms of CVD should be considered in patients with CKD: alterations in cardiac geometry, including left ventricular hypertrophy, atherosclerosis, and arteriosclerosis. All are highly prevalent in patients with CKD. Although patients with CKD share many of the same risk factors for CVD as the general population, there are a number of uremia-related risk factors, such as anemia and alterations in calcium/phosphorus metabolism, that also play a role in promoting CVD. Treatment of both traditional and uremia-related risk factors should be initiated in the earlier stages of CKD. Additional clinical trials with a goal to reduce CVD are urgently needed in CKD.
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PMID:Cardiovascular complications in chronic kidney disease. 1277 9


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