The AIM-FFR trial is a prospective, multi-center, open-label, randomized controlled, non-inferiority trial. The current trial will evaluate non-inferiority of MPFFR-guided PCI, compared with invasive FFR-guided PCI in patients with coronary artery disease.
Fractional Flow Reserve (FFR) has been established as the gold standard for determining the functional significance of coronary artery stenosis. Current guidelines have classified FFR as a Class IA recommendation for the assessment of intermediate coronary artery lesions. However, FFR remains underused in daily clinical practice, due to requirement for pressure wire use, hyperemia induction, or prolonged procedural time. To overcome these limitations, angiography-derived computation of FFR have been widely adopted as wire-free alternatives. These technologies enable functional assessment of coronary stenosis without pressure wires, providing a less invasive and more comfortable alternative to wire-based FFR. Multiple modalities have shown reasonable diagnostic accuracy to predict FFR≤0.80. Among them, Quantitative Flow Ratio (QFR)-guided percutaneous coronary intervention (PCI) demonstrated superior clinical outcome than angiography-guided PCI. Based on these results, QFR-guided PCI is supported by class 1B recommendation from European Society of Cardiology guideline. Nevertheless, angiography-derived FFR also has limitations, primarily related to the technical and workflow demands of the process. Computation of angiography-derived FFR typically requires vessel segmentation, correspondence marking, and 3-dimensional reconstruction from angiographic images, which are time-consuming and subject to operator-dependent variability. Indeed, recent data shows limitations of angiography-based FFR computation. Study by Ninomiya et al. evaluated five different angiography-derived FFR methods (QFR, vFFR from Pie Medical Imaging, caFFR from Rainmed Ltd, 2D-µFR, and 3D-µFR from Pulse Medical Imaging Technology). Although these angiography-derived FFR methods provided higher discrimination than angiographic stenosis severity to discriminate functionally significant stenosis defined by FFR≤0.80 or instantaneous wave-free ratio≤0.89, the AUC ranged from 0.65 to 0.75. Furthermore, recent FAVOR III Europe trial showed that QFR-guided strategy did not meet non-inferiority to FFR-guided strategy in terms of a composite of death, myocardial infarction, and unplanned revascularization at 12 months. These results support invasive FFR-guided strategy is gold standard method. Recent advances in Artificial Intelligence (AI) have led to development of automated tools for cardiovascular diagnostics, improving both accuracy and workflow efficiency. The AI-driven angiography-based FFR (Medipixel FFR \[MPFFR\]) has been developed utilizing AI-based fully automated quantitative coronary angiography (AI-QCA). MPFFR utilizes automated frame selection, AI-based contouring, and real-time modeling, allowing for rapid and accurate physiological assessment without manual segmentation. In previous validation study conducted in Korea (599 vessels from 452 patients who underwent clinically indicated FFR measurement from 5 university hospitals in Korea), Mean analysis time of MPFFR was 12.5±1.7 seconds and manual correction was needed in 32 vessels (5.3%). MPFFR showed similar diagnostic performance with QFR (correlation with FFR; MPFFR vs. QFR: R=0.885 vs. R=0.860, P for comparison=0.011; area under curve to predict FFR≤0.80; 0.949 vs. 0.953, P for comparison=0.631). At a median follow-up of 2 years (interquartile range, 1.6 to 2.6 years), patients with MPFFR≤0.80 had higher risk of target vessel failure than those with MPFFR\>0.80 (4.5% vs. 0.8%; adjusted HR, 5.94; 95% CI, 1.27-27.91; P=0.024). C-index to predict target vessel failure was comparable between MPFFR and QFR (0.770 vs. 0.753, P for comparison=0.469). However, whether MPFFR-guided PCI can be used in daily practice still needs to be validated by randomized controlled trial using invasive FFR-guided PCI as reference standard. On this background, the current trial aims to compare clinical outcomes between MPFFR-guided PCI and invasive FFR-guided PCI in patients with coronary artery disease.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
2,100
Functionally significant stenosis will be defined as MPFFR≤0.80 or FFR≤0.80. For lesions with MPFFR≤0.80 or FFR≤0.80, PCI will be recommended under current guidelines, however, final decision regarding PCI will be at the discretion of operators. In the MPFFR-guided PCI group, on-site MPFFR value will be used in decision making of revascularization. If PCI is not performed for lesions with MPFFR≤0.80 or FFR≤0.80, the specific reasons will be collected in electronic case report form. For lesions with MPFFR\>0.80 or FFR\>0.80, PCI will be deferred.
