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NCT03795714 Clinical Trial

Association Between IVUS and OCT Parameters and Invasive Physiologic Indices

Ischemic Heart Disease Clinical Trial

Official title:
Intravascular Ultrasound and Optical Coherence Tomography-Defined Optimal Criteria and Plaque Characteristics for Defining the Functional Significance of Coronary Stenoses Using Resting and Hyperemic Physiologic Indices

Clinical Trial Details — Status: Recruiting

Administrative data
NCT number NCT03795714
Other study ID # IVUS2017-11-056-001
Secondary ID
Status Recruiting
Phase
First received
Last updated
Start date November 17, 2017
Est. completion date March 31, 2019

Study information
Verified date January 2019
Source Seoul National University Hospital
Contact Joo Myung Lee, MD, MPH, PhD
Phone 82-10-8884-8439
Email drone80@hanmail.net
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

1. to evaluate diagnostic accuracy and performance of IVUS and OCT-derived quantitative parameters to predict functional significance of stenosis defined using all the available physiologic indices.

2. to explores the association between intravascular imaging-derived plaque characteristics and invasive physiologic indices.

Description:

Given the inherent limitations of coronary angiography to depict the presence of functionally significant epicardial coronary stenosis and discrepancy between angiographic stenosis severity and the presence of myocardial ischemia, invasive physiologic indices such as fractional flow reserve (FFR) or instantaneous wave-free ratio (iFR) has been a standard method to guide decision of revascularization.

Intravascular ultrasound (IVUS) and optical coherence tomography (OCT) are an intracoronary imaging method able to provide information about lumen area, vessel area, plaque burden, and plaque characteristics that can be used for the guidance of revascularization procedure. Several previous studies explored the diagnostic performance of intravascular imaging-defined quantitative parameters to predict functional significance defined by FFR, however, quantitative parameter derived from intravascular imaging showed only moderate diagnostic accuracy and the optimal cut-off value of intravascular imaging-derived minimal lumen area (MLA) or minimal lumen diameter (MLD) were varied according to the patient population, interrogated vessels, and the location of target lesions, suggesting limited clinical relevance of judging functional significance of target stenosis using intravascular imaging alone. Nevertheless, the adoption rate of FFR-guided decision has been limited due to various reasons and intravascular image-guided decision has been still used in substantial proportion of the patients.

Recently, new resting pressure-derived indices including resting full-cycle ratio (RFR) or diastolic pressure ratio (dPR) have been introduced as other substitutes for iFR, which does not require administration of hyperemic agents, therefore, possess more convenient in daily practice. Recent study with the largest sample size demonstrated identical diagnostic property and prognostic implication among iFR, RFR, and dPR. As those resting pressure-derived indices might have more generalizability for daily practice, it is expected to raise the adoption rate of physiologic interrogation. Therefore, understanding the association between all the available physiologic indices and intravascular imaging-derived quantitative and qualitative parameters might be important in clinical decision for patient who underwent invasive coronary angiography.

In this regard, the investigators sought to evaluate diagnostic accuracy and performance of intravascular imaging-derived quantitative parameters to predict functional significance of stenosis defined using all the available physiologic indices and further explores the association between IVUS and OCT-derived plaque characteristics and invasive physiologic indices.

Recruitment information / eligibility
Status Recruiting
Enrollment 166
Est. completion date March 31, 2019
Est. primary completion date January 31, 2019
Accepts healthy volunteers No
Gender All
Age group N/A and older
Eligibility Inclusion Criteria:

- Patients who suspected ischemic heart disease, and underwent invasive physiologic assessment and intravascular ultrasound

Exclusion Criteria:

- Cardiogenic shock

- Graft vessel

- In-stent restenosis

Study Design

Related Conditions & MeSH terms

Intervention

Diagnostic Test:
IVUS or OCT and Invasive physiologic indices
IVUS or OCT measurement in order to evaluate the lesion morphology and stent optimization, and invasive physiologic measurement in order to functional significance of epicardial stenosis

Locations
Country Name City State
Korea, Republic of Samsung Medical Center Seoul
Korea, Republic of Seoul national university hospital Seoul

Sponsors (2)
Lead Sponsor Collaborator
Seoul National University Hospital Samsung Medical Center

