Official Title
A Biorepository for Discovering Novel Biochemical and Genetic Markers of Coronary Heart Disease in Qatar (QCBio)
Brief Title
A Biorepository for Coronary Heart Disease in Qatar
Protocol ID
NCT03427489
Lead Sponsor
Hamad Medical Corporation
Brief Summary
Coronary heart disease (CHD) poses a major health burden in the Gulf countries. It is the
leading cause of mortality and morbidity in the world and poses an enormous societal
burden in the Gulf countries. Early detection of disease is imperative to reduce the
health care burden and financial costs associated with CHD. Knowledge of novel genetic
and proteomic markers of CHD will provide more precise estimates of risk while defining
the pathways important in individual patients, revealing new targets for intervention,
and ultimately enabling an individualized approach to care.
To translate recent advances in genomics and proteomics into clinical practice, these
newly discovered biomarkers will need to be evaluated in patients of diverse ethnic
groups with varying characteristics, environmental factors, and medication use. The
investigators propose to establish a biorepository of plasma and Deoxyribonucleic acid
(DNA) linked to demographic and clinical variables to facilitate biomarker studies of CHD
risk, progression, and outcome. The overarching goal in developing the Qatar
Cardiovascular Biorepository (QCBio) is to create a resource that fosters research aimed
at identifying novel biochemical and genetic markers of CHD. A biorepository with linkage
to clinical data will also provide an invaluable resource for cardiovascular research,
including genomic and proteomic studies of CHD and development of biomarkers for early
detection of disease and personalized drug therapy (pharmacogenetics and
pharmacoproteomics).
Detailed Description
INTRODUCTION:
Prediction of Coronary heart disease (CHD) events is based on conventional risk factors
for atherosclerosis such as age, sex, blood pressure, diabetes, lipid levels, and smoking
status. Because these risk factors are prevalent in much of the population, available
risk prediction algorithms lack desired sensitivity and specificity. For instance, Cooper
et al showed that the algorithms correctly predicted just ~11% of the CHD events
occurring within 10 years. Thus, there is an urgent need to develop and validate new
biomarkers for early detection of disease and more accurate risk stratification.
According to the World Health Organization (WHO) estimates, cardiovascular disease will
be the leading cause of morbidity and mortality by the year 2020. Developing countries
including the Gulf States will be the major contributors to this increased death and
disability. A recent report by McKinsey & Company forecast that the Gulf region will face
an unparalleled and unprecedented rise in demand for health care over the course of the
next two decades, with an estimated total health care spending of US$ 60 billion in 2025,
up from US$ 12 billion today.
Knowledge of novel genetic and proteomic markers will provide more precise estimates of
risk while defining the pathways important in individual patients, revealing new targets
for intervention, and ultimately enabling an individualized approach to care. A
biorepository of Deoxyribonucleic acid (DNA), serum, and plasma samples will enable
investigation of the pathogenesis of CHD in Qatari adults, and provide an invaluable
resource for preventive cardiovascular research and development of biomarkers for early
detection of CHD.
SIGNIFICANCE Significant recent progress has been made in identifying genetic
susceptibility variants as well as circulating proteomic markers of atherosclerotic
vascular disease. However, the generalizability of these results to patients belonging to
diverse ethnic groups is unclear. To translate recent advances in genomics and proteomics
into clinical practice, these newly discovered biomarkers will need to be evaluated in
patients of diverse ethnic groups with varying characteristics, environmental factors,
and medication use. The investigators propose to establish a biorepository of plasma and
DNA linked to demographic and clinical variables to facilitate biomarker studies of CHD
risk, progression, and outcome. The overarching goal in developing the Qatar
Cardiovascular Biorepository (QCBio) is to create a resource that fosters research aimed
at identifying novel biochemical and genetic markers of CHD.
RESEARCH DESIGN AND METHODS:
The investigators are leveraging the following resources available for this proposal:
1. The infrastructure and patient referral patterns of the cardiac catheterization
laboratory at Hamad Hospital, Doha, Qatar, where several thousand patients are seen
annually for coronary angiography and percutaneous coronary intervention;
2. The Electronic Medical Record (EMR) at Hamad Hospital that includes risk factors,
drug therapy, relevant laboratory data, and vital status; and
3. A multidisciplinary investigative team with significant experience and expertise in
biorepository science, including ethical, legal, and social implications (ELSI),
laboratory information management systems, informatics, and mining of the EMR to
annotate biospecimen with relevant clinical covariates.
SPECIFIC AIMS AND OBJECTIVES:
1. Establish a DNA and plasma biorepository (QCBio) of Qatari CHD cases and
ethnicity-matched controls to enable investigation of genomic and proteomic
biomarkers for early detection and prognostication as well as identification of new
targets for drug development.
2. Annotate the biorepository with a) demographic, laboratory, and clinical variables
derived from the EMR using electronic phenotyping algorithms, and b) detailed
information regarding history of cardiovascular diseases and risk factors derived
from surveys of the study subjects.
3. Develop processes to promote use of the biorepository by Qatari investigators by
facilitating access to the biorepository for biomarker research, while maintaining
the highest ethical standards with emphasis on patient confidentiality and
stewardship of the biospecimens.
