Fusion: Addition of FFRct in the Diagnostic Pathway of Patients With Stable Chest Pain

Sponsor

Erasmus Medical Center (Other)

Overall Status

Recruiting

CT.gov ID

NCT05174247

Collaborator

(none)

528

Enrollment

Location

Arms

44.6

Anticipated Duration (Months)

11.8

Patients Per Site Per Month

Study Details

Study Description

Brief Summary

Rationale: Patients with stable chest pain enter a diagnostic pathway where Coronary Computed Tomography Angiography (CCTA) is often the first line non-invasive test to detect coronary stenosis. An anatomically significant (≥ 50% luminal narrowing) stenosis on CCTA does however not always cause cardiac ischemia (i.e. hemodynamically significant stenosis). CCTA is often followed by invasive coronary angiography (ICA) to assess the hemodynamic significance of the stenosis which is the key determinant to decide on treatment (revascularization by coronary stenting or surgery). CCTA has a very high negative predictive value but the positive predictive value is moderate. Hence, anatomically significant stenoses on CCTA often turn out not to be hemodynamically significant on ICA. Fractional Flow Reserve from coronary computed tomography (FFRct) analysis is a new non-invasive technique that uses the CCTA images as a basis for complex software based calculations and modelling to provide additional functional information based on the anatomical CCTA images. Thus, FFRct is a totally non-invasive method. Adding the FFRct analysis to the anatomical assessment of CCTA is expected to reduce the number of patients being referred to ICA where no signs of hemodynamically significant stenosis are found on ICA.

Condition or Disease	Intervention/Treatment	Phase
Chest Pain Epicardial Plaques	Other: FFRct analysis	N/A

Detailed Description

In the Netherlands, annually 180.000 new patients present with stable chest pain - the most common symptom of coronary artery disease (CAD) [1]. Stable chest pain has a 1.5% 1-year mortality and 0.7% incidence of myocardial infarction [2]. The "Kennisagenda" of the Dutch Societies of Radiology and Cardiology include CAD diagnosis as a top 10 priority.

Patients with stable chest pain enter a diagnostic pathway to detect or exclude significant coronary stenosis which is defined as > 50% luminal narrowing.

The "Verbetersignalement pijn op de borst" published by the Zorginstituut, advocates that the diagnosis should be based on a single non-invasive first line test.

Based on the National Institute for Health and Excellence (NICE) and European Society of Cardiology (ESC) guidelines, the Coronary Computed Tomography Angiography (CCTA) is a good option as the first line test in low to intermediate risk patients.

CCTA is the most sensitive non-invasive technique available, but only provides anatomical information. CCTA has an excellent negative predictive value (99%), therefore CCTA can accurately rule out CAD. However the positive predictive value is moderate (64%). Hence, anatomically significant stenoses on CCTA often turn out not to be hemodynamically significant on ICA .

Patients with significant anatomical stenosis on CCTA are often referred for invasive coronary angiography (ICA) to confirm the presence of a stenosis and subsequent revascularization of hemodynamically significant stenoses. To determine the latter, invasive fractional flow reserve (FFR) measurements can be performed during ICA. In FFR, the pressure drop across an anatomical stenosis is measured, yielding a numerical value between 0 and 1, with 1 being normal and 0.80 considered a significant stenosis.

As with all invasive procedures, ICA is associated with morbidity, mortality, patient discomfort, time and costs. Due to the moderate specificity of CCTA, many patients referred for ICA turn out to not have hemodynamically significant coronary stenosis (28-41%) in Dutch populations.

To reduce the percentage of patients referred for ICA without significant CAD, the FFRct can be useful. FFRct is a non-invasive method that uses the already acquired CCTA images to calculate coronary FFR values as they would be expected if measured invasively.

Based on data of two randomised trials conducted in the Netherlands, around 20% of patients with chest pain referred for CCTA have at least 50% anatomical coronary stenosis on CCTA . Prior FFRct studies involved populations of different countries, with different risk and work-up There are no prospective data on the real-world use of FFRct in the Dutch population of stable chest pain patients with stenosis on CCTA. The effect of FFRct in reducing unnecessary ICA or other non-invasive tests compared to CCTA alone in the Dutch health care situation is unknown. Evidence in the specific Dutch situation and population is needed to evaluate the impact and cost-effectiveness in the Dutch healthcare system.

The FUSION study is a randomized controlled trial which will investigate the impact of adding the FFRct analysis in the diagnostic pathway of stable chest pain on the rate of unnecessary ICA's.

Study Design

Study Type:

Interventional

Anticipated Enrollment :

528 participants

Allocation:

Randomized

Intervention Model:

Parallel Assignment

Masking:

None (Open Label)

Primary Purpose:

Diagnostic

Official Title:

Addition of FFRct in the Diagnostic Pathway of Patients With Stable Chest Pain to Reduce Unnecessary Invasive Coronary Angiography

Actual Study Start Date :

Jul 27, 2021

Anticipated Primary Completion Date :

Apr 15, 2025

Anticipated Study Completion Date :

Apr 15, 2025

Arms and Interventions

Arm	Intervention/Treatment
Experimental: The intervention group (FFRct group) The people in this group receive an FFRct analysis, which will be included in the treatment plan. If the FFRct analysis shows that there are there is no significant narrowing in your case, then in principle no invasive examination (heart catheterization) performed. If the analysis indicates a significant narrowing, then an invasive cardiac catheterization will usually be required are carried out. The final treatment plan will always be reviewed by your doctor tailored to your individual situation	Other: FFRct analysis Software analysis of Cardiac CT to show extent of pericardial stenoses
No Intervention: Standard treatment not using result of FFRct analyses The people in this group receive the regular treatment. This is usually an invasive cardiac catheterization. The additional FFRct analysis is also included in this group, but it is not included in the treatment plan.