Country where clinical trial is conducted

Korea, Republic of, 

Outcome
Type Measure Description Time frame Safety issue
Primary Diagnostic accuracy of percent diameter stenosis assessed by intravascular imaging to predict functional significance assessed by fractional flow reserve (FFR) Diagnostic accuracy of percent diameter stenosis assessed by intravascular imaging to predict functional significance defined by FFR =0.80 During Cardiac Cath
Primary Diagnostic accuracy of percent diameter stenosis assessed by intravascular imaging to predict functional significance assessed by instantaneous wave-free ratio (iFR) Diagnostic accuracy of percent diameter stenosis assessed by intravascular imaging to predict functional significance defined by iFR =0.89 During Cardiac Cath
Primary Diagnostic accuracy of percent diameter stenosis assessed by intravascular imaging to predict functional significance assessed by diastolic pressure ratio (dPR) Diagnostic accuracy of percent diameter stenosis assessed by intravascular imaging to predict functional significance defined by dPR =0.89 During Cardiac Cath
Primary Diagnostic accuracy of percent diameter stenosis assessed by intravascular imaging to predict functional significance assessed by resting full-cycle ratio (RFR) Diagnostic accuracy of percent diameter stenosis assessed by intravascular imaging to predict functional significance defined by RFR =0.89 During Cardiac Cath
Primary Diagnostic accuracy of minimal lumen diameter assessed by intravascular imaging to predict functional significance assessed by FFR Diagnostic accuracy of minimal lumen diameter assessed by intravascular imaging to predict functional significance defined by FFR =0.80 During Cardiac Cath
Primary Diagnostic accuracy of minimal lumen diameter assessed by intravascular imaging to predict functional significance assessed by iFR Diagnostic accuracy of minimal lumen diameter assessed by intravascular imaging to predict functional significance defined by iFR =0.89 During Cardiac Cath
Primary Diagnostic accuracy of minimal lumen diameter assessed by intravascular imaging to predict functional significance assessed by dPR Diagnostic accuracy of minimal lumen diameter assessed by intravascular imaging to predict functional significance defined by dPR =0.89 During Cardiac Cath
Primary Diagnostic accuracy of minimal lumen diameter assessed by intravascular imaging to predict functional significance assessed by RFR Diagnostic accuracy of minimal lumen diameter assessed by intravascular imaging to predict functional significance defined by RFR =0.89 During Cardiac Cath
Primary Diagnostic accuracy of minimal lumen area assessed by intravascular imaging to predict functional significance assessed by FFR Diagnostic accuracy of minimal lumen area assessed by intravascular imaging to predict functional significance defined by FFR =0.80 During Cardiac Cath
Primary Diagnostic accuracy of minimal lumen area assessed by intravascular imaging to predict functional significance assessed by iFR Diagnostic accuracy of minimal lumen area assessed by intravascular imaging to predict functional significance defined by iFR =0.89 During Cardiac Cath
Primary Diagnostic accuracy of minimal lumen area assessed by intravascular imaging to predict functional significance assessed by dPR Diagnostic accuracy of minimal lumen area assessed by intravascular imaging to predict functional significance defined by dPR =0.89 During Cardiac Cath
Primary Diagnostic accuracy of minimal lumen area assessed by intravascular imaging to predict functional significance assessed by RFR Diagnostic accuracy of minimal lumen area assessed by intravascular imaging to predict functional significance defined by RFR =0.89 During Cardiac Cath
Primary Diagnostic accuracy of plaque burden assessed by intravascular imaging to predict functional significance assessed by FFR Diagnostic accuracy of plaque burden assessed by intravascular imaging to predict functional significance defined by FFR =0.80 During Cardiac Cath
Primary Diagnostic accuracy of plaque burden assessed by IVUS to predict functional significance assessed by iFR Diagnostic accuracy of plaque burden assessed by IVUS to predict functional significance defined by iFR =0.89 During Cardiac Cath
Primary Diagnostic accuracy of plaque burden assessed by IVUS to predict functional significance assessed by dPR Diagnostic accuracy of plaque burden assessed by IVUS to predict functional significance defined by dPR =0.89 During Cardiac Cath
Primary Diagnostic accuracy of plaque burden assessed by intravascular imaging to predict functional significance assessed by RFR Diagnostic accuracy of plaque burden assessed by intravascular imaging to predict functional significance defined by RFR =0.89 During Cardiac Cath
