Risk Assessment and Clinical Management of Children and Adolescents with Heterozygous Familial Hypercholesterolaemia. A Position Paper of the Associations of Preventive Pediatrics of Serbia, Mighty Medic and International Lipid Expert Panel

Heterozygous familial hypercholesterolaemia (FH) is among the most common genetic metabolic lipid disorders characterised by elevated low-density lipoprotein cholesterol (LDL-C) levels from birth and a significantly higher risk of developing premature atherosclerotic cardiovascular disease. The majority of the current pediatric guidelines for clinical management of children and adolescents with FH does not consider the impact of genetic variations as well as characteristics of vascular phenotype as assessed by recently developed non-invasive imaging techniques. We propose a combined integrated approach of cardiovascular (CV) risk assessment and clinical management of children with FH incorporating current risk assessment profile (LDL-C levels, traditional CV risk factors and familial history) with genetic and non-invasive vascular phenotyping. Based on the existing data on vascular phenotype status, this panel recommends that all children with FH and cIMT ≥0.5 mm should receive lipid lowering therapy irrespective of the presence of CV risk factors, family history and/or LDL-C levels Those children with FH and cIMT ≥0.4 mm should be carefully monitored to initiate lipid lowering management in the most suitable time. Likewise, all genetically confirmed children with FH and LDL-C levels ≥4.1 mmol/L (160 mg/dL), should be treated with lifestyle changes and LLT irrespective of the cIMT, presence of additional RF or family history of CHD.

Italian multicenter study on low-density lipoprotein apheresis Working Group 2009 survey

We present results of the second survey of the Italian Multicenter Study on Low-Density Lipoprotein Apheresis (IMSLDLa-WG/2). The study involved 18 centers in 2009, treating 66 males and 35 females, mean age 47 ± 18 years. Mean age for initiation of drug treatment before low-density lipoprotein apheresis (LDLa) was 31 ± 18 years, mean age to the first LDLa was 37 ± 20 years and average duration of treatment was 9 ± 6 years. The techniques used included direct adsorption of lipids, dextran sulfate cellulose adsorption, heparin-mediated low-density lipoprotein (LDL) precipitation, cascade filtration, and plasma exchange. The mean treated plasma/blood volumes/session were 3127 ± 518 mL and 8666 ± 1384 mL, respectively. The average plasma volume substituted was 3500 ± 300 mL. Lipid therapy before LDLa included ezetimibe, statins, ω-3 fatty acids and fenofibrate. Baseline mean LDL cholesterol (LDLC) levels were 386 ± 223 mg/dL. The mean before/after apheresis LDLC level decreased by 67% from 250 ± 108 mg/dL (P = 0.05 vs. baseline) to 83 ± 37 mg/dL (P = 0.001 vs. before). Baseline mean Lipoprotein(a) [Lp(a)] level was 179 ± 136 mg/dL. Mean before/after apheresis Lp(a) level decreased by 71% from 133 ± 120 mg/dL (P = 0.05 vs. baseline) to 39 ± 44 mg/dL (P = 0.001 vs. before). Major and minor side effects occurred in 27 and 62 patients, respectively. Among patients with coronary artery disease (CAD), 62.3% had coronary angiography and 50.4% coronary revascularization before LDLa. Single vessel, double vessel and triple vessel CAD occurred in 19 (30.1%), 15 (23.8%) and 29 (46%) patients, respectively. Both CAD and extra-CAD occurred in 41.5%, 39% had hypertension, 9.9% were smokers, 9.9% consumed alcohol and 42% were physically active. Ischemic cardiovascular events were not observed in any patient over 9 ± 6 years of treatment. Two centers have also treated 34 patients (females: 17/males 17; no. sessions: 36; average plasma volume treated: 3000 mL) for sudden hearing loss (SHL). Relief of symptoms was obtained, independently of the system used (HELP; cascade-filtration).

