Method for estimating high sdLDL-C by measuring triglyceride and apolipoprotein B levels

We previously developed an assay to directly measure small dense (sd) low-density lipoprotein cholesterol (LDL-C) levels, which is not widely used in general clinical practice. Therefore, we propose a simpler method, "LDL window," that uses conventional methods for estimating high sdLDL-C...

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Published inLipids in health and disease Vol. 16; no. 1; p. 21
Main Authors Hayashi, Toshiyuki, Koba, Shinji, Ito, Yasuki, Hirano, Tsutomu
Format Journal Article
LanguageEnglish
Published England BioMed Central Ltd 26.01.2017
BioMed Central
Subjects
Adult
Aged
Analysis
Apolipoprotein B-100 - blood
Apolipoproteins
Biomarkers - blood
Cholesterol, HDL - blood
Cholesterol, LDL
Cholesterol, LDL - blood
Coronary Artery Disease - blood
Diabetes Mellitus, Type 2 - blood
Female
Gel electrophoresis
Humans
Male
Measurement
Methods
Middle Aged
Physiological aspects
Triglycerides - blood
Japan
Apolipoprotein B
Triglycerides
Coronary artery disease
Small dense low-density lipoproteins
Cholesterol
Online AccessGet full text
ISSN1476-511X
1476-511X
DOI10.1186/s12944-017-0417-6

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Abstract We previously developed an assay to directly measure small dense (sd) low-density lipoprotein cholesterol (LDL-C) levels, which is not widely used in general clinical practice. Therefore, we propose a simpler method, "LDL window," that uses conventional methods for estimating high sdLDL-C levels. We analyzed our previous studies (2006-2008) on healthy subjects and patients with type 2 diabetes and coronary artery disease (CAD). The sdLDL-C level was measured using the precipitation method, and LDL size was determined using gradient gel electrophoresis. The "LDL window" comprises the estimation of LDL particle number and size. We adopted apolipoprotein B (apoB) for the estimation of the LDL particle number and used 110 mg/dL as the cutoff value for hyper-apoB. Triglycerides (TGs) are a powerful inverse determinant of LDL particle size. Therefore, we adopted TG for the estimation of the LDL particle size and used 150 mg/dL as the cutoff value for hyper-TG. Subjects were stratified into the following four subgroups: normal, hyper-TG, hyper-apoB, and hyper-TG/-apoB. Non-high-density lipoprotein cholesterol (non-HDL-C) is a surrogate marker for apoB; therefore, the "alternative LDL window" comprised non-HDL-C (cutoff, 170 mg/dL) and TG. The top quartile (Q4) of sdLDL-C (>31 mg/dL) doubled in patients with diabetes and CAD. The hyper-TG/-apoB group in the "LDL window" represented >90% Q4 and <4% Q1 and Q2, irrespective of the subjects. The sdLDL-C levels in the hyper-TG/-apoB group were 50% higher in patients with diabetes and CAD than those in controls. Similar results were obtained using the "alternative LDL window." Our proposed "LDL window" may help identify patients at high risk of CAD independent of LDL-C.
