[PDF] Separation of the principal HDL subclasses by iodixanol ultracentrifugation | Semantic Scholar Skip to search formSkip to main content> Semantic Scholar's Logo Search Sign InCreate Free Account You are currently offline. Some features of the site may not work correctly. DOI:10.1194/jlr.D037432 Corpus ID: 9801828Separation of the principal HDL subclasses by iodixanol ultracentrifugation @article{Harman2013SeparationOT, title={Separation of the principal HDL subclasses by iodixanol ultracentrifugation}, author={N. Harman and B. Griffin and I. Davies}, journal={Journal of Lipid Research}, year={2013}, volume={54}, pages={2273 - 2281} } N. Harman, B. Griffin, I. Davies Published 2013 Chemistry, Medicine Journal of Lipid Research HDL subclasses detection, in cardiovascular risk, has been limited due to the time-consuming nature of current techniques. We have developed a time-saving and reliable separation of the principal HDL subclasses employing iodixanol density gradient ultracentrifugation (IxDGUC) combined with digital photography. HDL subclasses were separated in 2.5 h from prestained plasma on a three-step iodixanol gradient. HDL subclass profiles were generated by digital photography and gel scan software. Plasma… Expand View on Publisher jlr.org Save to Library Create Alert Cite Launch Research Feed Share This Paper 3 CitationsHighly Influential Citations 1 Background Citations 1 Methods Citations 2 Results Citations 1 View All Figures, Tables, and Topics from this paper figure 1 table 1 figure 2 table 2 figure 3 table 3 figure 4 View All 7 Figures & Tables High Density Lipoproteins iodixanol subclass Ultracentrifugation Area Under Curve HUNTINGTON DISEASE-LIKE 3 (disorder) Gel Electrophoresis (lab technique) JPH3 gene Centrifugation, Density Gradient HUNTINGTON DISEASE-LIKE 2 3 Citations Citation Type Citation Type All Types Cites Results Cites Methods Cites Background Has PDF Publication Type Author More Filters More Filters Filters Sort by Relevance Sort by Most Influenced Papers Sort by Citation Count Sort by Recency Deepening our understanding of HDL proteome G. E. Ronsein, T. Vaisar Biology, Medicine Expert review of proteomics 2019 8 View 1 excerpt, cites methods Save Alert Research Feed HDL quality and functionality: what can proteins and genes predict? E. Karavia, E. Zvintzou, P. Petropoulou, Eva Xepapadaki, C. Constantinou, Kyriakos E Kypreos Medicine Expert review of cardiovascular therapy 2014 21 View 1 excerpt, cites methods Save Alert Research Feed Emerging Phenotypes of Type 2 Diabetes R. Lemmers Medicine 2018 Highly Influenced PDF View 5 excerpts, cites background and results Save Alert Research Feed References SHOWING 1-10 OF 46 REFERENCES SORT BYRelevance Most Influenced Papers Recency Rapid separation of LDL subclasses by iodixanol gradient ultracentrifugation. I. Davies, J. M. Graham, B. Griffin Chemistry, Medicine Clinical chemistry 2003 54 PDF Save Alert Research Feed A novel method for the rapid separation of plasma lipoproteins using self-generating gradients of iodixanol. J. Graham, J. Higgins, +4 authors D. Billington Chemistry, Medicine Atherosclerosis 1996 91 View 1 excerpt, references methods Save Alert Research Feed Rapid isolation of low density lipoprotein (LDL) subfractions from plasma by density gradient ultracentrifugation. B. Griffin, M. Caslake, B. Yip, G. Tait, C. Packard, J. Shepherd Medicine Atherosclerosis 1990 228 Save Alert Research Feed Lipoprotein separation in a novel iodixanol density gradient, for composition, density, and phenotype analysis This research was supported by a grant from GlaxoSmithKline. Published, JLR Papers in Press, March 12, 2008. M. Yee, D. Pavitt, +4 authors D. Johnston Chemistry, Medicine Journal of Lipid Research 2008 28 PDF Save Alert Research Feed Relationship between plasma lipid concentrations and HDL subclasses. Y. Yang, B. Yan, M. Fu, Y. Xu, Y. Tian Chemistry, Medicine Clinica chimica acta; international journal of clinical chemistry 2005 49 PDF Save Alert Research Feed A rapid single-step centrifugation method for determination of HDL, LDL, and VLDL cholesterol, and TG, and identification of predominant LDL subclass. A. Sawle, M. Higgins, Marcus P Olivant, J. Higgins Chemistry, Medicine Journal of lipid research 2002 38 PDF Save Alert Research Feed Quantification of HDL2 and HDL3 cholesterol by the Vertical Auto Profile-II (VAP-II) methodology. K. R. Kulkarni, S. Marcovina, R. Krauss, D. Garber, A. M. Glasscock, J. Segrest Chemistry, Medicine Journal of lipid research 1997 42 Save Alert Research Feed A one-step separation of human serum high density lipoproteins 2 and 3 by rate-zonal density gradient ultracentrifugation in a swinging bucket rotor. P. Groot, L. Scheek, L. Havekes, W. L. van Noort, F. V. van't Hooft Chemistry, Medicine Journal of lipid research 1982 72 View 1 excerpt, references methods Save Alert Research Feed Alterations of HDL subclasses in hyperlipidemia. Y. Xu, M. Fu Chemistry, Medicine Clinica chimica acta; international journal of clinical chemistry 2003 49 Save Alert Research Feed High resolution plasma lipoprotein cholesterol profiles by a rapid, high volume semi-automated method. B. Chung, J. Segrest, J. T. Cone, J. Pfau, J. Geer, L. A. Duncan Chemistry, Medicine Journal of lipid research 1981 46 PDF View 1 excerpt, references methods Save Alert Research Feed ... 1 2 3 4 5 ... Related Papers Abstract Figures, Tables, and Topics 3 Citations 46 References Related Papers Stay Connected With Semantic Scholar Sign Up About Semantic Scholar Semantic Scholar is a free, AI-powered research tool for scientific literature, based at the Allen Institute for AI. Learn More → Resources DatasetsSupp.aiAPIOpen Corpus Organization About UsResearchPublishing PartnersData Partners   FAQContact Proudly built by AI2 with the help of our Collaborators Terms of Service•Privacy Policy The Allen Institute for AI By clicking accept or continuing to use the site, you agree to the terms outlined in our Privacy Policy, Terms of Service, and Dataset License ACCEPT & CONTINUE