BACKGROUND: Plasma concentrations of small dense (sd)-LDL are associated with the prevalence of cardiovascular events. However, the special equipment and long assay times required for sd-LDL measurement have hindered its clinical application. Herein, we report development of a simple homogeneous assay for sd-LDL-cholesterol (C) adaptable to autoanalyzers. MATERIALS AND METHODS: We identified suitable surfactants and phospholipases by screening for those selective for the sd-LDL fraction (d 1.044-1.063 kg/L) and for the dissociation of other lipoproteins, including large buoyant LDL (lb-LDL). Principal characteristics of this assay were compared with ultracentrifugal isolation of LDL subfractions and with our previous heparin-magnesium precipitation assay for sd-LDL. We measured sd-LDL-C concentrations in 460 healthy, normolipidemic individuals. RESULTS: We used a polyoxyethylene benzylphenyl ether derivative to dissociate triglyceride-rich lipoproteins and HDLs, whereas sphingomyelinase proved most effective for dissociation of lb-LDL from LDL owing to the higher sphingomyelin content in the lb-LDL subfractions. A polyoxyethylene styrenephenyl ether derivative protected sd-LDL against the dissociative actions of sphingomyelinase and cholesterol oxidase/esterase during an initial incubation step. Next, polyoxyethylene alkyl ether dissociated sd-LDL-C and the cholesterol released from sd-LDL were subsequently measured by using cholesterol oxidase/esterase. The homogeneous method correlated excellently with ultracentrifugation for sd-LDL-C (y = 0.99x-0.09, R(2) = 0.91, n = 60) and exhibited within-run precision CVs <1.1%. The distribution of sd-LDL-C was skewed, and the central 95% of sd-LDL-C concentrations ranged from 0.24 to 0.88 mmol/L (9.4-34.0 mg/dL). CONCLUSIONS: The homogeneous assay allows reproducible measurement of sd-LDL-C within 10 min and appears promising in further investigations of the clinical significance of sd-LDL-C.
BACKGROUND: Plasma concentrations of small dense (sd)-LDL are associated with the prevalence of cardiovascular events. However, the special equipment and long assay times required for sd-LDL measurement have hindered its clinical application. Herein, we report development of a simple homogeneous assay for sd-LDL-cholesterol (C) adaptable to autoanalyzers. MATERIALS AND METHODS: We identified suitable surfactants and phospholipases by screening for those selective for the sd-LDL fraction (d 1.044-1.063 kg/L) and for the dissociation of other lipoproteins, including large buoyant LDL (lb-LDL). Principal characteristics of this assay were compared with ultracentrifugal isolation of LDL subfractions and with our previous heparin-magnesium precipitation assay for sd-LDL. We measured sd-LDL-C concentrations in 460 healthy, normolipidemic individuals. RESULTS: We used a polyoxyethylene benzylphenyl ether derivative to dissociate triglyceride-rich lipoproteins and HDLs, whereas sphingomyelinase proved most effective for dissociation of lb-LDL from LDL owing to the higher sphingomyelin content in the lb-LDL subfractions. A polyoxyethylene styrenephenyl ether derivative protected sd-LDL against the dissociative actions of sphingomyelinase and cholesterol oxidase/esterase during an initial incubation step. Next, polyoxyethylene alkyl ether dissociated sd-LDL-C and the cholesterol released from sd-LDL were subsequently measured by using cholesterol oxidase/esterase. The homogeneous method correlated excellently with ultracentrifugation for sd-LDL-C (y = 0.99x-0.09, R(2) = 0.91, n = 60) and exhibited within-run precision CVs <1.1%. The distribution of sd-LDL-C was skewed, and the central 95% of sd-LDL-C concentrations ranged from 0.24 to 0.88 mmol/L (9.4-34.0 mg/dL). CONCLUSIONS: The homogeneous assay allows reproducible measurement of sd-LDL-C within 10 min and appears promising in further investigations of the clinical significance of sd-LDL-C.
Authors: Edward K Duran; Aaron W Aday; Nancy R Cook; Julie E Buring; Paul M Ridker; Aruna D Pradhan Journal: J Am Coll Cardiol Date: 2020-05-05 Impact factor: 24.094
Authors: Ron C Hoogeveen; John W Gaubatz; Wensheng Sun; Rhiannon C Dodge; Jacy R Crosby; Jennifer Jiang; David Couper; Salim S Virani; Sekar Kathiresan; Eric Boerwinkle; Christie M Ballantyne Journal: Arterioscler Thromb Vasc Biol Date: 2014-02-20 Impact factor: 8.311
Authors: Michael Y Tsai; Brian T Steffen; Weihua Guan; Robyn L McClelland; Russell Warnick; Joseph McConnell; Daniel M Hoefner; Alan T Remaley Journal: Arterioscler Thromb Vasc Biol Date: 2013-11-14 Impact factor: 8.311