Results 311 to 320 of about 801,768 (340)
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European Journal of Cardiovascular Prevention & Rehabilitation, 1994
Our understanding of the pathophysiological role of lipoprotein (a) in cardiovascular disease and its clinical importance has improved, but there are still gaps in our knowledge and analytical performance that hinder the appropriate management of patients.
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Our understanding of the pathophysiological role of lipoprotein (a) in cardiovascular disease and its clinical importance has improved, but there are still gaps in our knowledge and analytical performance that hinder the appropriate management of patients.
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β-lipoprotein, lipoprotein lipase and atromid
Journal of Atherosclerosis Research, 1963Summary The lipoprotein lipase activity eluted in connection with chromatographically separated β-lipoprotein was considerably lower in 6 cases of essential hyperlipaemia than the average for 7 healthy controls. Atromid administration seemed to increase the lipoprotein lipase activity per mg β-lipoprotein protein in 4 of 5 cases.
B, HOOD, P, BEDDING, B, CARLANDER
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Lipoprotein(a) : new insights into an atherogenic lipoprotein
The Clinical Investigator, 1994Lipoprotein(a) constitutes a macromolecular complex in human plasma that combines structural features from the blood clotting and the lipoprotein systems. Aside from the discovery of lipoprotein(a) [Lp(a)] as a potential independent risk factor for premature cardiovascular disease its physiological role and activity remains obscure.
Bartens, Werner, Wanner, Christoph
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Lipoproteins and Lipoprotein Metabolism
1975The plasma lipoproteins provide the body with a transport system for the otherwise insoluble lipids. All lipids except for free fatty acids and lysolecithin, circulate in plasma from their site of origin to their site of utilization in association with these lipid-protein complexes, the lipoproteins. In healthy humans, more than 100 g of triglycerides,
S. Eisenberg, R. I. Levy
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JAMA
This JAMA Insights discusses lipoprotein(a), including factors associated with elevated lipoprotein(a) levels, how to manage them, and atherosclerotic cardiovascular disease risk.
Samia, Mora, Florian, Kronenberg
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This JAMA Insights discusses lipoprotein(a), including factors associated with elevated lipoprotein(a) levels, how to manage them, and atherosclerotic cardiovascular disease risk.
Samia, Mora, Florian, Kronenberg
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Current Opinion in Lipidology, 1999
Lipoprotein(a) is an atherogenic, cholesterol ester-rich lipoprotein of unknown physiological function. The unusual species distribution of lipoprotein(a) and the extreme polymorphic nature of its distinguishing apolipoprotein component, apolipoprotein(a), have provided unique challenges for the investigation of its biochemistry, genetics, metabolism ...
H H, Hobbs, A L, White
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Lipoprotein(a) is an atherogenic, cholesterol ester-rich lipoprotein of unknown physiological function. The unusual species distribution of lipoprotein(a) and the extreme polymorphic nature of its distinguishing apolipoprotein component, apolipoprotein(a), have provided unique challenges for the investigation of its biochemistry, genetics, metabolism ...
H H, Hobbs, A L, White
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Lipoprotein(a) and atherogenesis
Trends in Cardiovascular Medicine, 1994Lipoprotein(a) is a major inherited risk factor for atherosclerosis. Many of its activities depend on its plasminlike component, apolipoprotein(a). In vitro studies suggest that apolipoprotein(a) could enhance lipid deposition through binding to sites in the vessel wall, interfere with fibrinolysis, and modulate smooth muscle cell activity.
A C, Liu, R M, Lawn
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Current Opinion in Lipidology, 2017
Purpose of review To review recent advances in the field of remnant lipoproteins and remnant cholesterol with a focus on cardiovascular disease risk. Recent findings In line with previous years’ research, current observational, genetic, and mechanistic studies find remnant ...
Varbo, Anette, Nordestgaard, Børge G.
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Purpose of review To review recent advances in the field of remnant lipoproteins and remnant cholesterol with a focus on cardiovascular disease risk. Recent findings In line with previous years’ research, current observational, genetic, and mechanistic studies find remnant ...
Varbo, Anette, Nordestgaard, Børge G.
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Atherosclerosis, 2018
During their metabolism, all lipoproteins undergo endocytosis, either to be degraded intracellularly, for example in hepatocytes or macrophages, or to be re-secreted, for example in the course of transcytosis by endothelial cells. Moreover, there are several examples of internalized lipoproteins sequestered intracellularly, possibly to exert ...
Paolo Zanoni +4 more
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During their metabolism, all lipoproteins undergo endocytosis, either to be degraded intracellularly, for example in hepatocytes or macrophages, or to be re-secreted, for example in the course of transcytosis by endothelial cells. Moreover, there are several examples of internalized lipoproteins sequestered intracellularly, possibly to exert ...
Paolo Zanoni +4 more
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High density lipoprotein and lipoprotein oxidation
Current Opinion in Lipidology, 1996HDL protects LDL from oxidative damage known to contribute to the onset and progression of atherosclerosis. This antioxidant protection by HDL is mediated by intrinsic hydrolytic enzyme systems, by accelerated selective uptake of lipid peroxides from HDL and by antioxidant molecules.
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