4. Tracking Recruitment: A Patient Numbering Program (PNP) is being used to de-identify
subjects enrolled in the study and track patient recruitment. The program contains
demographic information and an assigned Personal Identification Number (PIN) for
each participant.
Consenting: Potential subjects are being identified by the study coordinators after
review of catheterization laboratory (Cath lab) and blood bank schedules. The study
coordinator is explaining the consent form and the study questionnaire to each
participant. Wherever possible, the investigators are attempting to collect blood
specimens in the fasting state before the receipt of any treatment and avoid the burden
of additional venipuncture. For those eligible ones, the study coordinator will provide
the details regarding the objectives of the study, risks and potential benefits from
participation, the storage, future use and privacy of the samples. In addition, the study
coordinator is informing the participants about the lack of immediate benefit for health
and their right to withdrawal from the study any time after consenting.
Collection and Processing of Blood Samples: Twenty-five milliliter of blood is being
obtained at the time of a procedure in the Cath lab, during admission in the Coronary
care unit (CCU) or at the time of the blood donation. Samples are collected from the
special study area close to the Cath Lab/CCU and the Blood Bank, respectively. Blood is
being drawn into the appropriate collection tubes, labeled with a hospital generated
barcode Identification number, and sent to the Molecular Genetics laboratory.
Freezer Monitoring: All freezer temperatures are being monitored round the clock by a
combination of project management facilities and Hamad Medical Corporation (HMC)
Security.
Quality Assurance: Accurate sample handling is being achieved by adherence to Standard
Operating Procedures (SOPs) by following general laboratory quality assurance and control
standards.
Specimen Tracking: Sample tracking will be accomplished by a Laboratory Information
Management System (LIMS) program that is currently being used by the Lead PI's research
group.
Patient Confidentiality: The investigators will use informatics and data security
features to maintain patient confidentiality. The Patient Numbering Program (PNP) will be
used to de-identify patients enrolled in QCBio and to track patients after recruitment.
Ethical, Legal, and Regulatory Issues in DNA Biorepositories: The consent form is
including separate check-off boxes to seek permission for the collection of plasma and
DNA use in studies of diverse diseases, and the transmittal of specimens to collaborating
investigators. Banking of biospecimens raises new concerns regarding a patient's privacy
and consent.
Informatics: Informatics and data security are critical components to a biorepository and
key to leveraging the power of biorepositories. QCBio will be linked to several
databases.
Study Questionnaire: The investigators are using a questionnaire to collect information
regarding sociodemographic information, cardiovascular history, physical activity,
lifestyle, past medical information and family history. Data will be extracted from the
questionnaire by scanning or manual entry.
Annotation of Specimens with Clinical Data: The investigators are using the Hamad
hospital EMR viewer in addition to the laboratory databases to annotate the biorepository
with relevant clinical variables.
Ascertaining Risk Factors: The investigators are ascertaining conventional cardiovascular
risk factors, including hypertension, diabetes, and dyslipidemia. The EMR and survey data
will be used to establish presence of the following risk factors for atherosclerosis:
smoking, diabetes, hypertension, dyslipidemia, and obesity. The investigators are using
targeted manual review of paper records and EMR in tandem with access to electronic data
sets for laboratory values, medications, and diagnosis codes.
Biospecimen Management and Access to Biorepository: The investigators will develop
protocols to enable investigators to leverage the datasets associated with specimens,
ensure compliance with regulatory guidelines, encourage collaboration between Qatar,
Gulf, and Mayo investigators, and improve research productivity. The investigators will
provide a flexible, robust, secure, and validated information management workspace
program to manage biospecimens. Banked specimens will be available for researchers whose
protocols have been approved by the IRB and prioritized by the Scientific Review Panel.
Tracking Specimen Use: To maximize the use of the biospecimens, the investigator will use
LIMS to track all the specimens received by allotting unique identification for all input
(sample tubes) and output (DNA/plasma/white cell) tubes and record the sample movement,
processing, creation, and consumption. A designated computer analyst will maintain and
manage the system.
Access to Information: Only members of the research team will have access to the research
data. Participants will be identified by code numbers only in the database and in
transcripts; all data are tracked in databases by anonymous but linkable study numbers.
No identifiable information will be released outside the study.
Strategy for Project Continuation: The long-term goal of the investigative team is to
create a resource that enables discovery of genetic susceptibility variants and novel
circulating markers of CHD, thereby allowing individualized assessment of risk for CHD, a
leading cause of death and morbidity in Qatar. Creation of the biorepository is the first
necessary step to understand genomic and proteomic of CHD in Qatari individuals.
Study Period
-
Enrollment Count
2,100 participants
Eligibility Criteria
Inclusion Criteria:
- Subjects: History or clinical diagnosis of Acute Coronary Syndrome
- Controls: No history of Coronary Heart disease.
Exclusion Criteria:
- Chronic or infectious disease
- Vulnerable populations (Children, prisoners, cognitive impairment)
Filters
Coronary Heart Disease (CHD)
COMPLETED
ADULT
OLDER_ADULT