Treatment of hypercholesterolemia with heparin-induced extracorporeal low-density lipoprotein precipitation (HELP)

Familial hypercholesterolemia (FH) can cause early disability and death from premature atherosclerotic cardiovascular disease. Patients homozygous for the disease have very high plasma cholesterol, extensive xanthomatosis, and die from atherosclerosis in childhood or early adulthood. Past attempts to improve the prognosis included removal of cholesterol from the circulation by ileal bypass or biliary diversion. Neither treatment was successful. Direct removal by plasmapheresis of low-density lipoprotein (LDL), the primary carrier of cholesterol in plasma, was first performed on an FH homozygous patient in 1966. The treatment was well tolerated and led to rapid diminution of xanthomas. Other experimental treatments included selective LDL apheresis with monoclonal or polyclonal antibody affinity columns. A method for selective LDL apheresis was developed in 1983 by Armstrong, Seidel, and colleagues based on heparin precipitation of LDL at low pH. This method, called HELP, removes all apolipoprotein B-containing lipoproteins including LDL and lipoprotein (a), as well as some fibrinogen. LDL apheresis by HELP is well tolerated; the incidence of side effects is low, and the treatment has been associated with regression of cardiovascular disease. LDL apheresis, rather than liver transplantation, is the treatment of choice for patients with severe, life-threatening hypercholesterolemia which does not respond to diet and drug therapy. © 1996 Wiley-Liss, Inc.     

Effects of direct adsorption of lipoproteins apheresis on lipoproteins, low-density lipoprotein subtypes, and hemorheology in hypercholesterolemic patients with coronary artery disease.

Direct adsorption of lipoproteins (DALI) apheresis has been shown to reduce effectively low-density lipoprotein (LDL) cholesterol and lipoprotein (a) concentrations. However, the effects on nontraditional risk indicators such as hemorheology and LDL subtypes have not been investigated so far. Five patients (2 women, 3 men, age 53 +/- 8 years) with coronary artery disease and severe LDL hypercholesterolemia regularly treated with other LDL apheresis devices entered the study and were then treated with DALI for the first time. Hemorheological and lipoprotein parameters were measured before and immediately after the initial DALI apheresis as well as before the fourth DALI apheresis. Compared to baseline (before the first DALI apheresis), the following parameters were significantly improved (p < 0.05) after the first DALI apheresis: LDL cholesterol (69 +/- 28 versus 208 +/- 82 mg/dl) and cholesterol in each LDL subfraction as well as plasma viscosity (1.23 +/- 0.04 versus 1.37 +/- 0.06 mPa), C-reactive protein, native blood viscosity, red cell aggregation, and red cell deformability. When parameters before the fourth DALI apheresis were compared to baseline, LDL cholesterol was still lower, and red cell deformability was still improved while cholesterol in each subfraction showed a statistical trend to lower concentrations (0.08 < p < 0.14). In conclusion, DALI apheresis not only reduces LDL cholesterol but also induced a significant reduction of cholesterol in all LDL subfractions and improved various hemorheological parameters.     

Effects of two whole blood systems (DALI and Liposorber D) for LDL apheresis on lipids and cardiovascular risk markers in severe hypercholesterolemia

LDL apheresis is an extracorporal modality to lower the concentration of atherogenic lipoproteins, e.g., LDL cholesterol. We compared two recently introduced whole-blood LDL apheresis systems inpatients with hypercholesterolemia in a randomized cross-over trial with respect to their effects on lipoproteins as well as on other cardiovascular risk markers. Six patients (4 women, 2 men, median age 62.5 years, median BMI 25.9 kg/m(2)) on regular LDL apheresis were randomly assigned to receive six weekly treatments with either DALI (Fresenius) or Liposorber D (Kaneka). After 6 weeks, the patients were switched to the other device (again six weekly treatments). Blood was drawn before and immediately after LDL apheresis at three time points (last regular apheresis before the study; after six treatments with DALI and after six treatments with Liposorber D). LDL cholesterol concentration before the sixth apheresis (DALI 129 mg/dL, Liposorber D 132 mg/dL) as well as LDL cholesterol reduction during the sixth apheresis (DALI 68.3% and Liposorber D 68.4%) were similar with the two systems. CRP and fibrinogen concentrations were lower but interleukin-6, myeloperoxidase, and resistin concentrations were higher after the last Liposorber treatment compared with DALI (P < 0.05, respectively). No differences were observed concerning adiponectin, ghrelin, and PYY levels. In conclusion, both devices were highly effective in eliminating atherogenic lipoproteins. CRP and fibrinogen were better eliminated with Liposorber D. However, following Liposorber D, interleukin-6 levels were higher than after DALI possibly indicating an increased inflammatory activation.     

