Automated Algorithm Detecting Physiologic Major Stenosis and Its Relationship With Post-PCI Clinical Outcomes
- Conditions
- Ischemic Heart Disease
- Interventions
- Device: Percutaneous coronary intervention
- Registration Number
- NCT04304677
- Lead Sponsor
- Samsung Medical Center
- Brief Summary
The presence of myocardial ischemia is the most important prognostic indicator in patients with coronary artery disease. Therefore, the purpose of percutaneous coronary intervention (PCI) is to relieve myocardial ischemia caused by the target stenosis. Fractional flow reserve (FFR) is an invasive physiologic index used to define functionally significant coronary stenosis, and its prognostic implications are supported by numerous studies. Contrary to the clear cutoff value and the benefit of FFR in pre-PCI evaluation, there have been various results regarding optimal cut-off values for post-PCI FFR. Nevertheless, the positive association between post-PCI FFR and the risk of future events has been reproduced by several studies.
PCI with stent implantation is basically a local treatment and post-PCI FFR reflects both residual stenosis in the stented segment and remaining disease beyond the stented segment in the target vessel(s).
Therefore, post-PCI FFR alone cannot fully discriminate the degree of contribution of each component. The relative increase of FFR with PCI is determined by the interaction of baseline severity of a target lesion, baseline disease burden of a target vessel, adequacy of PCI and residual disease burden in a target vessel.
However, the most important problem in stratifying patients with better expected post-PCI physiologic results and following clinical outcome would be that there has been no clear method to identify these patients in pre-PCI phase.
In this regard, we hypothesized that the amount of FFR step-up in pre-PCI pullback recording would determine the physiologic nature of target stenosis. For example, stenosis with sufficient step-up of FFR would deserve local treatment with PCI and these lesions would result in higher percent FFR increase, post-PCI FFR, and better clinical outcome than those without sufficient amount of FFR step-up.
For this, we sought to develop automated algorithm to define physiologic major stenosis versus minor stenosis using pre-PCI pullback recording.
- Detailed Description
The current study cohort consisted with 3 cohort. In order to derive and validate the optimal cut-off values of FFR step-up amount for physiologic major vs minor stenosis and for physiologic minor stenosis vs. signal noise, the below 3 cohorts will be used.
1. Derivation cohort of defining the optimal cut off value of FFR step-up amount for physiologic major vs minor stenosis and for physiologic minor stenosis vs. signal noise.
The cohort of no coronary atherosclerosis confirmed by both angiography and intravascular ultrasound will be derived from patients with heart transplantation (NCT02798731).
The cohort of significant focal or diffuse obstructive coronary artery disease with functional significance defined by FFR\<=0.80 will be derived from post-PCI registry of Samsung Medical Center.
2. Internal validation cohort will be post-PCI registry of Samsung Medical Center which enrolled 236 patients who underwent both pre- and post-PCI physiologic assessment after angiographically successful PCI using 2nd generation drug-eluting stent. Among this cohort, 234 patients with available pre-PCI pullback recording will be analyzed.
3. External validation cohort will be COE-PERSPECTIVE registry (NCT01873560) which enrolled patients who underwent PCI for lesions with FFR\<=0.80 and underwent post-PCI physiologic assessment.
Among the 835 patients, 252 patients with available pre-PCI pullback recording will be analyzed.
For the association between physiologic major, minor, or mixed stenosis classified using the optimal cut-off values of FFR step-up amount for physiologic major vs minor stenosis and for physiologic minor stenosis vs. signal noise, the patient level pooled data of both Samsung Medical Center registry and COE-PERSPECTIVE registry will be used.
Recruitment & Eligibility
- Status
- COMPLETED
- Sex
- All
- Target Recruitment
- 486
- any patient meets eligible criteria who underwent PCI with DES followed by invasive physiologic assessment at the index procedure
- any patient who underwent PCI for lesions with pre-PCI FFR<=0.80
- available pre-PCI FFR pullback recording
- available both post-PCI FFR measurement
- unavailable pre-PCI FFR pullback recording
- unavailable post-PCI FFR measurement
- culprit vessel of acute coronary syndrome
- failed achieving TIMI 3 flow at the end of PCI
- left ventricular ejection fraction <30%
- graft vessel
- collateral feeder
- in-stent restenosis
- primary myocardial or valvular heart disease
- in patient whose life expectancy less than 2 years
- visible thrombus of target vessel segment
Study & Design
- Study Type
- OBSERVATIONAL
- Study Design
- Not specified
- Arm && Interventions
Group Intervention Description Pre PCI state Percutaneous coronary intervention The current study will analyze the pre-PCI pullback recording and amount of FFR step-up. The association of the amount of FFR step-up with post-PCI percent FFR increase, post-PCI FFR, and clinical outcome at 2 years will be analyzed
- Primary Outcome Measures
Name Time Method Post-PCI FFR Immediate post-PCI FFR value measured after angiographically successful PCI
Percent FFR increase after PCI Immediate post-PCI (\[Post-PCI FFR - Pre-PCI FFR\]/Pre-PCI FFR \* 100)
- Secondary Outcome Measures
Name Time Method Target Vessel Failure 2 years after index procedure a composite of cardiac death, clinically-driven target vessel-related myocardial infarction, and clinically-driven target vessel revascularization. The target vessel will be defined as the treated vessel with 2nd generation DES which was assessed by post stent fractional flow reserve.
Trial Locations
- Locations (1)
Samsung Medical Center
🇰🇷Seoul, Korea, Republic of