BACKGROUND: Preservation of luminal area and symmetry in the presence of irregular plaques necessitates local expansion of the artery wall. METHODS AND RESULTS: Cross-sectional dimensions of coronary arteries in 65 patients were measured with the use of intravascular ultrasound. A total of 104 arterial segments were studied, of which 88 had atherosclerosis; 16 served as nonatherosclerotic control segments. Three features of atherosclerotic arterial segments were classified: (1) plaque formation, (2) lumen shape, and (3) shape of arterial external elastic lamina. With our intravascular ultrasound-based three-level classification system, we identified three patterns that accounted for 89% of all atherosclerotic arterial segments: (1) concentric plaque with a circular lumen and a circular external elastic lamina (n= 17), (2) eccentric plaque with a circular lumen and an oval external elastic lamina (n=35), and (3) eccentric plaque with an oval lumen and a circular external elastic lamina (n=26). A circular lumen was preserved in 66% of all atherosclerotic arterial segments. Arterial segments with a circular lumen in the presence of an eccentric plaque had a significantly larger lumen area than the other two main groups (P<.05). CONCLUSIONS: With our intravascular ultrasound-based classification, we provided information regarding the local remodeling response in the coronary artery wall. In a majority of cases, a circular lumen is maintained. Failure of this highly localized response to be operative may contribute to the development of stenotic lesions at a specific site in the artery.
BACKGROUND: Preservation of luminal area and symmetry in the presence of irregular plaques necessitates local expansion of the artery wall. METHODS AND RESULTS: Cross-sectional dimensions of coronary arteries in 65 patients were measured with the use of intravascular ultrasound. A total of 104 arterial segments were studied, of which 88 had atherosclerosis; 16 served as nonatherosclerotic control segments. Three features of atherosclerotic arterial segments were classified: (1) plaque formation, (2) lumen shape, and (3) shape of arterial external elastic lamina. With our intravascular ultrasound-based three-level classification system, we identified three patterns that accounted for 89% of all atherosclerotic arterial segments: (1) concentric plaque with a circular lumen and a circular external elastic lamina (n= 17), (2) eccentric plaque with a circular lumen and an oval external elastic lamina (n=35), and (3) eccentric plaque with an oval lumen and a circular external elastic lamina (n=26). A circular lumen was preserved in 66% of all atherosclerotic arterial segments. Arterial segments with a circular lumen in the presence of an eccentric plaque had a significantly larger lumen area than the other two main groups (P<.05). CONCLUSIONS: With our intravascular ultrasound-based classification, we provided information regarding the local remodeling response in the coronary artery wall. In a majority of cases, a circular lumen is maintained. Failure of this highly localized response to be operative may contribute to the development of stenotic lesions at a specific site in the artery.
Authors: Wisnumurti Kristanto; Peter M A van Ooijen; Marcel J W Greuter; Jaap M Groen; Rozemarijn Vliegenthart; Matthijs Oudkerk Journal: Int J Cardiovasc Imaging Date: 2013-01-17 Impact factor: 2.357
Authors: Wisnumurti Kristanto; Peter M A van Ooijen; Jaap M Groen; Rozemarijn Vliegenthart; Matthijs Oudkerk Journal: Int J Cardiovasc Imaging Date: 2011-04-21 Impact factor: 2.357
Authors: Matheen A Khuddus; Carl J Pepine; Eileen M Handberg; C Noel Bairey Merz; George Sopko; Anthony A Bavry; Scott J Denardo; Susan P McGorray; Karen M Smith; Barry L Sharaf; Steven J Nicholls; Steven E Nissen; R David Anderson Journal: J Interv Cardiol Date: 2010-10-04 Impact factor: 2.279