Comparison of different treatment regimens in a case of homozygous familial hypercholesterolemia.

The laboratory results of five periods of different treatment regimens were compared in a 19-year-old girl with homozygous familial hypercholesterolemia (FH): weekly low-density lipoprotein (LDL) apheresis sessions with dextran sulfate columns (LA 15, Kaneka Corporation, Osaka, Japan) without statin administration; weekly LDL apheresis with polyacrylate columns (DALI, Fresenius Adsorber Technology, Bad Homburg, Germany) without statin; LDL apheresis as in Period 2 with 40 mg atorvastatin daily; LDL apheresis as in Period 2 with 80 mg atorvastatin daily; and fortnightly LDL apheresis sessions with polyacrilate and administration of 80 mg atorvastatin daily. The five treatments were given in the above order, and each lasted at least 2 months. To compare the effectiveness of the different methods, the blood levels of total cholesterol, LDL-cholesterol and high-density lipoprotein (HDL)-cholesterol were measured before each session, and the percentage decreases in the blood levels of total cholesterol and LDL-cholesterol were recorded during sessions in Periods 1 and 2. In Periods 1 and 2, the biological effectiveness of LDL apheresis was comparable. Atorvastatin (40 mg daily) improved the blood levels of total cholesterol and LDL-cholesterol, but lowered HDL-cholesterol values. Increasing the daily dose of atorvastatin from 40 mg to 80 mg did not significantly improve LDL-cholesterol levels. When the time between two sessions was longer (Period 5), the total cholesterol and LDL-cholesterol values worsened and were comparable to those of Period 2 during which there was no atorvastatin treatment. In this case of homozygous FH, weekly sessions of LDL apheresis in association with atorvastatin at dose of 40 mg per day gave the best results.     

The effect of selective low-density lipoprotein apheresis on plasma lipoperoxides and antioxidant vitamins in familial hypercholesterolemic patients.

Familial hypercholesterolemia (FH) is an autosomal dominant genetic disorder characterized by a lifelong elevation in the concentration of low-density lipoprotein (LDL) bound cholesterol in blood by cholesterol deposits and by early coronary artery disease. The LDL apheresis technique has been introduced with the goal of reducing LDL cholesterol levels, thereby preventing the development of atherosclerosis. The literature on LDL apheresis reports 2 different facets, the therapeutic aspect associated with the lessening of LDL concentration and the initiation of a peroxidation process associated with the biocompatibility of the artificial membrane. Lipid and protein peroxidation gives rise to toxic and atherogenic hydroperoxide, mostly lipid hydroperoxides, and derivative compounds, which may offset the benefit of the procedure. In this paper, plasma hydroperoxide levels are determined along with the elevation of the serum and LDL antioxidant status in hypercholesterolemic patients before and following repeated LDL apheresis sessions. Hydroperoxide concentration has been expressed both in terms of plasma volume and LDL concentration. A highly significant increase in LDL lipid hydroperoxides is demonstrated when expressed in terms of LDL concentration and is associated with the LDL apheresis procedure. The usefulness of antioxidant supplementation in LDL apheresis is discussed.     

Low density lipoprotein hemoperfusion by direct adsorption of lipoproteins from whole blood (DALI apheresis): clinical experience from a single center.