AbstractList We previously developed an assay to directly measure small dense (sd) low-density lipoprotein cholesterol (LDL-C) levels, which is not widely used in general clinical practice. Therefore, we propose a simpler method, "LDL window," that uses conventional methods for estimating high sdLDL-C levels.BACKGROUNDWe previously developed an assay to directly measure small dense (sd) low-density lipoprotein cholesterol (LDL-C) levels, which is not widely used in general clinical practice. Therefore, we propose a simpler method, "LDL window," that uses conventional methods for estimating high sdLDL-C levels.We analyzed our previous studies (2006-2008) on healthy subjects and patients with type 2 diabetes and coronary artery disease (CAD). The sdLDL-C level was measured using the precipitation method, and LDL size was determined using gradient gel electrophoresis. The "LDL window" comprises the estimation of LDL particle number and size. We adopted apolipoprotein B (apoB) for the estimation of the LDL particle number and used 110 mg/dL as the cutoff value for hyper-apoB. Triglycerides (TGs) are a powerful inverse determinant of LDL particle size. Therefore, we adopted TG for the estimation of the LDL particle size and used 150 mg/dL as the cutoff value for hyper-TG. Subjects were stratified into the following four subgroups: normal, hyper-TG, hyper-apoB, and hyper-TG/-apoB. Non-high-density lipoprotein cholesterol (non-HDL-C) is a surrogate marker for apoB; therefore, the "alternative LDL window" comprised non-HDL-C (cutoff, 170 mg/dL) and TG.METHODSWe analyzed our previous studies (2006-2008) on healthy subjects and patients with type 2 diabetes and coronary artery disease (CAD). The sdLDL-C level was measured using the precipitation method, and LDL size was determined using gradient gel electrophoresis. The "LDL window" comprises the estimation of LDL particle number and size. We adopted apolipoprotein B (apoB) for the estimation of the LDL particle number and used 110 mg/dL as the cutoff value for hyper-apoB. Triglycerides (TGs) are a powerful inverse determinant of LDL particle size. Therefore, we adopted TG for the estimation of the LDL particle size and used 150 mg/dL as the cutoff value for hyper-TG. Subjects were stratified into the following four subgroups: normal, hyper-TG, hyper-apoB, and hyper-TG/-apoB. Non-high-density lipoprotein cholesterol (non-HDL-C) is a surrogate marker for apoB; therefore, the "alternative LDL window" comprised non-HDL-C (cutoff, 170 mg/dL) and TG.The top quartile (Q4) of sdLDL-C (>31 mg/dL) doubled in patients with diabetes and CAD. The hyper-TG/-apoB group in the "LDL window" represented >90% Q4 and <4% Q1 and Q2, irrespective of the subjects. The sdLDL-C levels in the hyper-TG/-apoB group were 50% higher in patients with diabetes and CAD than those in controls. Similar results were obtained using the "alternative LDL window."RESULTSThe top quartile (Q4) of sdLDL-C (>31 mg/dL) doubled in patients with diabetes and CAD. The hyper-TG/-apoB group in the "LDL window" represented >90% Q4 and <4% Q1 and Q2, irrespective of the subjects. The sdLDL-C levels in the hyper-TG/-apoB group were 50% higher in patients with diabetes and CAD than those in controls. Similar results were obtained using the "alternative LDL window."Our proposed "LDL window" may help identify patients at high risk of CAD independent of LDL-C.CONCLUSIONSOur proposed "LDL window" may help identify patients at high risk of CAD independent of LDL-C.
We previously developed an assay to directly measure small dense (sd) low-density lipoprotein cholesterol (LDL-C) levels, which is not widely used in general clinical practice. Therefore, we propose a simpler method, "LDL window," that uses conventional methods for estimating high sdLDL-C levels. We analyzed our previous studies (2006-2008) on healthy subjects and patients with type 2 diabetes and coronary artery disease (CAD). The sdLDL-C level was measured using the precipitation method, and LDL size was determined using gradient gel electrophoresis. The "LDL window" comprises the estimation of LDL particle number and size. We adopted apolipoprotein B (apoB) for the estimation of the LDL particle number and used 110 mg/dL as the cutoff value for hyper-apoB. Triglycerides (TGs) are a powerful inverse determinant of LDL particle size. Therefore, we adopted TG for the estimation of the LDL particle size and used 150 mg/dL as the cutoff value for hyper-TG. Subjects were stratified into the following four subgroups: normal, hyper-TG, hyper-apoB, and hyper-TG/-apoB. Non-high-density lipoprotein cholesterol (non-HDL-C) is a surrogate marker for apoB; therefore, the "alternative LDL window" comprised non-HDL-C (cutoff, 170 mg/dL) and TG. The top quartile (Q4) of sdLDL-C (>31 mg/dL) doubled in patients with diabetes and CAD. The hyper-TG/-apoB group in the "LDL window" represented >90% Q4 and <4% Q1 and Q2, irrespective of the subjects. The sdLDL-C levels in the hyper-TG/-apoB group were 50% higher in patients with diabetes and CAD than those in controls. Similar results were obtained using the "alternative LDL window." Our proposed "LDL window" may help identify patients at high risk of CAD independent of LDL-C.