Korea University Anam Hospital
Seoul, Select State, South Korea
Major adverse cardiac events (MACE)
a composite of death from any causes, non-fatal myocardial infarction \[MI\], and clinically indicated unplanned revascularization
Time frame: 1 year after last patient enrollment
All-cause death
All-cause death (defined by Academic Research Consortium \[ARC\] II definition)
Time frame: 1 year after last patient enrollment
Cardiovascular death
Cardiovascular death (defined by Academic Research Consortium \[ARC\] II definition)
Time frame: 1 year after last patient enrollment
Non-fatal myocardial infarction (MI)
Non-fatal MI (according to the Fourth universal definition of MI)
Time frame: 1 year after last patient enrollment
Target vessel-related MI
Target vessel-related MI (Target vessel denotes vessels with initially interrogated by MPFFR or invasive FFR)
Time frame: 1 year after last patient enrollment
Non-target vessel-related MI
Non-target vessel-related MI (Target vessel denotes vessels with initially interrogated by MPFFR or invasive FFR)
Time frame: 1 year after last patient enrollment
Clinically indicated unplanned revascularization
Clinically indicated unplanned revascularization (defined by Academic Research Consortium \[ARC\] II definition)
Time frame: 1 year after last patient enrollment
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Inje University Haeundae Paik Hospital
Busan, South Korea
Changwon Fatima Hospital
Changwon, South Korea
Gyeongsang National University Changwon Hospital
Changwon, South Korea
Keimyung University Dongsan Hospital
Daegu, South Korea
Kyungpook National University Hospital
Daegu, South Korea
Chonnam National University Hospital, Chonnam National University Medical School
Gwangju, South Korea
Chung-Ang University Gwangmyeong Hospital
Gwangmyeong, South Korea
CHA Bundang Medical Center
Gyeonggi-do, South Korea
Wonkwang University Hospital
Iksan, South Korea
...and 15 more locations
Clinically indicated target vessel revascularization
Clinically indicated target vessel revascularization (Target vessel denotes vessels with initially interrogated by MPFFR or invasive FFR)
Time frame: 1 year after last patient enrollment
Clinically indicated non-target vessel repeat revascularization
Clinically indicated non-target vessel repeat revascularization (Target vessel denotes vessels with initially interrogated by MPFFR or invasive FFR)
Time frame: 1 year after last patient enrollment
Vessel or Stent thrombosis
Vessel or Stent thrombosis (definite thrombosis defined by Academic Research Consortium \[ARC\] II definition)
Time frame: 1 year after last patient enrollment
Cardiovascular death or target vessel-related MI
A composite of Cardiovascular death or target vessel-related MI
Time frame: 1 year after last patient enrollment
Target vessel failure
Target vessel failure (TVF, a composite of cardiovascular death, target vessel-related MI, and clinically indicated target vessel revascularization)
Time frame: 1 year after last patient enrollment
Bleeding according to BARC definition
Bleeding according to BARC definition
Time frame: 1 year after last patient enrollment
Cerebrovascular accident (CVA)
Cerebrovascular accident (CVA) including ischemic stroke, hemorrhagic stroke, or transient ischemic attack (TIA)
Time frame: 1 year after last patient enrollment
Contrast volume (including both diagnostic angiography and PCI)
Contrast volume (including both diagnostic angiography and PCI)
Time frame: immediately after the intervention/procedure
Procedure time of MPFFR or invasive FFR measurement
Procedure time of MPFFR or invasive FFR measurement
Time frame: immediately after the intervention/procedure
Procedure time including the decision-making time for PCI following coronary angiography
Procedure time including the decision-making time for PCI following coronary angiography
Time frame: immediately after the intervention/procedure
Number of lesions interrogated
Number of lesions interrogated by MPFFR or invasive FFR
Time frame: immediately after the intervention/procedure
Number of used stents or drug-coated balloons
Number of used stents or drug-coated balloons
Time frame: immediately after the intervention/procedure