The elimination of low density lipoprotein (LDL) and lipoprotein (a) (Lp[a]) by conventional LDL apheresis techniques can only be achieved in a cell-free medium and thus requires the initial separation of plasma from the blood cells. The present paper describes the first LDL hemoperfusion system which is able to adsorb LDL and Lp(a) directly from whole blood. This simplifies the procedure substantially. The adsorber consists of polyacrylate ligands linked to a modified polyacrylamide matrix. These negatively charged polyacrylate ligands interact with the positively charged apoprotein B moiety of LDL and Lp(a), which results in selective adsorption of these lipoproteins onto the column. Three hypercholesterolemic patients suffering from overt atherosclerotic complications were treated weekly by direct adsorption of lipoproteins (DALI) (n = 20 sessions each). All patients were on the highest tolerated dose of cholesterol synthesis enzyme (CSE) inhibitors. About 1.3 patient blood volumes were treated per session. The anticoagulation was performed with acid citrate dextrose (ACD-A). The following acute reductions were achieved: LDL: 66%; Lp(a): 63%; and triglycerides: 29%. High density lipoprotein (HDL) (-13%) and fibrinogen (-16%) were not substantially reduced. The sessions were essentially uneventful. Due to a low ACD-A infusion rate, no hypocalcemic episodes were registered. One patient on enalapril was treated without complications when this angiotensin converting enzyme (ACE) inhibitor was withdrawn 2 days prior to apheresis. In summary, in our hands, DALI apheresis proved to be a simple, safe, and efficient method of lipid apheresis in hypercholesterolemic patients refractory to conservative lipid lowering therapy.     

Effect of different LDL-apheresis methods on parameters involved in atherosclerosis

LDL-apheresis lowers the LDL level in patients with severe hypercholesterolemia. The present study compared three apheresis methods--DSA, DALI, and plasma exchange--for effectiveness in removal of LDL and effect on various blood parameters involved in atherogenesis. The study group included 6 patients with primary hypercholesterolemia unresponsive to maximal drug therapy. All were treated first with 4 consecutive plasma exchange sessions followed by 4 DSA sessions; in four out of six, an additional 4 sessions of DALI were then performed. Levels of lipoproteins, apoproteins, CRP, homocysteine, fibrinogen, and blood count were determined before and after each session. All 3 procedures yielded a significant reduction in total cholesterol and ApoB-containing lipoproteins, with DALI being the most effective. Also, a significant reduction in triglycerides, HDL, and ApoA1 was observed with all the methods. The reduction in HDL-C with DSA and DALI was greater than previously reported. The LDL/HDL-cholesterol ratio decreased significantly with DSA and DALI and increased with plasma exchange. There was a significant decrease in CRP, fibrinogen, and platelets with all three methods, and a significant decrease in homocysteine only with DSA and DALI. All three procedures effectively reduced the concentration of various compounds involved in atherosclerosis. Plasma exchange is nonselective and cannot be recommended as the procedure of choice.     

The role of low density lipoprotein apheresis in the treatment of familial hypercholesterolemia.

The chief indication for low density lipoprotein (LDL) apheresis is the treatment of homozygous familial hypercholesterolemia (FH), a potentially fatal condition that responds poorly to conventional therapy. Dextran sulfate/cellulose adsorption columns (Kaneka) and on-line heparin precipitation (HELP) are the most popular systems used in LDL apheresis. Weekly or biweekly procedures plus concomitant drug therapy enable LDL cholesterol to be maintained at 30-50% of its untreated level, with regression of xanthomas, arrest of progression of coronary atherosclerosis, and improved life expectancy. However, aortic stenosis may progress despite apheresis and necessitate valve replacement. Better control of hypercholesterolemia results from combining apheresis with a new 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitor, atorvastatin. LDL apheresis can also be useful in treating drug-resistant FH heterozygotes with coronary disease. However, the FH Regression Study showed no evidence that reduction by apheresis of both LDL and lipoprotein(a), was more advantageous than reduction by combination drug therapy of LDL alone.     

