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Clinical Trial Details — Status: Active, not recruiting

Administrative data

NCT number NCT03030495
Other study ID # IMPACT16453143
Secondary ID
Status Active, not recruiting
Phase
First received
Last updated
Start date December 2016
Est. completion date December 31, 2024

Study information

Verified date April 2024
Source Samsung Medical Center
Contact n/a
Is FDA regulated No
Health authority
Study type Observational [Patient Registry]

Clinical Trial Summary

1. To compare the risk of atherosclerotic lesion progression and subsequent patient-oriented composite outcomes (all-cause mortality, any MI, or any Ischemia-driven repeat revascularization) between deferred lesions with or without over microvascular disease, defined as physiological classification 2. To explore independent predictors of atherosclerotic lesion progression in deferred lesions based on fractional flow reserve-guided strategy and treated by contemporary medical treatment


Description:

The coronary artery system has 3 components with different functions: conductive epicardial coronary arteries, arterioles, and capillaries. When any one of these systems fails, myocardial ischemia can occur. Therefore, the presence of epicardial coronary artery stenosis is not necessarily a prerequisite for ischemic heart disease (IHD). Although it has not been established that microvascular disease is independent of macrovascular disease, clinical studies have consistently shown that the presence of microvascular disease is an independent predictor of poor clinical outcomes, especially in patients with acute myocardial infarction (MI). The pressure-derived fractional flow reserve (FFR) index has become a standard invasive method to evaluate the functional significance of epicardial coronary artery stenosis, and clinical outcomes of FFR-guided percutaneous coronary intervention (PCI) have proven to be better than those of angiography-guided PCI or medical treatment. Although FFR-guided PCI has been reported to improve patient outcomes and FFR is now regarded as the gold-standard invasive method to assess the functional significance of coronary artery stenosis, there is still room for further improvement in the diagnosis and treatment of patients with high FFR. In the FAME II study, 14.6% of the registry arm (FFR > 0.80 and deferral of PCI) experienced persistent angina, and 9.0% of these patients had clinical events during a 2-year follow-up period. Therefore, microvascular assessment using coronary flow reserve (CFR) and the index of microcirculatory resistance (IMR) can provide additional diagnostic and prognostic insights for IHD patients, especially in those with high FFR. Recently, Lee et al. (JACC 2016) investigated clinical outcomes among patients with high-FFR and deferred revascularization, according to physiologic classification using CFR and IMR. Lee et al. firstly presented that 7.0% of patients with high FFR had high IMR and low CFR and were regarded as having overt microvascular disease. Although the proportion of patients with high FFR who had overt microvascular disease was small, Group D had the poorest clinical outcomes during follow-up. The presence of overt microvascular disease was an independent prognostic factor in patients with high FFR. In addition, the presence of overt microvascular disease had additive prognostic value aside from clinical risk factors, with significantly improved discriminant function of the prediction model. These results suggest that the invasive physiologic assessment for microvascular disease combined with CFR and IMR can help identify patients at high risk for future cardiovascular events among those with high FFR. Previous studies have shown that the presence of microvascular disease is associated with a higher risk of cardiovascular events such as cardiac death, MI, or revascularization in patients without flow-limiting epicardial stenosis. Several mechanisms have been proposed for the association of microvascular disease and poor clinical outcomes. In addition to myocardial ischemia, microvascular disease is reported to be associated with endothelial dysfunction and inflammatory activity that precedes intimal thickening, lipid deposition in the macrovascular system, and coronary vasomotor dysfunction. In a study by Dhawan et al., coronary microvascular dysfunction in patients with non-obstructive coronary artery disease was associated with higher serum high-sensitivity C-reactive protein and a higher frequency of thin-cap fibroatheroma. In the Lee et al.'s study, the higher clinical event rates in patients with overt microvascular disease resulted from cardiac death and revascularization rates higher than those of the other groups. These results imply that the presence of overt microvascular disease can induce accentuated atherosclerotic progression and subsequent clinical events including cardiac death and ischemia-driven repeat revascularization. Therefore, the IMaging and Physiologic Predictors of Atherosclerotic Progression in Deferred Lesions with Contemporary Medical Treatment based on Fractional Flow Reserve-guided Strategy (IMPACT-FFR registry) was designed to compare the risk of atherosclerotic plaque progression and subsequent clinical events between deferred lesions with or without over microvascular disease, defined as physiological classification and also to explore independent predictors of atherosclerotic lesion progression in deferred lesions based on fractional flow reserve-guided strategy and treated by contemporary medical treatment.


