Clinical Trial Details
— Status: Active, not recruiting
Administrative data
| NCT number |
NCT05648396 |
| Other study ID # |
RMC-12-2022 |
| Secondary ID |
|
| Status |
Active, not recruiting |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
November 7, 2022 |
| Est. completion date |
December 31, 2027 |
Study information
| Verified date |
December 2022 |
| Source |
Rabin Medical Center |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational [Patient Registry]
|
Clinical Trial Summary
This study aims to collect data on clinical outcomes of real world patients undergoing
FFRangio guided treatment for coronary artery disease in Japan and Israel through a
retrospective multicentre registry.
Description:
Background:
Visual assessment of the severity of coronary stenosis is known to have a poor diagnostic
accuracy for identifying functionally significant lesion [1,2). The fractional flow reserve
(FFR) is an index that quantifies the hemodynamic impact of a stenosis in an epicardial
coronary artery. It is defined as the ratio of hyperemic myocardial flow in the presence of
stenosis to the hyperemic flow in its absence, and is obtained by measuring the distal
coronary pressure and the aortic pressure, respectively, using a pressure-measuring guidewire
during maximal hyperemia [2,3]. Clinical outcome studies have shown that medical therapy
should be preferred for non-hemodynamically significant lesions (FFR>0.80), and coronary
revascularization should be considered in cases of significant functional stenosis (FFR≤0.80)
[4-11]. Accordingly, both American and European revascularization guidelines recommend using
FFR to guide coronary revascularization, especially in stable coronary artery disease
patients [12,13]. In spite of these recommendations, the utilization of FFR in clinical
practice remains low [14]. Recently, methods to calculate angiogram based FFR (abFFR)
(without the need for pressure wires or induction of maximal coronary hyperemia) have become
available. A meta-analysis of 14 studies examining various abFFR technologies ( total of
1,842 lesions), reported a sensitivity of 89%, specificity of 90%, and a C-statistic of 0.84
compared to wire based FFR (wbFFR) [15], highlighting the potential for abFFR technologies to
facilitate the integration of physiologic assessment into daily cathlab practice. The
FFRangioTM system (CathWorks, Kfar-Saba, Israel; Figure 1), is an angiogram-derived FFR
technology that has shown excellent diagnostic performance (overall accuracy 92.6%) when
compared to wire based FFR in a large pooled cohort of individual patients data from 5
individual studies (588 patients, 700 lesions) [16]. FFRangio has already received FDA 510(k)
clearance for clinical use as a stand-alone technology without the need for concurrent wire
based FFR measurement [17]. FFRangio has been in clinical use in Japan since 2019, but there
is very limited data on the clinical outcomes of FFRangio guided treatment.
Recently, the first study examining the outcomes of FFRangio guided treatment for patients
undergoing angiography for suspected coronary artery disease has reported excellent 1 year
results for both FFRangio guided revascularization as well as deferral [18], but more data is
needed to more appropriately assess the technology in real world patients.
The aim of this multicenter registry is to expand the evidence base on outcomes of FFRangio
guided treatment for coronary artery disease, focusing on outcomes of Japanese patients.
Methods:
A retrospective, multicenter registry of consecutive patients in whom FFRangio is used to
assess the physiologic significance of at least 1 coronary lesion and guide the treatment
decisions .
Inclusion criteria:
• Patients undergoing coronary angiogram for a clinical indication, for whom FFRangio is used
to assess the physiologic significance of at least 1 coronary lesion and guide the treatment
decisions.
Exclusion criteria:
- Culprit lesion of a STEMI (patients undergoing PCI for non-culprit lesions can be
included if the culprit lesion has been successfully treated prior to the non-culprit
PCI
- Presence of significant (moderate+) valvular heart disease
- Chronic total occlusion in one of the coronary arteries
- Isolated significant left main disease
- Prior coronary artery bypass graft surgery
- Clinical presentation of cardiogenic shock or severe LV dysfunction
- Coronary anomalies
Endpoints
Primary endpoint:
• composite of all cause death/myocardial infarction(MI)/repeat revascularization(RR) at 1
year follow up.
Secondary endpoints:
- The individual components of the primary endpoint
- Cardiovascular (CV) death
- Urgent RR (performed as an inpatient during an admission for ACS).
- Target vessel RR
- Target lesion RR
- Target vessel MI
- Target lesion MI
Timing of follow up:
Six and 12 months post procedure (primary analysis will include 1 year data) and yearly
follow up thereafter up to 5 years.
Ascertainment and adjudications of clinical events The clinical endpoints events will be
identified by the participating centres through the patients' electronic medical record and
will be further verified, when possible, by interviews conducted during in person/virtual
outpatient clinic visits and/or telephone follow up.
Sample size Our aim is to include up to 10 high volume FFRangio centres from Japan and Israel
with a goal of reaching a sample size of at least 1,500 patients.
Ethical aspects The study will be approved by the local institutional review boards at each
participating centre. Since there is no intervention in the clinical care given to the
patient, waiver of the need for patient's informed consent will besought from the IRB/EC.
If participating investigators come by patients' personal information ( information on living
individuals that can be used to specific individuals by name, date of birth or other
description), such information shall be treated and protected under strict confidentiality.
Further more participating investigators shall conduct this research in accordance with
ethical principles on the Declaration of Helsinki.
Expected time frame Initiation of registry: Q4 2022 Expected data collection for 1,500
patients: Q2 2023 Initial data analysis: Q3 2023 (median follow up of 6 months for a sample
size of 1,500 patients )
