Coronary Artery Disease Clinical Trial
Official title:
Premature Coronary Artery Disease - Clinical and Molecular Genetic Aspects
Since finishing the sequencing of the human genome in 2003, genetic research in coronary artery disease (CAD) and other complex traits have developed dramatically. Recent genome-wide association studies have identified a considerable number of common genetic variants each associated with the disease. This has led to a new understanding but also to the discovery of new therapeutical targets. However, each of the variants discovered only have minor effects on disease development and even the pooling of the variants only explains a minor percentage of the total heritability. It has been evident that rare or private mutations probably play a great role in the genetic architecture of CAD, especially among young and severely affected patients. These may only be identified by sequencing. Therefore, the investigators hypothesize, that the use of exome sequencing (the read-off of the entire protein-coding regions of the genome) and linkage analysis in families of extreme phenotype cases, will identify disease-causing genetic variants. From the West Denmark Heart Registry the investigators will enroll a minimum of 120 patients with atherosclerosis who have undergone a coronary artery revascularization procedure before the age of 40, to participate in study part 1. A pedigree analysis will be performed and cardiovascular (CVD) risk factors and current preventive treatment will be evaluated. 1. degree relatives aged 30-65 years, who are free of CAD, are invited to participate in study 2. CVD risk factors are evaluated as well as a CT coronary angiogram is performed to quantify the degree of asymptomatic coronary atherosclerosis. Families from study 1 and 2, who are considered severely affected by atherosclerosis, evaluated on a basis of family size, number of affected and severity of disease, will be selected for exome sequencing. Other relevant family members will be included as well as their CVD risk factors will be evaluated. Exome sequencing will be performed and variants found will be filtered on a basis of frequency, linkage analysis, gene position, existing knowledge and in-silico prediction tools. Possible findings will be validated by Sanger-sequencing and causality of new variants will subsequently be sought to be proven by relevant experimental studies.
Purposes Study part 1: Quantify the occurrence of risk factors of atherosclerosis among
patients with very premature CAD in the Central Denmark Region and investigate to what
degree patients are treated according to national guidelines.
Study part 2: Investigate the occurrence of CAD among middle-aged 1st degree relatives of
established patients having very premature CAD.
Study part 3: Evaluate possible genetic "risk factors" in families with a high CAD
prevalence using exome sequencing analysis.
Hypotheses Hypothesis 1: Patients with very premature CAD have modifiable risk factors,
which are inadequately treated relative to current national guidelines.
Hypothesis 2: The occurrence of very premature CAD is associated with familial accumulation
of the disease.
Hypothesis 3: The use of exome sequencing in selected families with phenotypic severe
premature CAD will identify disease-causing genetic variants.
Method Study part 1. Patients suffering from premature CAD who have had a percutaneous
coronary intervention (PCI) or coronary artery bypass graft operation (CABG) done before the
age of 40 years will be selected from the West Denmark Heart Registry (VDHD). Specifically,
patients treated at Aarhus University Hospital (AUH) in Skejby for myocardial infarction
(MI), stable or unstable angina pectoris in the period of January 1st 2007 - December 31st
2013 will be recruited and the occurrence of registered risk factors be evaluated (sample
indicates app. 170 patients per year). After informed consent is obtained, they will
participate in this research study. Participants will be interviewed in the cardiac
outpatient clinic at the Dep. of Cardiology, AUH, Skejby. The following information about
cardiovascular risk factors will be collected; family history of atherosclerosis (a pedigree
analysis will be performed and cases of diagnosed CVD will be identified), prior medical
history (i.e. hypertension, dyslipidemia, diabetes, chronic kidney disease, vascular
disease), smoking status and number of pack years, alcohol consumption and vascular symptoms
(i.e. angina pectoris, intermittent claudication). Gathered information will be compared to
the registered information in patient records and VDHD. In addition, information about
localization of the invasive treatment, the degree of CAD, and the latest estimate of the
left ventricular ejection fraction (LVEF) will be collated. All patients will be examined
regarding height and weight, abdominal girth and a blood sample is collected. An automated
office blood pressure measurement (Bp-TRU device) will be performed. Levels of creatinine
(e-GFR), total cholesterol, LDL cholesterol, HDL cholesterol, triglycerides and HbA1c will
be measured. Further, a blood sample will be saved for prospective DNA analysis (below). The
investigators will evaluate to what degree the treatment targets have been met in accordance
with national guidelines. Analysis will be corrected to reflect changes in these treatment
guidelines, which have occurred in recent years.
