<p>n = number of preparations examined.</p>*<p>p<0.05 vs normal segments.</p>†<p>p<0.05 vs white plaques.</p
ObjectivesThis study was carried out to detect vulnerable coronary plaques by color fluorescent angi...
<p>A: White plaque imaged by conventional angioscopy (arrow). A-1: By CFA, the same plaque exhibits ...
<p>Scanning the luminal surface of a white plaque in a 61-year old man who died of chronic kidney di...
<p>n = number of preparations examined. NC(−) : necrotic core absent. NC(+): necrotic core present.<...
*<p>p<0.05 vs spotty type.</p>†<p>p<0.05 vs yellow plaques.</p>‡<p>p<0.05 vs normal segments. Denomi...
*<p>p<0.05 vs superficial layer deposition. †p<0.05 vs NC(+). NC(−): necrotic core absent. NC(+): ne...
Oxidized low-density lipoprotein (oxLDL) plays a key role in the formation of atherosclerotic plaque...
*<p>p<0.05 vs Lipids. LDL deposition was examined by transected surface scan by CFM.</p
<p>Luminal surface scanning (a). The % incidence of oxLDL in yellow plaques was higher than those in...
OBJECTIVES: Oxidized low-density lipoprotein (oxLDL) plays a key role in the formation of atheroscle...
<p>Normal segments, white plaques and yellow plaques were classified by conventional angioscopy usin...
Low-density lipoprotein (LDL) is an important risk factor for coronary artery disease. However, its ...
OBJECTIVES: Low-density lipoprotein (LDL) is an important risk factor for coronary artery disease. H...
<p>Scanning of the luminal surface by CFM after administration of NB, showing (A) spotty type deposi...
<p>OxLDL fluoresced violet with “A”-imaging (a) and reddish-brown with “B”-imaging (b) when excited ...
ObjectivesThis study was carried out to detect vulnerable coronary plaques by color fluorescent angi...
<p>A: White plaque imaged by conventional angioscopy (arrow). A-1: By CFA, the same plaque exhibits ...
<p>Scanning the luminal surface of a white plaque in a 61-year old man who died of chronic kidney di...
<p>n = number of preparations examined. NC(−) : necrotic core absent. NC(+): necrotic core present.<...
*<p>p<0.05 vs spotty type.</p>†<p>p<0.05 vs yellow plaques.</p>‡<p>p<0.05 vs normal segments. Denomi...
*<p>p<0.05 vs superficial layer deposition. †p<0.05 vs NC(+). NC(−): necrotic core absent. NC(+): ne...
Oxidized low-density lipoprotein (oxLDL) plays a key role in the formation of atherosclerotic plaque...
*<p>p<0.05 vs Lipids. LDL deposition was examined by transected surface scan by CFM.</p
<p>Luminal surface scanning (a). The % incidence of oxLDL in yellow plaques was higher than those in...
OBJECTIVES: Oxidized low-density lipoprotein (oxLDL) plays a key role in the formation of atheroscle...
<p>Normal segments, white plaques and yellow plaques were classified by conventional angioscopy usin...
Low-density lipoprotein (LDL) is an important risk factor for coronary artery disease. However, its ...
OBJECTIVES: Low-density lipoprotein (LDL) is an important risk factor for coronary artery disease. H...
<p>Scanning of the luminal surface by CFM after administration of NB, showing (A) spotty type deposi...
<p>OxLDL fluoresced violet with “A”-imaging (a) and reddish-brown with “B”-imaging (b) when excited ...
ObjectivesThis study was carried out to detect vulnerable coronary plaques by color fluorescent angi...
<p>A: White plaque imaged by conventional angioscopy (arrow). A-1: By CFA, the same plaque exhibits ...
<p>Scanning the luminal surface of a white plaque in a 61-year old man who died of chronic kidney di...
DOI
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