Double filtration plasmapheresis in different diseases in Thailand

Double filtration plasmapheresis (DFPP) was applied to the treatment of two different categories from 100 cases that had been collected over a 5 year period (2007-2011). These categories were allocated into groups by size of toxic substances, which were classified as two different kinds of diseases. Group I comprised diseases that were caused by alloimmunity in transplantation, autoimmune diseases, complicated nephrotic syndrome, pure red cell aplasia, and toxemia of pregnancy. This group was treated with a plasma separator (plasmaflow-05, Asahi Kasei) and plasma fractionators, EC-20W. The second group, which included hyperviscosity syndrome, was treated by the same plasma separator, but with different plasma fractionators using EC-40W. This group included diabetes nephropathy, hyperlipidemia, peripheral arterial diseases, and neurosensory hearing loss. Both groups used 1.5 plasma volumes in each treatment for three sessions in two consecutive weeks. The result of treatment in group I showed that plasma immunoglobulin G (IgG) was decreased substantially by 66% in either transplant or lupus nephritis patients after the third session. In the second group, IgM, fibrinogen, and lipid markedly responded to the treatment. Two diabetes nephropathy patients showed stable renal function for more than 12 months. Peripheral arterial disease was shown to benefit from significantly decreasing fibrinogen and IgM, which resulted in clinical tissue oxygenation. Neither bleeding diathesis nor membrane anaphylaxis were reported from the treatment. In summary, apheresis patients were shown to benefit in hypersensitized and hyperviscosity syndrome.

Treatment of symptomatic HyperLp(a)lipoproteinemia with LDL-apheresis: a multicentre study

LDL-apheresis (LDLa) efficacy in the treatment of symptomatic HyperLp(a)lipoproteinemia -HyperLp(a)- has been studied in a multicentre trial. After 3.1+/-2.7 years of weekly and biweekly treatment, the data from 19 patients (males:12; females:7; aged 53.8+/-9.3 years; mean body mass index: 24.6+/-2.3 Kg/m²) were evaluated. Data were collected using the same questionnaire shared by 5 participating centres. A total of 2331 procedures were performed. A mean of 3593.7+/-800.3 ml of plasma or 8115.3+/-2150.1 ml of blood, depending upon the technique used (H.E.L.P., D.A.LI., Dextransulphate, Lipocollect 200), was regularly treated on average every 10.1+/-2.6 days. Baseline mean Lp(a) levels were 172.3+/-153.8 mg/dL. The mean pre-/post-apheresis Lp(a) levels decreased from 124.5+/-107.2 mg/dL (p<0.001 vs baseline) to 34.2+/-40.6 mg/dL (p<0.001 vs pre-). Baseline mean LDL-cholesterol (LDLC) levels were 152.3+/-74.6 mg/dL. The mean pre-/post-apheresis LDLC levels decreased from 130.4+/-61.1 mg/dL (p<0.004 vs baseline) to 41.2+/-25.1 mg/dL (p<0.001 vs pre-). The hypolipidemic drugs given to the patients during LDLa were: ezetimibe+simvastatin, atorvastatin, rosuvastatin, pravastatin, acipimox, and omega-3 fatty acids. 58% of the patients had arterial hypertension. Cigarette smokers were 5.3%. Alcohol intake was present in 21%. 52.6% were physically active. Patients with coronary artery disease (CAD) submitted to coronary catheterization before LDLa were 95%. In 5.5% (#1) CAD recurred despite treatment with LDLa. 79% were submitted to coronary revascularization before LDLa. CAD was: monovasal in 8 patients (42.1%), bivasal in 5 (26.4%), trivasal in 4 (21%), plurivasal in 2 (10.5%). In 94.5% of the sample the lesions were stable (< 0% deviation) over 3.1+/-2.7 years. 37% had both CAD and extra-coronary artery disease. This multicentre study confirmed that long-term treatment with LDLa was at least able to stabilize CAD in the majority of the individuals with symptomatic HyperLp(a).

Lipoprotein apheresis

PURPOSE OF REVIEW

Lipoprotein apheresis is being performed with increasing frequency, but better data collection and recording of clinical outcomes are needed. Setting up registries would facilitate this process.

RECENT FINDINGS

This review appraises recent articles that discuss the need for national registries and requirements for setting them up, the efficacy of lipoprotein apheresis in homozygous familial hypercholesterolaemia and patients with coronary disease secondary to raised levels of lipoprotein (a), and its role in the management of acute pancreatitis secondary to severe hypertriglyceridaemia.

SUMMARY

Lipoprotein apheresis seems to be going through a growth spurt, presumably reflecting better implementation of treatment guidelines or a broadening of indications for its use.