Secondary Sensitivity of percent diameter stenosis assessed by intravascular imaging to predict functional significance assessed by FFR Sensitivity of percent diameter stenosis assessed by intravascular imaging to predict functional significance defined by FFR =0.80 During Cardiac Cath
Secondary Sensitivity of percent diameter stenosis assessed by intravascular imaging to predict functional significance assessed by iFR Sensitivity of percent diameter stenosis assessed by intravascular imaging to predict functional significance defined by iFR =0.89 During Cardiac Cath
Secondary Sensitivity of percent diameter stenosis assessed by intravascular imaging to predict functional significance assessed by dPR Sensitivity of percent diameter stenosis assessed by intravascular imaging to predict functional significance defined by dPR =0.89 During Cardiac Cath
Secondary Sensitivity of percent diameter stenosis assessed by intravascular imaging to predict functional significance assessed by RFR Sensitivity of percent diameter stenosis assessed by intravascular imaging to predict functional significance defined by RFR =0.89 During Cardiac Cath
Secondary Sensitivity of minimal lumen diameter assessed by intravascular imaging to predict functional significance assessed by FFR Sensitivity of minimal lumen diameter assessed by intravascular imaging to predict functional significance defined by FFR =0.80 During Cardiac Cath
Secondary Sensitivity of minimal lumen diameter assessed by intravascular imaging to predict functional significance assessed by iFR Sensitivity of minimal lumen diameter assessed by intravascular imaging to predict functional significance defined by iFR =0.89 During Cardiac Cath
Secondary Sensitivity of minimal lumen diameter assessed by intravascular imaging to predict functional significance assessed by dPR Sensitivity of minimal lumen diameter assessed by intravascular imaging to predict functional significance defined by dPR =0.89 During Cardiac Cath
Secondary Sensitivity of minimal lumen diameter assessed by intravascular imaging to predict functional significance assessed by RFR Sensitivity of minimal lumen diameter assessed by intravascular imaging to predict functional significance defined by RFR =0.89 During Cardiac Cath
Secondary Sensitivity of minimal lumen area assessed by intravascular imaging to predict functional significance assessed by FFR Sensitivity of minimal lumen area assessed by intravascular imaging to predict functional significance defined by FFR =0.80 During Cardiac Cath
Secondary Sensitivity of minimal lumen area assessed by intravascular imaging to predict functional significance assessed by iFR Sensitivity of minimal lumen area assessed by intravascular imaging to predict functional significance defined by iFR =0.89 During Cardiac Cath
Secondary Sensitivity of minimal lumen area assessed by intravascular imaging to predict functional significance assessed by dPR Sensitivity of minimal lumen area assessed by intravascular imaging to predict functional significance defined by dPR =0.89 During Cardiac Cath
Secondary Sensitivity of minimal lumen area assessed by intravascular imaging to predict functional significance assessed by RFR Sensitivity of minimal lumen area assessed by intravascular imaging to predict functional significance defined by RFR =0.89 During Cardiac Cath
Secondary Sensitivity of plaque burden assessed by intravascular imaging to predict functional significance assessed by FFR Sensitivity of plaque burden assessed by intravascular imaging to predict functional significance defined by FFR =0.80 During Cardiac Cath
Secondary Sensitivity of plaque burden assessed by intravascular imaging to predict functional significance assessed by iFR Sensitivity of plaque burden assessed by intravascular imaging to predict functional significance defined by iFR =0.89 During Cardiac Cath
Secondary Sensitivity of plaque burden assessed by intravascular imaging to predict functional significance assessed by dPR Sensitivity of plaque burden assessed by intravascular imaging to predict functional significance defined by dPR =0.89 During Cardiac Cath
Secondary Sensitivity of plaque burden assessed by intravascular imaging to predict functional significance assessed by RFR Sensitivity of minimal lumen area assessed by intravascular imaging to predict functional significance defined by RFR =0.89 During Cardiac Cath
Secondary Specificity of percent diameter stenosis assessed by intravascular imaging to predict functional significance assessed by FFR Specificity of percent diameter stenosis assessed by intravascular imaging to predict functional significance defined by FFR =0.80 During Cardiac Cath
Secondary Specificity of percent diameter stenosis assessed by intravascular imaging to predict functional significance assessed by iFR Specificity of percent diameter stenosis assessed by intravascular imaging to predict functional significance defined by iFR =0.89 During Cardiac Cath
