1.
[Conservative therapy Guidelines for chronic renal failure].
Cianciaruso, B, ,
Giornale italiano di nefrologia : organo ufficiale della Societa italiana di nefrologia. 2003;:S48-60
Abstract
In recent years, many national and international organizations have developed clinical practice guidelines for the most important areas of nephrology. In 1999, the Italian Society of Nephrology (SIN) was one of the first scientific societies to publish (in Giornale Italiano di Nefrologia) the Guidelines for the Treatment of Chronic Renal Failure. Since then, new evidence has accumulated on several aspects of the conservative treatment of chronic kidney disease (CKD). These new data have been included in the present version of the guidelines. The first section of the new guidelines underline the importance of the early detection of CKD and early referral to a nephrologist. The second and third sections are dedicated to the dietetic treatment of chronic renal failure, even when associated with nephrotic syndrome. The fourth section analyzes the anti-hypertensive treatment of renal failure, focusing on the choice of anti-hypertensive drugs to retard the progression of renal failure and reduce cardiovascular mortality. This section highlights the reno-protective role of ACE inhibitors and of AII receptor antagonists in diabetic and nondiabetic nephropathies. The Appendix describes methods for the evaluation of the patient's nutritional status and for protein intake in chronic renal failure.
2.
[Guidelines for the treatment of anemia in chronic renal failure].
Triolo, G, ,
Giornale italiano di nefrologia : organo ufficiale della Societa italiana di nefrologia. 2003;:S61-82
Abstract
Evaluation of anemia: Before beginning epoetin treatment, it is essential to evaluate the level of anemia (Hb < 11-12g/dL) by the following measurements: -Hb concentration -Red blood cell indices (MCV, MCH, MCHC) -Reticulocyte count -Iron stores and availability -C-reactive protein (CRP) Target for anemia treatment: The minimum target Hb concentration to be attained is 11 g/dL. The upper limit is established individually on a clinical basis. Pending further data, it is advisable to maintain and not exceed 12 g/dL for patients with cardiovascular disease, diabetes, and graft access. Use of iron: At the start of epoetin treatment, 150 mg of iron are needed for every expected increase of 1 g/dL of Hb. It is important to achieve and maintain levels of TSAT > 20%, serum ferritin 100 mcg/L and hypochromic red cells > 6% both before initiating epoetin treatment and during its administration. TSAT levels should not persistently exceed > 50% and serum ferritin > 500 mcg/L. When administering oral iron the dose should be at least 200 mg/die elemental iron; on the other hand, when the intravenous route is used, the dose should be 30-60 mg/IV dose in the form of low molecular weight salts (iron sodium gluconate) while the higher doses should be reserved for patients with transferring levels > 170 mg/dL. Administration of epoetin: The dosage of epoetin is individual with more than tenfold variability among individuals and all aiming at the same target Hb concentration. There are no clinical parameters entirely capable of predicting the necessary dosage. Therapeutic range is very wide, without any toxic effects for clinical use up to 100.000 IU/week. The target Hb concentration is reached in most patients with mild anaemia after 2 months' treatment with 4.000-10.000 epoetin (20-50 mcg darbepoetin alpha) per week. The HB concentration, along with the reticulocyte count, must be checked weekly following initiation and monthly during maintenance. Patients with a stable dose-response during conservative therapy may require less frequent monitoring (every 2-3 months). Inadequate response to epoetin treatment If any resistance is encountered, after excluding all the acute and chronic conditions of inadequate response, the reticulocyte count (severe reduction in the presence of anti erythropoietin antibodies) and the erythropoietin dosage should be measured. The target Hb concentration 11-12 g/dL is maintained in 90-95% of the patients by administering 1.000-30.000 IU of epoetin (5-150 mcg darbepoetin alpha) per week in the presence of adequate reserves of iron. Higher dosages define a state of resistance. Diagnosis of pure red cell (PRCA) from anti-erythropoietin antibodies is confirmed by bone marrow examination (almost total loss of erythroblasts). If antierythropoietin antibodies are present or there is a well founded suspicion of PRCA, the administration of epoetin and other similar treatment should be avoided. Side effects of epoetin treatment: The treatment of anaemia with epoetin does not hasten the progression of CRF. Blood pressure is to be checked regularly during initiation of epoetin and the treatment should be discontinued in cases of refractory hypertension or hypertensive encephalopathy. There should be increased surveillance of graft access, especially in those patients who risk vascular depletion. In general, heparin requirements do not increase but it may be advisable to evaluate a dose increase. PRCA from anti-erythropoietin antibodies has been detected with an incidence ranging from 0.12 to 1.1 cases/every 10 thousand patients treated.