Direct adsorption of low-density lipoprotein and lipoprotein(a) from whole blood: results of the first clinical long-term multicenter study using DALI apheresis

Direct adsorption of lipoproteins (DALI) is the first low-density lipoprotein (LDL)-apheresis technique by which atherogenic LDL and lipoprotein(a) (Lp(a)) can be selectively removed from whole blood without plasma separation. The present study was performed to evaluate the efficacy, selectivity and safety of long-term DALI apheresis. Sixty-three hypercholesterolemic coronary patients were treated by weekly DALI sessions. Initial LDL-cholesterol (C) plasma levels averaged 238 +/- 87 mg/dl (range 130-681 mg/dl). On average, 34 sessions (1-45) were performed processing 1.5 patient blood volumes. The primary aim was to acutely reduce LDL-C by >or=60% per session. To this end, three different adsorber sizes could be employed, i.e., DALI 500, 750, and 1000, which were used in 4, 73, and 23% of the 2156 sessions, respectively. On average, 7387 ml of blood were processed in 116 min per session. This resulted in the following mean acute changes: LDL-C 198 --> 63 mg/dl (-69%), Lp(a) 86 --> 32 mg/dl (-64%), triglycerides 185 --> 136 mg/dl (-27%). HDL-C (-11%) and fibrinogen (-15%) were not significantly influenced. The mean long-term reduction of LDL-C was 42% compared to baseline while HDL-C slightly increased in the long run (+4%). The selectivity of LDL removal was good as recoveries of albumin, immunoglobulins, and other proteins exceeded 85%. Ninety-five percent of 2156 sessions were completely uneventful. The most frequent adverse effects were hypotension (1.2% of sessions) and paresthesia (1.1%), which were probably due to citrate anticoagulation. Access problems had to be overcome in 1.5%, adsorber and hardware problems in 0.5% of the sessions. In this multicenter long-term study, DALI apheresis proved to be an efficient, safe, and easy procedure for extracorporeal LDL and Lp(a) elimination.     

Evidence for maximal treatment of atherosclerosis: drastic reduction of cholesterol and fibrinogen restores vascular homeostasis.

This article summarizes the clinical and biochemical evidence for maximal treatment of atherosclerosis by a simultaneous 60% to 70% reduction of plasma low-density lipoprotein cholesterol (LDL cholesterol), fibrinogen, and lipoprotein a concentrations with heparin-mediated extracorporeal LDL/fibrinogen precipitation (HELP) apheresis and statins. Apheresis has proven efficient and safe in the treatment of more than 1,000 patients since 1984 and has been applied in children and adults for the treatment of homozygous and heterozygous familial hypercholesterolemia, coronary artery disease, ischemic cardiomyopathy, generalized atherosclerosis, or transplant-associated arteriosclerosis after cardiac transplantation. Simultaneous removal of the main atherogenic plasma compounds has an immediate impact on myocardial and peripheral vasomotion by increasing myocardial blood flow, coronary flow reserve, cerebral CO2-reactivity, and muscle oxygen tension. Removal of fibrinogen and cholesterol reduces plasma viscosity by 20% and erythrocyte aggregation by 60% which gives rise to applying the HELP apheresis in various microcirculatory disorders. Pilot studies on acute retinal ischemia, critical limb ischemia, and sudden hearing loss confirm this observation.     

Low-density lipoprotein apheresis for the treatment of refractory hyperlipidemia

The advent of treatment with 3-hydroxy-3-methylglutaryl coenzyme A inhibitors has meant that, with a combination of diet and drug therapy, adequate control of serum cholesterol concentrations can be achieved in most patients with hypercholesterolemia. However, some patients, primarily those with familial hypercholesterolemia (FH), may require additional therapy to lower their cholesterol levels. In recent years, low-density lipoprotein (LDL) apheresis has emerged as an effective method of treatment in these patients. The criteria for commencement of LDL apheresis are LDL cholesterol levels of 500 mg/dL or higher for homozygous FH patients, 300 mg/dL or higher for heterozygous FH patients in whom medical therapy has failed, and 200 mg/dL or higher for heterozygous FH patients with documented coronary disease and in whom medical therapy has failed. In addition to cholesterol lowering in patients with FH, other indications for LDL apheresis are emerging. These include its use in the treatment of graft vascular disease in patients receiving cardiac transplants as well as in the treatment of certain glomerulonephritides. This review examines the role of LDL apheresis in the management of lipid disorders and the evidence available to support its use in clinical practice.     