Background We previously developed an assay to directly measure small dense (sd) low-density lipoprotein cholesterol (LDL-C) levels, which is not widely used in general clinical practice. Therefore, we propose a simpler method, "LDL window," that uses conventional methods for estimating high sdLDL-C levels. Methods We analyzed our previous studies (2006-2008) on healthy subjects and patients with type 2 diabetes and coronary artery disease (CAD). The sdLDL-C level was measured using the precipitation method, and LDL size was determined using gradient gel electrophoresis. The "LDL window" comprises the estimation of LDL particle number and size. We adopted apolipoprotein B (apoB) for the estimation of the LDL particle number and used 110 mg/dL as the cutoff value for hyper-apoB. Triglycerides (TGs) are a powerful inverse determinant of LDL particle size. Therefore, we adopted TG for the estimation of the LDL particle size and used 150 mg/dL as the cutoff value for hyper-TG. Subjects were stratified into the following four subgroups: normal, hyper-TG, hyper-apoB, and hyper-TG/-apoB. Non-high-density lipoprotein cholesterol (non-HDL-C) is a surrogate marker for apoB; therefore, the "alternative LDL window" comprised non-HDL-C (cutoff, 170 mg/dL) and TG. Results The top quartile (Q4) of sdLDL-C (>31 mg/dL) doubled in patients with diabetes and CAD. The hyper-TG/-apoB group in the "LDL window" represented >90% Q4 and <4% Q1 and Q2, irrespective of the subjects. The sdLDL-C levels in the hyper-TG/-apoB group were 50% higher in patients with diabetes and CAD than those in controls. Similar results were obtained using the "alternative LDL window." Conclusions Our proposed "LDL window" may help identify patients at high risk of CAD independent of LDL-C.
ArticleNumber 21
Audience Academic
Author Koba, Shinji
Ito, Yasuki
Hayashi, Toshiyuki
Hirano, Tsutomu
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  surname: Hirano
  fullname: Hirano, Tsutomu
BackLink https://www.ncbi.nlm.nih.gov/pubmed/28125987$$D View this record in MEDLINE/PubMed
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Issue 1
Keywords Apolipoprotein B
Triglycerides
Coronary artery disease
Small dense low-density lipoproteins
Cholesterol
Language English
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Snippet We previously developed an assay to directly measure small dense (sd) low-density lipoprotein cholesterol (LDL-C) levels, which is not widely used in general...
Background We previously developed an assay to directly measure small dense (sd) low-density lipoprotein cholesterol (LDL-C) levels, which is not widely used...
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Aggregation Database
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StartPage 21
SubjectTerms Adult
Aged
Analysis
Apolipoprotein B-100 - blood
Apolipoproteins
Biomarkers - blood
Cholesterol, HDL - blood
Cholesterol, LDL
Cholesterol, LDL - blood
Coronary Artery Disease - blood
Diabetes Mellitus, Type 2 - blood
Female
Gel electrophoresis
Humans
Male
Measurement
Methods
Middle Aged
Physiological aspects
Triglycerides - blood
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Title Method for estimating high sdLDL-C by measuring triglyceride and apolipoprotein B levels
URI https://www.ncbi.nlm.nih.gov/pubmed/28125987
https://www.proquest.com/docview/1865097298
https://www.proquest.com/docview/1862767116
https://pubmed.ncbi.nlm.nih.gov/PMC5270205
Volume 16
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