Familial Hypercholesterolemia Clinical Trial
Official title:
Effects of LDL Apheresis System on the Expression of Genes Involved in Lipoprotein Metabolism and Inflammation in Homozygotes for Familial Hypercholesterolemia
Familial hypercholesterolemia (FH) is an autosomal codominant single-gene disorder caused by
mutations in the LDL receptor gene that disrupt the normal clearance of LDL particles from
the plasma compartment. Heterozygous patients present a 2- to 3-fold raise in plasma
LDL-cholesterol (C) concentrations, tendinous xanthomatosis and premature atherosclerotic
coronary heart disease (CHD), usually occurring between the age of 35 and 55 years. Since
the mid-1970s, LDL-C has been removed from the blood of patients using plasmapheresis, and
this technique has been shown to improve the life expectancy of FH homozygotes. LDL
apheresis selectively removes LDL particles but not immunoglobulins and other beneficial
proteins, thereby overcoming a potential drawback of the traditional plasmapheresis method.
LDL-C is effectively reduced by more than 60% immediately after LDL apheresis, although LDL
levels rebound rapidly.
Dextran sulfate adsorption is a commonly apheresis technique used in familial
hypercholesterolemia patients. In this apheresis plasma is separated from red blood cells
and passed over columns of cellulose beads containing dextran sulfate which binds
apolipoprotein B (apoB) by a highly selective electrostatic binding mechanism. Since LDL,
very-low density lipoprotein (VLDL), and Lipoprotein (a) all contain apoB, dextran sulfate
adsorption apheresis selectively reduces these lipoproteins while having little effect on
the non-apoB containing HDL particles. In clinical practice, LDL apheresis reduces the rate
of future cardiovascular events and has been postulated to have additional effects on
potentially pro-atherogenic factors. Some proteins have been identified with adhesive
characteristics to lipoproteins, rheological, immunological and inflammation relevant
proteins16-19 that influence microcirculation as well as the inflammatory response. However,
no studies have yet to investigate the impact of LDL apheresis on the expression of
different genes involved in cardiovascular disease.
The main objective of the present research project is to investigate the impact of the LDL
apheresis dextran sulfate adsorption system on the messenger ribonucleic acid (mRNA)
expression of genes involved in cardiovascular disease using microarrays analysis in 9 FH
homozygotes.
n/a
Allocation: Non-Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Crossover Assignment, Masking: Open Label, Primary Purpose: Treatment
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