Complement activation and depletion during LDL-apheresis by heparin-induced extracorporeal LDL-precipitation (HELP)

The heparin-induced extracorporeal elimination of low density lipoproteins (LDL) is a well-established clinical procedure to markedly reduce cholesterol levels. The biocompatibility of this artificial filter system (HELP) was investigated by quantitation of representative complement proteins within the extracorporeal circuit using established ELISA procedures, based on monoclonal antibodies recognizing exclusively either native (C6, C7) or activated proteins (act.C3, C5a, TCC). HELP was found to be a self-limiting extracorporeal system with respect to complement activation, since act.C3 and TCC, generated mainly at the plasma filter, were partially adsorbed to the following HELP specific filters to concentrations which were lower than those obtained before the plasma filter. C5a, which increased 14.5-fold at the plasma filter was not eliminated by the following filters; however, elevated levels were not found in the patients at the end of apheresis and no leucocytopenia was observed.     

Efficacy of different low-density lipoprotein apheresis methods.

Low-density lipoprotein (LDL) apheresis is a treatment option in patients with coronary heart disease and drug resistant hypercholesterolemia. Various apheresis systems based on different elimination concepts are currently in use. We compared the efficacy of 4 different apheresis systems concerning the elimination of lipoproteins. The study included 7 patients treated by heparin extracorporeal LDL precipitation (HELP), 10 patients treated by immunoadsorption, 8 patients treated by dextran-sulfate adsorption, and 4 patients treated by cascade filtration. Ten subsequent aphereses were evaluated in patients undergoing regular apheresis for more than 6 months. Total cholesterol decreased by approximately 50% with all 4 systems. LDL cholesterol (LDL-C) (64-67%) and lipoprotein a [Lp(a)] (61-64%) were decreased more effectively by HELP, immunoadsorption, and dextran-sulfate apheresis than by the less specific cascade filtration system [LDL-C reduction 56%, Lp(a) reduction 53%]. Triglyceride concentrations were reduced by 40% (dextran-sulfate) to 49% (cascade filtration) and high-density lipoproteins (HDL) by 9% (dextran-sulfate) to 25% (cascade filtration). On the basis of plasma volume treated, HELP was the most efficient system (LDL-C reduction 25.0%/L plasma), followed by dextran-sulfate (21.0%/L plasma), cascade (19.4%/L plasma), and immunoadsorption (17.0%/L plasma). However, a maximal amount of 3 L plasma can be processed with HELP due to concomitant fibrinogen reduction while there is no such limitation with immunoadsorption. Therefore, the decision of which system should be used in a given patient must be individualized taking the pre-apheresis LDL concentration, concomitant pharmacotherapy, and fibrinogen concentration into account.     

Comparison of different LDL apheresis methods

This article presents the generally accepted indications for LDL apheresis treatment. The available LDL apheresis methods differ with respect to acute relative reductions of LDL cholesterol; mean values after the LDL apheresis treatments are not different. Serum triglycerides, HDL-cholesterol, and lipoprotein(a) are also acutely reduced. Available LDL apheresis methods differ with respect to their impact on the coagulation system, on C-reactive protein and on leukocyte count. Cardiovascular events are clearly reduced by the LDL apheresis methods. There is an urgent need to prospectively compare the different LDL apheresis methods taking into account hard end points. The lower target values for LDL cholesterol suggested by international guidelines for high-risk patients will certainly require a more widespread use of LDL apheresis.     

Comparison of different LDL apheresis methods

This article presents the generally accepted indications for LDL apheresis treatment. The available LDL apheresis methods differ with respect to acute relative reductions of LDL cholesterol; mean values after the LDL apheresis treatments are not different. Serum triglycerides, HDL-cholesterol, and lipoprotein(a) are also acutely reduced. Available LDL apheresis methods differ with respect to their impact on the coagulation system, on C-reactive protein and on leukocyte count. Cardiovascular events are clearly reduced by the LDL apheresis methods. There is an urgent need to prospectively compare the different LDL apheresis methods taking into account hard end points. The lower target values for LDL cholesterol suggested by international guidelines for high-risk patients will certainly require a more widespread use of LDL apheresis.     

