Coronary Artery Disease Clinical Trial
Official title:
Use of Imaging and Blood Biomarkers to Improve the Diagnostic Accuracy of Cardiac Assessment by Stress Echocardiogram
EVAREST will identify and validate novel blood and imaging biomarkers of potential value for consistent and accurate interpretation of stress echocardiography. During phase one, blood samples will be collected to assess the impact of cardiac stress on levels of circulating biomarkers and examine whether the measurement of these biomarkers can provide additional prognostic information. Phases one, two and three will also determine whether novel imaging biomarkers can be identified in the echocardiograms that can be used for objective interpretation of the stress echocardiograms. EVAREST will recruit up to 8000 patients (First 500 during phase one, an additional 500 during phase two and an additional 7000 during phase three) from multiple hospitals across United Kingdom, who have been referred for a stress echocardiogram as part of their investigations into ischaemic heart disease. Phase four of the study will continue into a clinical study cohort phase to capture information from all patients referred for a stress echocardiogram in the UK, regardless of the reason for investigation.This registry phase will run for 2 years, recruiting up to 15000 participants.
Study Overview:
• Design
EVAREST is a multi-centre observational study comparing accuracy of novel quantitative stress
echocardiography biomarkers for prediction of 12 month outcome against standard clinical
interpretation.
• Scientific Justification
Coronary artery disease affects 2.3 million people in the UK and is responsible for 66 000
deaths each (BHF, 2018). As such, early diagnosis and intervention is crucial for saving
lives and improving people's quality of life. Stress echocardiography is a commonly used,
non-invasive imaging test used for detection of prognostically significant coronary artery
disease. It allows the detection of regional wall motion abnormalities (RWMAs) which develop
when the myocardium is not receiving adequate perfusion and, as such, indicates obstructive
coronary artery disease. Average sensitivity and specificity for stress echocardiography is
estimated at 81% and 82%, respectively (Geleijnse et al., 2009) in meta-analysis but remains
highly subjective (Hoffmann et al., 1996) and subject to operator skill (Picano et al.,
1991). Objective, quantifiable biomarkers in blood samples, or from images, acquired during
the stress echocardiogram, which predict outcome of patients, could be used to reduce
variability of stress echocardiography and ensure consistent and accurate results.
Aims
- To establish whether the measurement of specific blood biomarkers, in particular,
extracellular vesicles, during a stress echocardiogram, can give additional prognostic
information to stress echocardiography.
- To establish whether imaging biomarkers can provide additional prognostic information to
stress echocardiography.
Phase One
Phase one will investigate the impact of cardiac stress on the levels of circulating
biomarkers, in particular, extracellular vesicles. This phase will also assess whether they
provide further prognostic information in addition to the echocardiogram. Blood samples will
be collected from a cannula (inserted for the standard clinical procedure) before stress,
during peak stress and during recovery and analysed to determine whether there were any
changes in circulating extracellular vesicles during these three stages and whether these
differ between patients with and without ischaemic heart disease.
Phase Two
Phase two continues recruitment for collection of stress echocardiogram images. Data
collected during this phase will be compared with the data obtained during phase one to
assess the usefulness of incorporating blood biomarkers into assessment of stress
echocardiograms. In addition, the images obtained during phase two will be combined with the
images collected during phase one to allow for the identification of novel imaging biomarkers
which can be used to assist in the identification of patients with prognostically significant
coronary disease.
Phase Three
Phase three will expand recruitment to allow evaluation of the generalisability of the
imaging biomarkers identified in phase one and two across different healthcare settings,
operators, stress protocols, machines and patient groups.
Phase Four
The fourth phase of the study allows for an assessment of all stress echocardiography
practise in the UK and the demographics of patients being referred for stress echocardiogram.
Phase four will investigate the use of stress echocardiography as a clinical procedure in the
UK.
• Recruitment, Consent and Data Collection
Patients who have been scheduled a stress echocardiogram (using either pharmacological or
exercise stress) as part of clinical investigations will be sent a participant information
leaflet to read prior to their clinic appointment. When they are in the department, they will
be approached by a study investigator to see whether they would be interested in taking part
in the study and have the opportunity to ask the investigator any questions so that they
fully understand the study. If they are interested in taking part, the process of obtaining
informed consent will take place.
Following consent, the images acquired during the stress echocardiogram will be downloaded
and anonymised with the participant's unique study ID number. These images will be
transferred to the Oxford Research Echocardiography Core Laboratory (ORECL) for further
analysis. Relevant medical history will be obtained for each participant as well as the
clinician's interpretation of the echocardiogram. One year after the initial stress
echocardiogram (range: 11-18 months), the participant will be followed-up to determine
whether they underwent any further investigations for ischaemic heart disease (such as
coronary angiography, cardiac magnetic resonance imaging, myocardial perfusion scintigraphy
or repeat stress echocardiography) or had any coronary events. The participant may also be
contacted via telephone to find out whether they were admitted to any other hospital for
investigations. For phase one participants only, three blood samples (totalling approximately
40 ml) will be obtained before, at peak stress and after a recovery period, for the
assessment of blood biomarkers. These samples will be taken through the cannula inserted as
is routine during stress echocardiography. Participants will also give consent for follow-up
information to be accessed for up to ten years after their initial stress echocardiogram.
• Outcome Assessment
Patient outcomes will be examined by an adjudication committee, blinded to the results of the
stress echocardiograms. This committee will be led by a cardiologist and will examine all
information obtained for a participant after the follow-up period has concluded. The criteria
for confirming the presence of significant coronary artery disease include > 70% stenosis
(assessed either via invasive coronary angiography or CT coronary angiography), an FFR < 0.85
or disease requiring intervention (either by percutaneous coronary intervention (PCI) or
coronary artery bypass grafts (CABG)). Other end-points include coronary events (such as
myocardial infarction) or death (attributed to coronary artery disease). If a patient has had
no further investigations or events since their stress echocardiogram, their outcome will be
recorded as normal.
• Confidentiality
All data obtained will be securely stored in accordance with the General Data Protection
Regulations and Data Protection Act (2018) and Caldicott Principles.
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