Study part 2. Patients from study 1 (index patients) are requested to establish contact to
1st degree relatives between 30 and 65 years of age for the purpose of participating in
Study part 2. The form of contact follows regular department guidelines for contact to
family members. 1st degree relatives who give their informed consent will be included in
study part 2 (participants). Patient records from participants who are diagnosed with
atherosclerosis will be obtained. Exclusion criteria will be former diagnosis of CAD by CTCA
or percutaneous transluminal coronary angiography, chronic atrial fibrillation, renal
failure (e-GFR < 30ml/min), obesity (BMI > 30 is indicative but body geometry plays a role),
former allergic contrast reaction and pregnancy. A traditional risk profile and blood
samples will be collected as in study part 1. Prior to the CTCA, LVEF is estimated by
echocardiography. A CTCA is performed according to the standard protocol in the department.
Initially the CT-scan is performed without contrast in order to estimate the coronary
calcification by Agatstons method. Afterwards a scan is performed with 70 ml of
iodine-containing contrast. ECG modulation and radiation-reduced protocols will be used so
that an average participant (70 kg) may expect to receive a radiation dose below 3 mSv. The
analysis of the contrast study will focus on automated- and semi-automated plaque
quantification. Non-cardiac findings will be described according to department standard
procedures by the Dep. of Radiology, AUH, Skejby, and medical intervention performed as
clinically indicated.
Study part 3. Families from study part 1 and 2, who are considered severely affected by
atherosclerosis, evaluated on a basis of family size, number of affected and severity of
disease, will be selected. Family members (index patients, 1st degree relatives and if
relevant also their 1st degree relatives) who consent,will be included in study part 3.
Contact with relatives who have not yet participated in the project will be attempted as in
study part 2. A traditional risk profile and a blood sample for DNA analysis (exome
sequencing) will be requested if it has not already been obtained. The analysis takes place
at Department of Molecular Medicine (MOMA), AUH, Skejby, who have the required equipment,
software and laboratory expertise in performing the tests as well as the bioinformatic
analysis. First, genomic DNA is purified and fragmented to a size of 200-500 base pairs.
Illumina TruSeq libraries (to be used with the exome sequencing) will be produced at a
Caliper Sciclone-robot where the exome enrichment with Nimblegens EZ in solution Exome v3
kit will also take place. The dataanalysis will be taking place at MOMA under the guidance
of the MOMA staff. First sequences will be trimmed and aligned to the humane genome. Second,
alignments will be fine-tuned before variants will be called, including single nucleotide
variants and insertions/deletions of various size. The interpretation of the data will be
taking place in the software program Cartagenia, which gives access to an abundance of
public and commercial databases and also offers the opportunity of integrating private
databases. Variants will be filtered on a basis of frequency, gene position, existing
knowledge and different in-silico prediction tools. Possible significant findings will be
validated by Sanger sequencing.
Statistical analysis At the found genotypes from study part 3, coupling analysis is
performed to identify regions in the genome shared by disease-affected individuals. The use
of pedigree analysis and coupling analysis substantially reduce the candidate intervals in
the genome, thereby increasing the statistical power to identify disease-causing variants
even in small families. Because the precise genetic architecture and family structure of the
included families is not known, exact calculation of statistical power will not be possible.
In case of a dominant monogenetic disease, a filtration only based on localization
(coupling) reduces the potential variants by app. 80% within a pair of affected siblings and
by more than 95% for monogenetic recessive diseases, if affected individuals from inbred
families.
Research Biobank A research biobank will be established under The Institute of Clinical
Medicine, Health, Aarhus University. A sample of 2x4 ml (BD Vacutainer K3E 7,2mg Ref.
368860) and 1x4ml (BD Vacutainer SST II Advance, Ref. 367957) blood from all participants in
studies 1-3 will be submitted to the biobank for further analysis. The sampling is performed
at AUH, Skejby or a glass and a return envelope will sent to the patient for the drawing of
blood by their family physician. The sample is cryo-preserved and exome sequencing is
performed on the participants of study part 3. The biobank will be carried on after the
project has ended for the purpose of future research. In case of future analysis on the
preserved material The Research Ethics Committee and the participant (if still alive) will
be noticed before hand. Permission to store the biological material will be applied
continuously according to specified intervals by The Danish Data Protection Agency. All
participants may demand their biological material destroyed at any time.
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Observational Model: Family-Based, Time Perspective: Cross-Sectional
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