Composition and immunoreactivity of serum low density lipoproteins (LDL) before and after LDL-apheresis on dextran sulfate-cellulose columns

The changes in low density lipoprotein (LDL) composition and immunoreactivity occurring after LDL-apheresis on dextran sulfate-cellulose columns (DSC) were investigated in 4 hypercholesterolemic patients. After apheretic treatment, serum levels of total cholesterol, triglycerides and apolipoprotein B (apo B) were decreased by 63, 80 and 65%, respectively, whereas the high density lipoprotein (HDL)-cholesterol remained unchanged. At the end of apheresis, LDL contained less triglycerides, more phospholipids and apo E and the ratio of LDL core lipid components, cholesteryl esters and triglycerides, to LDL surface lipid components, unesterified cholesterol and phospholipids was significantly lower. The post-apheretic LDL were characterized by the presence of subfractions slightly larger than those observed in the pre-apheretic LDL. The modifications of the composition and size of LDL after apheresis were accompanied by a relative increase in the immunoreactivity of 4G3 epitope, an apo B epitope located near the LDL-receptor binding site, with no change in the affinity of 1D1, an apo B epitope located in the amino-terminal region of the molecule. The changes in LDL composition, size and immunoreactivity following apheresis, suggest that postapheresis LDL could contain newly synthesized LDL, different from mature LDL. Thus, LDL-apheresis treatment could provide the opportunity to study the structural change of LDL during intravascular metabolism.     

Improvement of hemorheology by DALI apheresis: acute effects on plasma viscosity and erythrocyte aggregation in hypercholesterolemic patients.

Plasma viscosity (PV) and erythrocyte aggregation (EA) are determinants of microcirculation, especially under the compromised hemodynamic conditions resulting from atherosclerosis. Direct adsorption of lipoproteins (DALI) apheresis is the first method for direct adsorption of lipoproteins; it drastically reduces low-density lipoprotein (LDL)-cholesterol and lipoprotein (a) (Lp[a]), and may therefore improve PV and EA. The current study was performed to test the effect of DALI on hemorheology. Six hypercholesterolemic patients who had been on regular LDL apheresis for at least several months were treated on a weekly or biweekly basis, on average 5 times each by DALI. Before and after each session, PV was measured by a capillary tube plasma viscosimeter and EA by rotational aggregometry. Single DALI sessions (n = 31) acutely decreased PV from 1.18 +/- 0.04 to 1.06 +/- 0.3 mPa (-10%) while EA improved from 22.8 +/- 4.4 to 13.3 +/- 4.5 (arbitrary units) (-42%). LDL-cholesterol, Lp(a), and very-low-density lipoprotein (VLDL)-cholesterol were effectively reduced while the decrease of triglycerides and fibrinogen was only moderate. DALI apheresis exerted an acute positive effect on blood hemorheology which may have beneficial effects on microcirculation. This hypothesis is in accordance with the clinical observation that in some patients, improvement of angina and/or exercise tolerance can be observed after only a few DALI sessions where changes of coronary stenoses cannot be expected yet.     

Effect of heparin-induced extracorporeal low-density lipoprotein precipitation (HELP) apheresis on hepatitis C plasma virus load.

Association of the hepatitis C virus (HCV) with apolipoprotein B containing lipoproteins has been suggested, and this led to the concept that the low-density lipoprotein (LDL) receptor may also serve as a candidate receptor for HCV uptake into the liver. We have investigated whether heparin-induced extracorporeal LDL precipitation (HELP) LDL apheresis treatment reduces HCV plasma load in 6 patients, all infected for more than 4 years with HCV and resistant against established anti-HCV therapy. HELP apheresis treatment caused an HCV-RNA decrease of 77.3% in mean. This decline was not correlated with LDL-cholesterol reduction. HCV-RNA was retained on the HELP filter as shown for 1 patient. The effect of RNA lowering was only transient due to the high turnover of HCV. However, HELP apheresis may open a window of opportunity for an immune-modulating and antiviral therapy in the interval between two apheresis procedures in patients with high virus load.     