Secondary Specificity of percent diameter stenosis assessed by intravascular imaging to predict functional significance assessed by dPR Specificity of percent diameter stenosis assessed by intravascular imaging to predict functional significance defined by dPR =0.89 During Cardiac Cath
Secondary Specificity of percent diameter stenosis assessed by intravascular imaging to predict functional significance assessed by RFR Specificity of percent diameter stenosis assessed by intravascular imaging to predict functional significance defined by RFR =0.89 During Cardiac Cath
Secondary Specificity of minimal lumen diameter assessed by intravascular imaging to predict functional significance assessed by FFR Specificity of minimal lumen diameter assessed by intravascular imaging to predict functional significance defined by FFR =0.80 During Cardiac Cath
Secondary Specificity of minimal lumen diameter assessed by intravascular imaging to predict functional significance assessed by iFR Specificity of minimal lumen diameter assessed by intravascular imaging to predict functional significance defined by iFR =0.89 During Cardiac Cath
Secondary Specificity of minimal lumen diameter assessed by intravascular imaging to predict functional significance assessed by dPR Specificity of minimal lumen diameter assessed by intravascular imaging to predict functional significance defined by dPR =0.89 During Cardiac Cath
Secondary Specificity of minimal lumen diameter assessed by intravascular imaging to predict functional significance assessed by RFR Specificity of minimal lumen diameter assessed by intravascular imaging to predict functional significance defined by RFR =0.89 During Cardiac Cath
Secondary Specificity of minimal lumen area assessed by intravascular imaging to predict functional significance assessed by FFR Specificity of minimal lumen area assessed by intravascular imaging to predict functional significance defined by FFR =0.80 During Cardiac Cath
Secondary Specificity of minimal lumen area assessed by intravascular imaging to predict functional significance assessed by iFR Specificity of minimal lumen area assessed by intravascular imaging to predict functional significance defined by iFR =0.89 During Cardiac Cath
Secondary Specificity of minimal lumen area assessed by intravascular imaging to predict functional significance assessed by dPR Specificity of minimal lumen area assessed by intravascular imaging to predict functional significance defined by dPR =0.89 During Cardiac Cath
Secondary Specificity of minimal lumen area assessed by intravascular imaging to predict functional significance assessed by RFR Specificity of minimal lumen area assessed by intravascular imaging to predict functional significance defined by RFR =0.89 During Cardiac Cath
Secondary Specificity of plaque burden assessed by intravascular imaging to predict functional significance assessed by FFR Specificity of plaque burden assessed by intravascular imaging to predict functional significance defined by FFR =0.80 During Cardiac Cath
Secondary Specificity of plaque burden assessed by intravascular imaging to predict functional significance assessed by iFR Specificity of plaque burden assessed by intravascular imaging to predict functional significance defined by iFR =0.89 During Cardiac Cath
Secondary Specificity of plaque burden assessed by intravascular imaging to predict functional significance assessed by dPR Specificity of plaque burden assessed by intravascular imaging to predict functional significance defined by dPR =0.89 During Cardiac Cath
Secondary Specificity of plaque burden assessed by intravascular imaging to predict functional significance assessed by RFR Specificity of plaque burden assessed by intravascular imaging to predict functional significance defined by RFR =0.89 During Cardiac Cath
Secondary Linear correlation between percent diameter stenosis and FFR Linear regression analysis between percent diameter stenosis and FFR During Cardiac Cath
Secondary Linear correlation between percent diameter stenosis and iFR Linear regression analysis between percent diameter stenosis and iFR During Cardiac Cath
Secondary Linear correlation between percent diameter stenosis and dPR Linear regression analysis between percent diameter stenosis and dPR During Cardiac Cath
Secondary Linear correlation between percent diameter stenosis and RFR Linear regression analysis between percent diameter stenosis and RFR During Cardiac Cath
Secondary Linear correlation between minimal lumen diameter and FFR Linear regression analysis between minimal lumen diameter and FFR During Cardiac Cath
Secondary Linear correlation between minimal lumen diameter and iFR Linear regression analysis between minimal lumen diameter and iFR During Cardiac Cath
Secondary Linear correlation between minimal lumen diameter and dPR Linear regression analysis between minimal lumen diameter and dPR During Cardiac Cath
Secondary Linear correlation between minimal lumen diameter and RFR Linear regression analysis between minimal lumen diameter and RFR During Cardiac Cath
