How to optimize lipoprotein apheresis treatment--a second look.

BACKGROUND: Lipoprotein apheresis (LA) is used in hypercholesterolemic patients suffering from cardiovascular disease (CHD) if a modified diet and lipid-lowering drug regimens had failed. During the first LA treatments LDL-cholesterol (LDL-C) and lipoprotein (a) (Lp(a)) can be decreased very effectively when using generally accepted formulas for calculating plasma (PV) (e.g. Pearson) or blood volumes (BV) as a basis for calculating treatment volume (e.g. Nadler). With respect to LDL-C and Lp(a) levels after LA treatment not all treated patients on steady state with apheresis treatment procedures may achieve the desired target concentrations for LDL-C (<70 mg/dl) and Lp(a) (<30 mg/dl). Are there further ways to increase the effectiveness of LA? METHODS: Over months or years of LA the treated volumes were stepwise increased in patients to achieve target cholesterol concentrations but not sufficiently in all cases. Therefore the patients' actual LA treatment volumes were compared to the calculated PV or BV. To possibly optimize the treatment capacity of LA procedures independent of calculated PV or BV the capacity threshold was determined in addition. During LA procedures every 20 min cholesterol, triglycerides, LDL-C, HDL-C and Lp(a) concentrations were determined and related to the hematocrit to exclude dilution effects. RESULTS: In patients undergoing regular LA treated volumes vs. calculated volumes were different: for PV 28 ± 18% (n = 7); for BV 28 ± 20% (n = 6). The mean treated volumes were 1.3 fold larger than the calculated volumes to achieve cholesterol target levels in most LA treatments. With respect to the capacity threshold we observed in only 1 of 13 patients an ineffective long treatment time. No LA procedure failed due to exhausted capacity. CONCLUSIONS: Lipoprotein apheresis treatment is a very effective treatment procedure in lowering LDL-C and Lp(a). However, not in all procedures the optimal treatment volume for LA patients may be calculated. However calculations of PV and BV are more or less error-prone. An increase of 1.3 fold in the calculated volumes may be the first step in optimizing individual LA treatment options. In addition, to exclude an exhaustion of LA procedures the determination of the individual capacity threshold in every LA patient may be further helpful to adjust treatment volumes. To substantiate our demand on changed treatment volumes further data are necessary.

Current view: indications for extracorporeal lipid apheresis treatment.

BACKGROUND: One of the first investigations concerning extracorporeal treatment of hypercholesterolemia was performed in 1967 by plasma exchange in patients with homozygous or severe heterozygous familial hypercholesterolemia (FH). In the following decades, several specific lipid apheresis systems were developed to efficiently eliminate low-density lipoprotein (LDL) cholesterol and Lp(a) cholesterol in hypercholesterolemic patients. In the early 1980s, the main clinical indication has been homozygous FH including mainly children and pregnant women. In consideration of the current development of lipid-lowering regimens and scientific knowledge of preventing progression of cardiovascular diseases, the spectrum of indications to initiate lipid apheresis was extended due to still insufficient lipid-lowering therapy in some clinical cases. However, a generally accepted indication for lipid apheresis treatment is still under discussion. In Germany, the target-oriented distribution of increasingly limited healthcare resources demand data which support the benefit of established treatment procedures such as lipid apheresis. In recent years, the Federal Joint Committee (G-BA), a paramount decision-making body of the German Healthcare System, issued to reassess the approval of chronic lipid apheresis therapy for regular reimbursement. Therefore, in 2005, an interdisciplinary German Apheresis Working Group has been established by members of both the German societies of nephrology. One of the first goals of this working group was a revision of the indications for lipid apheresis corresponding to current guidelines and recommendations for the treatment of lipid disorders. In addition, recently new pathophysiological perceptions of the impact of lipoproteins on atherogenesis and thrombosis were also considered. METHODS AND RESULTS: Since 2005, the working group met on a regular basis to substantiate the first defined goals. The indications for lipid apheresis were critically revised with respect to actual results from clinical investigations, cardiovascular guidelines, and scientific knowledge and were accepted by the members of the apheresis working group. CONCLUSIONS: There is consensus between the medical societies and health insurance funds regarding the need for general accepted guidelines for lipid apheresis. Recommendations for the indications of lipid apheresis were developed, but additionally these results should be confirmed by medical societies to transform them to guidelines. However, due to limited data showing that lipid apheresis has effects on the progression of cardiovascular diseases all members of the apheresis working group support a project for creating a lipid apheresis registry. This apheresis registry has been developed and recently started. The primary goal is to substantiate prospective long-term data on clinical outcome of chronic lipid apheresis treatment and to support additional clinical research activities in this field. In addition, this registry should comply with the actual requests of the Federal Joint Committee (G-BA).

An erythropoietin gene polymorphism in the hypoxia-responsive element at position 3434 is possibly associated with hypertension.

BACKGROUND/AIMS: Several polymorphisms of vasoactive hormones have been implicated in hypertension. Erythropoietin (EPO) interacts with vasoactive substances, such as angiotensin II. Previously detected single nucleotide polymorphisms in the hypoxia-responsive element of EPO might be associated with hypertension and hypertensive end organ damages. METHODS: 400 hypertensive patients and 200 age- and gender-matched normotensive controls were genotyped for an EPO polymorphism [cytosine (C)/thymine (T) single nucleotide polymorphism] at position 3434. Patients were grouped according to their genotype into the CC group (CC genotype) and the CT/TT group (CT and TT genotype). BP was measured by ambulatory BP monitoring. RESULTS: The CC genotype was present in 87% of hypertensive patients and in 78.5% of controls (p = 0.007). In addition, patients with the CC genotype had higher BP levels compared with CT/TT genotypes (BPsys 143.7 ± 20.4 vs. 136.1 ± 13.5 mm Hg, p = 0.01, and BPdias 85.8 ± 11.6 vs. 82.4 ± 8.9, p = 0.043) despite a nearly identical number of antihypertensive drugs (2.3 ± 1.5 vs. 2.3 ± 1.6; p = 0.257). 100% of the small number of patients with end-stage renal disease (n = 15) had the CC genotype. CONCLUSION: The CC genotype of the EPO gene at position 3434 is more frequently found in patients with hypertension and is associated with higher BP levels.

[Sepsis-like disease in an immunocompromised patient with a travel history to Mallorca]. / Sepsisähnliches Krankheitsbild bei Immunsuppression nach früherem Mallorcaurlaub.

In immunosuppressed patients, a high rate of complications due to opportunistic infection is known. We report the case of a 36 year old patient with ulcerative colitis and a septic complication with ongoing pancytopenia. Due to colonic perforation, colectomy had to be performed. Despite this intervention, the septic constellation persisted. The pancytopenia in peripheral blood counts also persisted with the necessity of repetitive transfusions. A bone marrow biopsy showed an infiltration with Leishmania bodies in macrophages. Tissue culture allowed for typing of the parasites as belonging to the L. donovani/infantum complex, DNA sequencing confirmed infection with L. infantum. This infection must have been contracted during a vacation on Mallorca about 1.5 years earlier. Administration of liposomal amphotericin B cured the patient. Surprisingly, histological examination of the resected colon reveiled the presence of an immunoblastic B-cell lymphoma. In this case, immunosuppression was a prerequisite for the manifestation of leishmaniosis.