Acute and long-term effects of low-density lipoprotein (LDL)-apheresis on oxidative damage to LDL and reducing capacity of erythrocytes in patients with severe familial hypercholesterolaemia

Several studies have suggested that the oxidative modification of low-density lipoprotein (LDL) could play a key role in the early stages of atherosclerosis. The susceptibility of LDL to oxidation has been found to be greater in patients with coronary heart disease. Familial hypercholesterolaemia (FH) is a powerful clinical model in which to study the predictive role of LDL in atherogenesis. LDL-apheresis is a treatment that is able to decrease lipid levels in plasma. This study was aimed at investigating the reducing capacity of erythrocytes and the in vitro susceptibility to oxidation of LDL isolated from patients with homozygous, heterozygous and double-heterozygous FH, who were treated fortnightly with LDL-apheresis or left untreated. In 14 FH patients, at baseline and after a cycle of treatment, the susceptibility of LDL to oxidative modification was analysed by studying the kinetics of conjugate diene formation. Plasma hydroperoxides, polyunsaturated fatty acid content, LDL electrophoretic mobility on agarose, the titre of auto-antibodies against oxidized LDL and serum paraoxonase activity were also measured. Furthermore, in order to evaluate a potential relationship between LDL oxidation and redox status, erythrocyte GSH and ATP levels were determined in FH patients treated regularly or never treated previously by LDL-apheresis. Unlike in the control group, the oxidative status of LDL in all FH patients was modified by LDL-apheresis, as revealed by the higher negative charge and the increase in levels of hydroperoxides and antibodies against oxidized LDL in the plasma. Our findings suggest both an acute effect and a long-term effect of LDL-apheresis in FH patients treated with dextran sulphate cellulose apheresis. The acute effect of LDL-apheresis on the susceptibility to oxidation of plasma and LDL was demonstrated by significant decreases in plasma hydroperoxide content, total LDL concentration and polyunsaturated fatty acid content. The increased resistance of LDL to oxidation was shown by prolongation of the lag time (P<0.05) in samples after a single cycle of treatment. The long-term effect of LDL-apheresis was demonstrated by the comparable values for lag phases (obtained from the kinetics of conjugate diene formation) in patients under active treatment and controls. Compared with healthy controls and untreated patients, the erythrocyte GSH content was significantly higher (P相似文献   

Direct adsorption of lipoproteins from whole blood by DALI apheresis: technique and effects.

Low-density lipoprotein (LDL) apheresis can drastically reduce atherogenic lipoproteins in coronary patients in whom LDL and lipoprotein (a) (Lp[a]) cannot be sufficiently reduced by conservative therapy. LDL and Lp(a) adsorption by polyacrylate/polyacrylamide (DALI) is the simplest procedure for clinical LDL apheresis to date. DALI was first applied in patients in 1994 and introduced into clinical routine in 1996. It is the first LDL-hemoperfusion system, i.e., it adsorbs LDL and Lp(a) directly from whole blood. This markedly simplifies the extracorporeal circuit, the handling of the system, and reduces significantly staff time and, especially at higher blood flow rates, treatment time. Its features are high selectivity and capacity of lipoprotein removal (maximum about 8 g low-density lipoprotein cholesterol per session). Using citrate anticoagulation, good biocompatibility is evidenced by the lack of cell losses, hemolysis, thrombotic events, and complement activation. Some clotting factors of the intrinsic system are also adsorbed. There is significant bradykinin activation that, however, does not cause problems in most patients if angiotensin converting enzyme inhibitor medication is avoided. In a first long-term study, 93% of sessions were uneventful. Major side effects were citrate-induced paresthesias (1.3%) and hypotension (0.8%). To date, more than 25,000 DALI sessions have been performed all over the world.