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HOME | SCIENTIFIC LIBRARY | Optical Coherence Tomography

Optical Coherence Tomography

Covering our tracks – optical coherence tomography to assess vascular healing Fate of post-procedural malapposition of everolimus-eluting polymeric bioresorbable scaffold and everolimus-eluting cobalt chromiummetallic stent in human coronary arteries: sequential assessment with optical coherence tomography in ABSORB Japan trial Impact of low tissue backscattering by optical coherence tomography on endothelial function after drug-eluting stent implantation Clinical Impact of OCT Findings During PCI: The CLI-OPCI II Study Pancoronary Plaque Characteristics in STEMI Caused by Culprit Plaque Erosion Versus Rupture: 3-Vessel OCT Study Histopathological validation of optical coherence tomography findings of the coronary arteries Impact of an optical coherence tomography guided approach in acute coronary syndromes: A propensity matched analysis from the international FORMIDABLE-CARDIOGROUP IV and USZ registry Assessment of the coronary calcification by optical coherence tomography

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Original Research2019 Mar 8. [Epub ahead of print]

JOURNAL：JACC Cardiovasc Imaging. Article Link

Spontaneous Coronary Artery Dissection: Pathophysiological Insights From Optical Coherence Tomography

Jackson R, Al-Hussaini A, Adlam D et al. Keywords: intracoronary imaging; optical coherence tomography; spontaneous coronary artery dissection

ABSTRACT

OBJECTIVES - This study used optical coherence tomography to investigate the mechanism of false lumen (FL) formation in spontaneous coronary artery dissection (SCAD) by studying: 1) differences between fenestrated and nonfenestrated SCAD; 2) vasa vasorum density; and 3) light attenuation characteristics of the FL.

BACKGROUND - SCAD is an increasingly recognized cause of acute coronary syndromes, characterized by FL formation and compression of the true lumen (TL). The mechanisms underlying FL formation remain poorly understood.

METHODS - A total of 65 SCAD patients (68 vessels) who underwent acute OCT imaging as part of routine clinical care were included. Images were classified by the absence or presence of a connection (fenestration) between the TL and FL. Indexed measurements of TL stenosis, external elastic lamina (EEL) area, FL area, and light attenuation of the FL were assessed. Vasa vasorum densities of SCAD cases were compared with those in control non-SCAD myocardial infarction cases.

RESULTS - In nonfenestrated cases, there was significantly larger expansion of the EEL area (9.1% vs. -1.9%; p <0.05) and a larger FL area (73.6% vs. 53.2%, respectively; p <0.05) in dissected segments. No significant differences were found between vasa vasorum density in SCAD and those in control subjects. The FL contents were heterogeneous but attenuated less light than whole blood or thrombus (4.28 ± 0.55 mm^-1 vs. 5.08 ± 0.56 mm^-1; p < 0.05; vs. 4.96 ± 0.56 mm^-1; p < 0.05).

CONCLUSIONS - These observational data suggest that the absence of a fenestration leads to increased FL pressure and compression of the TL. Although vasa vasorum may still be implicated in pathogenesis, increased vasa vasorum density could be an epiphenomenon of vascular healing.

Abstract

Recommended Article

Spontaneous Coronary Artery Dissection: Pathophysiological Insights From Optical Coherence Tomography

ABSTRACT