Arm

Intervention/Treatment

Experimental: The intervention group (FFRct group)

The people in this group receive an FFRct analysis, which will be included in the treatment plan. If the FFRct analysis shows that there are there is no significant narrowing in your case, then in principle no invasive examination (heart catheterization) performed. If the analysis indicates a significant narrowing, then an invasive cardiac catheterization will usually be required are carried out. The final treatment plan will always be reviewed by your doctor tailored to your individual situation

Other: FFRct analysis

Software analysis of Cardiac CT to show extent of pericardial stenoses

No Intervention: Standard treatment not using result of FFRct analyses

The people in this group receive the regular treatment. This is usually an invasive cardiac catheterization. The additional FFRct analysis is also included in this group, but it is not included in the treatment plan.

Outcome Measures

Primary Outcome Measures

Rate of unnecessary ICA [90 days]
Unnecessary ICA is defined as any ICA without hemodynamically significant CAD. The leading indicator for the evaluation of significant CAD is the functional measurement (FFR/iFR). If functional measurements are not available, then significant CAD is indicated by quantitative coronary angiography or ultimately by visual estimation (eyeballing).

Secondary Outcome Measures

Rate of unnecessary ICA [1 year]
Unnecessary ICA is defined as any ICA without hemodynamically significant CAD. The leading indicator for the evaluation of significant CAD is the functional measurement (FFR/iFR). If functional measurements are not available, then significant CAD is indicated by quantitative coronary angiography or ultimately by visual estimation (eyeballing).
Rate of major adverse cardiac events (MACE) [90 days; 1 year]
Including all-cause mortality, non-fatal myocardial infarction (MI), and unplanned hospitalization leading to urgent revascularisation,
Number of additional non-invasive tests for coronary artery disease (CAD) assessment [90 days; 1 year]
Number of coronary revascularisations (planned/unplanned) [90 days; 1 year]
Rate of cardiovascular death [90 days; 1 year]
Rate of complications during and after ICA [90 days; 1 year]
Rate of non-fatal stroke [90 days; 1 year]
EuroQoL 5-Dimension 5-Level (EQ5D5L) to measure quality of life [90 days; 1 year]
The scale used is the EQ5D5L index with a minimum value of 0 and a maximum value of 1. Higher score means that there is a higher impact on health-related quality of life.
Seattle Angina Questionnaire (SAQ) to quantify patients' symptoms of angina and the extent to which their angina affects their quality of life [90 days; 1 year]
The SAQ is a self-report instrument with 19 items that, when scored according to the author's recommendations, yields five subscale scores: physical limitation, angina stability, angina frequency, treatment satisfaction, and disease perception. The possible range of scores for each of the five subscales is 0 to 100, with higher scores indicating better quality of life.
36-Item Short Form Survey (SF-36) to measure quality of life [90 days; 1 year]
The SF-36 consists of eight scaled scores, which are the weighted sums of the questions in their section. Each scale is directly transformed into a 0-100 scale on the assumption that each question carries equal weight. The lower the score the more disability.
Cost-effectiveness [1 year]
Calculated using the total costs (in euros) of the initial diagnostic tests, any additional tests or treatments for coronary artery disease, hospital admissions for suspected cardiac events and other costs that can be attributed to possible coronary artery disease.

Eligibility Criteria

Criteria

Ages Eligible for Study:

18 Years and Older

Sexes Eligible for Study:

All

Accepts Healthy Volunteers:

Inclusion Criteria:

Age ≥ 18 years
Stable chest pain and the patient underwent CCTA which demonstrated ≥50% but less than 90% stenosis in any major epicardial vessel with a diameter ≥ 2 mm.

Exclusion Criteria:

Inability to provide informed consent
Unstable angina according to ESC guidelines
Unstable clinical status
Expected inability to complete follow-up and comply with follow-up aspects of the protocol
History of coronary revascularisation
Non-invasive or invasive diagnostic testing for CAD within the past 12 months (with the exception of exercise ECG)
Unsuitable for revascularisation if required (for example due to comorbidities or anatomical features)
Poor CT quality with expected inability to perform FFRct analysis

Contacts and Locations

Locations

	Site	City	State	Country	Postal Code
1	Erasmusmc	Rotterdam	Zuid Holland	Netherlands	3015CE

Sponsors and Collaborators

Erasmus Medical Center

Investigators

Principal Investigator: Ricardo PJ Budde, MD PHD, Erasmus Medical Center
Principal Investigator: Alexander Hirsch, MD PHD, Erasmus Medical Center

Study Documents (Full-Text)

None provided.

More Information

Publications

None provided.

Responsible Party:

S.P. Sharma, Principal Investigator, Erasmus Medical Center

ClinicalTrials.gov Identifier:

NCT05174247

Other Study ID Numbers:

MEC-2021-0189

First Posted:

Dec 30, 2021

Last Update Posted:

Dec 30, 2021

Last Verified:

Dec 1, 2021

Individual Participant Data (IPD) Sharing Statement:

Plan to Share IPD:

Studies a U.S. FDA-regulated Drug Product:

Studies a U.S. FDA-regulated Device Product:

Keywords provided by S.P. Sharma, Principal Investigator, Erasmus Medical Center

Stable chest pain

Coronary Angiography

major epicardial vessel stenosis

Additional relevant MeSH terms:

Chest Pain

Study Results

No Results Posted as of Dec 30, 2021