Recruitment information / eligibility

Status Active, not recruiting
Enrollment 1400
Est. completion date December 31, 2024
Est. primary completion date December 31, 2024
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: - Subject must be = 18 years - Patients suspected with ischemic heart disease - Patients with intermediate degree of stenosis (30-70% stenosis by visual estimation) with fractional flow reserve of >0.80 in major epicardial coronary artery amenable to stent implantation or vessel size=2.5 mm - Patients whose coronary stenosis were evaluated by invasive imaging techniques (intravascular ultrasound and optical coherence tomography) and physiologic assessment (coronary flow reserve, index of microcirculatory resistance, and fractional flow reserve) - Subject is able to verbally confirm understandings of risks, benefits and treatment alternatives of receiving invasive physiologic or imaging evaluation and he/she or his/her legally authorized representative provides written informed consent to any study related procedure Exclusion Criteria: - End-staged renal disease on peritoneal dialysis or hemodialysis (estimated GFR < 15mL/min) - Acute hepatic injury - Cardiogenic shock (systolic blood pressure < 90mmHg or requiring inotropics to maintain blood pressure > 90mmHg) - The patient has a known hypersensitivity or contraindication to any of the following medications: statin, ezetimibe, heparin, aspirin, clopidogrel, prasugrel, ticagrelor - Non-cardiac co-morbid conditions are present with life expectancy <2 year (per site investigator's medical judgment) - Unable to perform invasive imaging study (intravascular ultrasound and optical coherence tomography) or physiologic assessment (coronary flow reserve, index of microcirculatory resistance, and fractional flow reserve)

Study Design


Intervention

Device:
Comprehensive physiologic evaluation
Comprehensive physiologic evaluation using pressure-temperature sensor wire to measure fractional flow reserve, coronary flow reserve, index of microcirculatory resistance
Intravascular imaging devices
Intravascular ultrasound or optical coherence tomography

Locations

Country Name City State
Korea, Republic of Keimyung University Dongsan Medical Center Daegu
Korea, Republic of Inje University Ilsan Paik Hospital Goyang-si
Korea, Republic of Samsung Medical Center Seoul
Korea, Republic of Seoul National University Hospital Seoul

Sponsors (5)

Lead Sponsor Collaborator
Samsung Medical Center Inje University Ilsan Paik Hospital, Keimyung University Dongsan Medical Center, Seoul National University Hospital, Ulsan University Hospital

Country where clinical trial is conducted

Korea, Republic of, 

Outcome

Type Measure Description Time frame Safety issue
Primary patient-oriented composite outcome a composite of all-cause death, MI, any repeat revascularization 24 months
Secondary patient-oriented composite outcome a composite of all-cause death, MI, any repeat revascularization 12 months
Secondary patient-oriented composite outcome a composite of all-cause death, MI, any repeat revascularization 60 months
Secondary All-cause death All-cause death 24 months
Secondary cardiac death cardiac death 24 months
Secondary Target-vessel nonfatal MI Target-vessel nonfatal MI 24 months
Secondary Non-target vessel nonfatal MI Non-target vessel nonfatal MI 24 months
Secondary All-cause nonfatal MI All-cause nonfatal MI 24 months
Secondary Seattle Angina Questionnaires Angina severity measured with Seattle Angina Questionnaires 24 months
Secondary Change in normalized total atheroma volume TAVnormalized = [S (EEM CSA - lumen CSA) / no. of images in pullback images in cohort] X median no. of images in cohort 12 months
Secondary Change in total atheroma volume index Indexed total atheroma volume (TAVi): S(EEM CSA -lumen CSA)/plaque length 12 months
Secondary Change in fibrous cap thickness by OCT Change in fibrous cap thickness by OCT at 12-month 12 months
Secondary Change in Plaque burden at minimum lumen area site Change in Plaque burden at minimum lumen area site at 12-month Plaque burden = (EEM-MLA)/EEM x 100 12 months
Secondary Change in Fractional flow reserve Change in Fractional flow reserve at 12-month 12 months
Secondary Change in coronary flow reserve Change in coronary flow reserve at 12-month 12 months
Secondary Change in index of microcirculatory resistance Change in index of microcirculatory resistance at 12-month 12 months
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