Fluid withdrawal in over-hydrated patients resistant to diuretics was obtained by means of a capillary haemofilter, using the arterio-venous pressure gradient for blood perfusion at a rate of 100 ml/min. The ultrafiltration rate was 200-600 ml/h and could be maintained as long as 48 h without changing the haemofilter. This method, which needs no technical investment, is easy and simple to handle for the physician, bears only a very low risk for the patient, and ensures a negative fluid balance even at a mean blood pressure of only 60 mm Hg.
Low molecular weight (LMW) heparin has been compared to standard unfractionated (UF) heparin in hemodialysis/hemofiltration in a 12 month, randomized study. Seventy patients with end-stage chronic renal failure starting dialysis treatment were randomly assigned to one of two groups treated with either LMW or UF heparin. The LMW and UF heparin doses used produced similar plasma anti-FXa levels, and comparable antithrombotic effectiveness was observed in the two groups as reflected in similar incidences of thrombus formation in the extracorporeal circulation: 1.59% and 1.33% for LMW and UF heparin, respectively. No bleeding complications were seen with either heparin, but significantly (P less than 0.05) fewer erythrocyte concentrates were needed in the LMW heparin patients. Mean factor VIII activities had risen significantly (P less than 0.001) after 12 months in the UF heparin group, whereas they were unchanged in the LMW heparin group. A significant (P less than 0.05) increase in plasma triglycerides was observed in the UF heparin group which was attributable to six (18.8%) of the patients in this group. Triglyceride concentrations remained relatively constant in the LMW heparin group. Post-heparin lipolytic activity, and in particular hepatic lipase activity, was not stimulated to the same extent in the LMW heparin-treated patients as compared to the UF heparin group. We conclude that LMW heparin is a suitable alternative to standard UF heparin for anticoagulation in hemodialysis/hemofiltration therapy. It may offer potential advantages with regard to a lower requirement for erythrocyte concentrates and less derangement of certain metabolic parameters, such as factor VIII, triglycerides and plasma lipase activity.
The first clinical application of a new extracorporeal procedure (HELP) for the selective elimination of low-density lipoproteins by heparin precipitation at acid pH is described. Plasma, obtained by filtration of whole blood through a 0.2 mu filter, is continuously mixed with an equal volume of an acetate buffer (pH 4.85) containing heparin. After removal of the precipitated heparin complex by filtration, excess heparin is adsorbed to a specially developed filter and the clear plasma filtrate is subject to bicarbonate dialysis/ultrafiltration to restore physiologic pH and remove excess fluid. The calculated efficiency for the elimination of low-density lipoproteins from plasma by HELP is 100% and is therefore comparable to conventional plasmapheresis. The HELP system shows a high degree of specificity with over 80% of total protein being returned to the patient. Over 130 treatment procedures have now been performed. Patient compliance and acceptance have been excellent and no major complications have been observed.
Alpha-1-microglobulin (alpha-1-m) is a low molecular weight glycoprotein (mw 25-33 KD) that is filtered through the glomeruli and reabsorbed in the proximal parts of the renal tubules where it is catabolized. Normal ranges were established for alpha-1-m (100 healthy controls) in serum (20-42 mg/l) and urine (3.5-8 mg/l). Alpha-1-m was then measured in 341 urine samples whose protein pattern had been classified as "pathologic" and "normal" according to microelectrophoresis. Increased alpha-1-m concentrations were found in 266 out of 280 pathologic urines (5% false negative) and in 3 out of 61 normal urines (4% false positive). Beta-2-microglobulin (beta-2-m), total protein or protein test strips showed a poorer correlation to the electrophoretic results. Measurement of alpha-1-m is, therefore, the most sensitive of these methods for the detection of proteinuria. In 90 patients with low molecular weight proteinuria and either with or without renal insufficiency alpha-1-m concentrations were determined in both urine and serum. While all patients had elevated urinary alpha-1-m concentrations, increased serum values were only found in renal insufficiency (Ccrea less than 100 ml/min). Independently of these results, we were also able to establish that increased alpha-1-m levels are found at decreased glomerular filtration rates (Ccrea less than 70 ml/min). Pathologic alpha-1-m concentrations therefore only allow the conclusion of isolated tubular impairment when the GFR is greater than 70 ml/min.(ABSTRACT TRUNCATED AT 250 WORDS)
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