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Related Concept Videos

Imaging Studies for Cardiovascular System III: X-Ray01:20

Imaging Studies for Cardiovascular System III: X-Ray

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The most common cardiovascular diagnostic test is an X-ray. It produces images of the heart, blood vessels, and adjacent structures.
Definition and Purpose
An X-ray, or radiograph, is a non-invasive method that uses ionizing radiation to take images of internal structures. It is mainly used in cardiac imaging to examine the heart, lungs, and major blood vessels, aiming to identify abnormalities in the heart's size, shape, and position, such as heart failure, congenital defects, and vascular...
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Imaging Studies for Cardiovascular System I:Echocardiography01:17

Imaging Studies for Cardiovascular System I:Echocardiography

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Cardiac imaging studies encompass a wide range of noninvasive and minimally invasive techniques designed to visualize the heart's structure and function in detail. One such technique is echocardiography, which uses high-frequency ultrasound waves to produce detailed images of the heart, known as echocardiograms.
Indications: Echocardiography is utilized to diagnose heart failure, valve disorders, and myocardial infarction. It also assesses cardiac structures' size, shape, and motion,...
283
Imaging Studies for Cardiovascular System II:Types of Echocardiography01:20

Imaging Studies for Cardiovascular System II:Types of Echocardiography

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Echocardiography plays a role in assessing cardiac health and detecting heart conditions, with various types providing critical insights for diagnosis and treatment.
Types of Echocardiography
Transthoracic Echocardiography (TTE)
TTE is the most common type of echocardiogram which involves placing a transducer on the patient's chest, emitting sound waves to create heart images. TTE is invaluable for evaluating the heart's size, structure, and motion, making it particularly useful for...
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Optical Coherence Tomography Based Biomechanical Fluid-Structure Interaction Analysis of Coronary Atherosclerosis Progression
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Intravascular Imaging Predictors Associated With Cardiovascular Events After Complex PCIs.

Joo Myung Lee1, Sang Yoon Lee1, Woochan Kwon2

  • 1Division of Cardiology, Department of Internal Medicine, Heart Vascular Stroke Institute, Samsung Medical Center (J.M.L., Sang Yoon Lee, K.H.C., T.K.P., J.H.Y., S.-H.C., H.-C.G., Y.B.S., J.-Y.H.), Sungkyunkwan University School of Medicine, Seoul, Republic of Korea.

Circulation. Cardiovascular Interventions
|February 18, 2025
PubMed
Summary
This summary is machine-generated.

Intravascular imaging helps guide percutaneous coronary intervention (PCI) for complex lesions. Inadequate stent expansion (minimum stent area <5.5 mm²) after PCI significantly increases the risk of target lesion failure.

Keywords:
drug-eluting stentsintravascular ultrasonographyoptical coherence tomographypercutaneous coronary intervention

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Cardiac Magnetic Resonance for the Evaluation of Suspected Cardiac Thrombus: Conventional and Emerging Techniques
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Area of Science:

  • Cardiovascular Medicine
  • Interventional Cardiology
  • Medical Imaging

Background:

  • Intravascular imaging-guided percutaneous coronary intervention (PCI) improves outcomes for complex coronary lesions over angiography-guided PCI.
  • The prognostic significance of suboptimal intravascular imaging findings (stent underexpansion, malapposition, dissection) with modern drug-eluting stents remains unclear.

Purpose of the Study:

  • To evaluate the impact of suboptimal intravascular imaging findings on clinical outcomes after PCI in complex coronary lesions.
  • To determine the prognostic value of minimum stent area (MSA) and other imaging parameters in predicting target lesion failure (TLF).

Main Methods:

  • Analysis of data from the RENOVATE-COMPLEX-PCI trial comparing imaging-guided vs. angiography-guided PCI.
  • Assessment of post-PCI intravascular imaging findings (MSA, stent underexpansion, malapposition, dissection) in 897 nonleft main lesions.
  • Primary endpoint was target lesion failure (TLF), including cardiac death, MI, revascularization, or stent thrombosis.

Main Results:

  • An optimal MSA cutoff of 5.5 mm² was identified; MSA < 5.5 mm² significantly increased TLF risk (4.8% vs. 2.2%).
  • Patients with MSA ≥ 5.5 mm² but suboptimal imaging findings had a numerically increased TLF risk (3.2%).
  • Patients with MSA < 5.5 mm² and suboptimal findings had a significantly increased TLF risk (4.7%).

Conclusions:

  • Inadequate absolute stent expansion (MSA < 5.5 mm²) after intravascular imaging-guided PCI for complex lesions is an independent predictor of higher TLF.
  • Suboptimal post-PCI intravascular imaging findings, including relative stent underexpansion, malapposition, and dissection, appear to contribute to TLF risk.