Genetic Polymorphisms Associated With CAD

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

UNKNOWN

Total Enrollment

1173 participants

Study Classification

OBSERVATIONAL

Study Start Date

2014-11-30

Study Completion Date

2017-11-30

Brief Summary

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The design and purpose of the current study is to expand and validate previous findings that the IL-1 gene cluster composite genotype patterns potentiate the risk for coronary artery disease (CAD) and cardiovascular events mediated by OxPL and Lp(a). A secondary objective is to validate other, non IL-1 genetic variants associated with CAD.

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Detailed Description

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The conclusions from an earlier study indicate that the contribution of OxPL/apoB and Lp(a) on angiographically documented CAD and CAD events is conditional on proinflammatory IL-1 genotypes. This novel paradigm links the etiology of atherogenesis attributed to OxPL and Lp(a) from genetics to clinical expression of CAD. ILI has also identified the functional IL-1 gene variations that regulate the IL1B gene in a haplotype context and appear to explain over-expression of IL-1β, as well as the expression of other inflammatory biomolecules that are downstream of IL-1β. The functional IL-1 variants have been combined into patterns that have been associated with risk for more severe periodontal disease across multiple ethnic/racial populations. It is also important to test this functional genetic pattern for similar interactions with OxPL and Lp(a) biomarker levels in association with angiographically documented CAD and CAD events. DNA has been extracted from previously obtained subject blood samples (1173 subjects; 18 years to 90 years at entry (coronary angiography)) at the University General Hospital of Ioannina, Greece study site. DNAs will be labeled by anonymized subject ID # (de-identified), and shipped to ILI for genotyping and genetic analysis. Phase II will determine whether other gene variations (SNPs) previously shown in the literature to be associated with CAD and/or CAD-related secondary events can be validated in this study population.

Conditions

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Coronary Artery Disease

Study Design

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Observational Model Type

CASE_CONTROL

Study Time Perspective

RETROSPECTIVE

Study Groups

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Case

Diabetic patients undergoing coronary angiography (both sexes), who are age 18-90, and admitted in the Department of Cardiology in the University General Hospital of Ioannina and Catheterization Laboratory of 1st IKA Hospital in Athens and undergo coronary angiography for clinical purposes will be studied. Presence epicardial vessel stenosis (\>50%), and multi-vessel disease will be recorded. Excluded: previous history of revascularization procedure or moderate to severe stenosis. Patient samples will be evaluated for quantitative levels of the biomarkers Lp(a) and OXPL/apoB. IL-1 Genotypes, and other SNPs associated with CAD will be assessed in this group and related to levels of Lp(a) and oxidized phospolipids. No interventions other than the post-hoc DNA testing will be performed.

IL-1 Genotypes, other SNPs associated with CAD

Intervention Type GENETIC

Genotyping will be carried out by a CLIA-certified genotyping facility at ILI, Waltham MA. DNA concentrations will be adjusted to a range compatible with multiple PCR conditions. Genotyping will be accomplished by performing multiplex polymerase chain reactions (PCR) specifically targeting the surrounding sequences for the SNPs being studied. A single base extension assay will be hybridized to a 48-plex microarray plate and read on a SNPstream Genotyping System (Beckman-Coulter).

Control

Non-diabeticpatients undergoing coronary angiography (both sexes), who are age 18-90, and admitted in the Department of Cardiology in the University General Hospital of Ioannina and Catheterization Laboratory of 1st IKA Hospital in Athens and undergo coronary angiography for clinical purposes will be studied. Presence epicardial vessel stenosis (\>50%), and multi-vessel disease will be recorded. Excluded: previous history of revascularization procedure or moderate to severe stenosis. Patient samples will be evaluated for quantitative levels of the biomarkers Lp(a) and OXPL/apoB. IL-1 Genotypes, and other SNPs associated with CAD will be assessed in this group and related to levels of Lp(a) and oxidized phospolipids. No interventions other than the post-hoc DNA testing will be performed.

IL-1 Genotypes, other SNPs associated with CAD

Intervention Type GENETIC

Genotyping will be carried out by a CLIA-certified genotyping facility at ILI, Waltham MA. DNA concentrations will be adjusted to a range compatible with multiple PCR conditions. Genotyping will be accomplished by performing multiplex polymerase chain reactions (PCR) specifically targeting the surrounding sequences for the SNPs being studied. A single base extension assay will be hybridized to a 48-plex microarray plate and read on a SNPstream Genotyping System (Beckman-Coulter).

Interventions

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IL-1 Genotypes, other SNPs associated with CAD

Genotyping will be carried out by a CLIA-certified genotyping facility at ILI, Waltham MA. DNA concentrations will be adjusted to a range compatible with multiple PCR conditions. Genotyping will be accomplished by performing multiplex polymerase chain reactions (PCR) specifically targeting the surrounding sequences for the SNPs being studied. A single base extension assay will be hybridized to a 48-plex microarray plate and read on a SNPstream Genotyping System (Beckman-Coulter).

Intervention Type GENETIC