Secondary Linear correlation between minimal lumen area and FFR Linear regression analysis between minimal lumen area and FFR During Cardiac Cath
Secondary Linear correlation between minimal lumen area and iFR Linear regression analysis between minimal lumen area and iFR During Cardiac Cath
Secondary Linear correlation between minimal lumen area and dPR Linear regression analysis between minimal lumen area and dPR During Cardiac Cath
Secondary Linear correlation between minimal lumen area and RFR Linear regression analysis between minimal lumen area and RFR During Cardiac Cath
Secondary Linear correlation between plaque burden and FFR Linear regression analysis between plaque burden and FFR During Cardiac Cath
Secondary Linear correlation between plaque burden and iFR Linear regression analysis between plaque burden and iFR During Cardiac Cath
Secondary Linear correlation between plaque burden and dPR Linear regression analysis between plaque burden and dPR During Cardiac Cath
Secondary Linear correlation between plaque burden and RFR Linear regression analysis between plaque burden and RFR During Cardiac Cath
Secondary Discriminatory function of percent diameter stenosis to predict functional significance assessed by FFR Discriminatory function of percent diameter stenosis to predict functional significance defined by FFR=0.80 During Cardiac Cath
Secondary Discriminatory function of percent diameter stenosis to predict functional significance assessed by iFR Discriminatory function of percent diameter stenosis to predict functional significance defined by iFR=0.89 During Cardiac Cath
Secondary Discriminatory function of percent diameter stenosis to predict functional significance assessed by dPR Discriminatory function of percent diameter stenosis to predict functional significance defined by dPR=0.89 During Cardiac Cath
Secondary Discriminatory function of percent diameter stenosis to predict functional significance assessed by RFR Discriminatory function of percent diameter stenosis to predict functional significance defined by RFR=0.89 During Cardiac Cath
Secondary Discriminatory function of minimal lumen diameter to predict functional significance assessed by FFR Discriminatory function of minimal lumen diameter to predict functional significance defined by FFR=0.80 During Cardiac Cath
Secondary Discriminatory function of minimal lumen diameter to predict functional significance assessed by iFR Discriminatory function of minimal lumen diameter to predict functional significance defined by iFR=0.89 During Cardiac Cath
Secondary Discriminatory function of minimal lumen diameter to predict functional significance assessed by dPR Discriminatory function of minimal lumen diameter to predict functional significance defined by dPR=0.89 During Cardiac Cath
Secondary Discriminatory function of minimal lumen diameter to predict functional significance assessed by RFR Discriminatory function of minimal lumen diameter to predict functional significance defined by RFR=0.89 During Cardiac Cath
Secondary Discriminatory function of minimal lumen area to predict functional significance assessed by FFR Discriminatory function of minimal lumen area to predict functional significance defined by FFR=0.80 During Cardiac Cath
Secondary Discriminatory function of minimal lumen area to predict functional significance assessed by iFR Discriminatory function of minimal lumen area to predict functional significance defined by iFR=0.89 During Cardiac Cath
Secondary Discriminatory function of minimal lumen area to predict functional significance assessed by dPR Discriminatory function of minimal lumen area to predict functional significance defined by dPR=0.89 During Cardiac Cath
Secondary Discriminatory function of minimal lumen area to predict functional significance assessed by RFR Discriminatory function of minimal lumen area to predict functional significance defined by RFR=0.89 During Cardiac Cath
Secondary Discriminatory function of plaque burden to predict functional significance assessed by FFR Discriminatory function of plaque burden to predict functional significance defined by FFR=0.80 During Cardiac Cath
Secondary Discriminatory function of plaque burden to predict functional significance assessed by iFR Discriminatory function of plaque burden to predict functional significance defined by iFR=0.89 During Cardiac Cath
Secondary Discriminatory function of plaque burden to predict functional significance assessed by dPR Discriminatory function of plaque burden to predict functional significance defined by dPR=0.89 During Cardiac Cath
Secondary Discriminatory function of plaque burden to predict functional significance assessed by RFR Discriminatory function of plaque burden to predict functional significance defined by RFR=0.89 During Cardiac Cath
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