Results 271 to 280 of about 370,495 (313)
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Immunosorbents for LDL-Apheresis
Biomaterials, Artificial Cells and Artificial Organs, 1990Low density lipoprotein (LDL) (1,03-1,05 g/ml) was utilized as antigen to obtain polyclonal (PcAb) and monoclonal (McAb) antibodies. Immunosorbents capable of selective removing LDL from human plasma were developed on the basis of the antibodies preparation.
S N, Pokrovsky +2 more
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The Effect of LDL and Modified LDL on Macrophage Secretion Products
1984The role that lipid uptake might play in macrophage activation was investigated using mouse peritoneal macrophages in vitro. Incubation with acetylated LDL for 48 hours resulted in a 12 fold increase in cholesterol ester content in macrophages; incubation with oxidized LDL resulted in a 6 fold increase in cholesterol ester, while incubation with native
M F, Prescott +3 more
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American Heart Journal, 1987
After injecting 125I- or 131I-labeled lipoproteins, plasma was subjected to discontinuous density gradient centrifugation, which separates low-density lipoproteins (LDL) into three subfractions. Analysis of changes in apolipoprotein B-specific activity with time showed that light LDL is normally the product of intermediate-density lipoprotein and the ...
G R, Thompson, B, Teng, A D, Sniderman
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After injecting 125I- or 131I-labeled lipoproteins, plasma was subjected to discontinuous density gradient centrifugation, which separates low-density lipoproteins (LDL) into three subfractions. Analysis of changes in apolipoprotein B-specific activity with time showed that light LDL is normally the product of intermediate-density lipoprotein and the ...
G R, Thompson, B, Teng, A D, Sniderman
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LDL Receptor's β-Propeller Displaces LDL
Science, 2002The low density lipoprotein receptor (LDLR) binds to lipoprotein extracellularly and releases it in the endosome. In his Perspective, Innerarity discusses new structural work (Rudenkoet al.) that shows that an interdomain interaction that occurs at low pH likely displaces ligand from the receptor in the endosome.
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LDL for Collaborative Activities
2008LDL (learning design language) is an educational modeling language which was conceived to model collaborative activities. It has roots in social sciences, mainly linguistics, sociology and ethnomethodology. It proposes seven concepts that allow instructional designers to build the model of a collaborative learning activity.
Christine Ferraris +2 more
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Transfusion and Apheresis Science, 2017
LDL apheresis has been developed as the treatment for refractory familial hypercholesterolemia (FH). Currently, plasma exchange, double membrane filtration, and selective LDL adsorption are available in Japan, and selective LDL adsorption is most common method. LDL apheresis can prevent atherosclerosis progression even in homozygous (HoFH). However, in
Hisashi, Makino +2 more
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LDL apheresis has been developed as the treatment for refractory familial hypercholesterolemia (FH). Currently, plasma exchange, double membrane filtration, and selective LDL adsorption are available in Japan, and selective LDL adsorption is most common method. LDL apheresis can prevent atherosclerosis progression even in homozygous (HoFH). However, in
Hisashi, Makino +2 more
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Transfusion and Apheresis Science, 2007
LDL apheresis is a technology used worldwide for the treatment of refractory familial hypercholesterolemia [1]. In Italy, this extracorporeal treatment has been applied for the last 20 years, firstly by using plasma exchange and cascade filtration and by the end of the 1980’s introducing the first selective systems for LDL apheresis on a routine basis.
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LDL apheresis is a technology used worldwide for the treatment of refractory familial hypercholesterolemia [1]. In Italy, this extracorporeal treatment has been applied for the last 20 years, firstly by using plasma exchange and cascade filtration and by the end of the 1980’s introducing the first selective systems for LDL apheresis on a routine basis.
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A-223 Direct LDL or not Direct-LDL, that is the question
Clinical ChemistryAbstract Background Management of Cardiovascular Disease (CVD) risk is dependent on Low Density Lipoprotein Cholesterol (LDL-C) levels; therefore LDL-C serves as the marker for the assessment of CVD risk and the focus of lipid lowering treatment.
S Valaperta +6 more
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1977
Serum low density lipoprotein (LDL) is derived from serum very low density lipoprotein (VLDL) by a multistep process, during which an intermediate particle is formed. Studies carried out in vitro (1) and in the supradiaphragmatic rat (2) have shown that there is conservation of the B apoprotein and of cholesterol during formation of both the ...
Y, Stein, O, Stein
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Serum low density lipoprotein (LDL) is derived from serum very low density lipoprotein (VLDL) by a multistep process, during which an intermediate particle is formed. Studies carried out in vitro (1) and in the supradiaphragmatic rat (2) have shown that there is conservation of the B apoprotein and of cholesterol during formation of both the ...
Y, Stein, O, Stein
openaire +2 more sources