BACKGROUND: The survival of heart transplant patients is limited by cardiac allograft vasculopathy (CAV). Intravascular ultrasound (IVUS) and IVUS-derived radiofrequency plaque composition analysis (IVUS-RF) provide further information about the process of coronary atherosclerosis. METHODS: In this study we aimed to assess the time-dependent differences in disease progression in patients with CAV. Fifty-six patients were divided into three groups according to time interval after transplantation (Group I: 1 to 3 months, 18 patients; Group II, 1 to 5 years, 20 patients; Group III: 5 to 15 years, 18 patients). RESULTS: IVUS-RF revealed time-dependent increases in all plaque components. The largest increase was shown for fibrotic, fibrofatty and necrotic tissue between Groups I and II. Dense calcium area increased uniformly in all groups. IVUS-RF-derived plaque type analysis revealed predominantly fibrotic plaques in all groups with a decrease of frequency over time. Fibrolipidic and fibrotic-calcific plaques increased uniformly. High-risk lesions, such as thick-cap fibroatheromas (FAs), increased in Groups I and II and decreased in Group III. Thin-cap FAs were detected only in Group III. CONCLUSIONS: IVUS-RF, as compared with gray-scale IVUS, provides better detailed information about the development of CAV by plaque morphology and composition analysis in different stages after heart transplantation. Serial IVUS-RF analysis in these patients may improve the stratification of heart transplant recipients.
BACKGROUND: The survival of heart transplant patients is limited by cardiac allograft vasculopathy (CAV). Intravascular ultrasound (IVUS) and IVUS-derived radiofrequency plaque composition analysis (IVUS-RF) provide further information about the process of coronary atherosclerosis. METHODS: In this study we aimed to assess the time-dependent differences in disease progression in patients with CAV. Fifty-six patients were divided into three groups according to time interval after transplantation (Group I: 1 to 3 months, 18 patients; Group II, 1 to 5 years, 20 patients; Group III: 5 to 15 years, 18 patients). RESULTS: IVUS-RF revealed time-dependent increases in all plaque components. The largest increase was shown for fibrotic, fibrofatty and necrotic tissue between Groups I and II. Dense calcium area increased uniformly in all groups. IVUS-RF-derived plaque type analysis revealed predominantly fibrotic plaques in all groups with a decrease of frequency over time. Fibrolipidic and fibrotic-calcific plaques increased uniformly. High-risk lesions, such as thick-cap fibroatheromas (FAs), increased in Groups I and II and decreased in Group III. Thin-cap FAs were detected only in Group III. CONCLUSIONS: IVUS-RF, as compared with gray-scale IVUS, provides better detailed information about the development of CAV by plaque morphology and composition analysis in different stages after heart transplantation. Serial IVUS-RF analysis in these patients may improve the stratification of heart transplant recipients.
Authors: Bo Zheng; Akiko Maehara; Gary S Mintz; Tamim M Nazif; Yarden Waksman; Fuyu Qiu; Luz Jaquez; LeRoy E Rabbani; Mark A Apfelbaum; Ziad A Ali; Kate Dalton; Lei Song; Ke Xu; Charles C Marboe; Donna M Mancini; Giora Weisz Journal: Int J Cardiovasc Imaging Date: 2015-09-25 Impact factor: 2.357
Authors: Kozo Okada; William F Fearon; Helen Luikart; Hideki Kitahara; Kyuhachi Otagiri; Shigemitsu Tanaka; Takumi Kimura; Paul G Yock; Peter J Fitzgerald; Alan C Yeung; Hannah A Valantine; Kiran K Khush; Yasuhiro Honda Journal: J Am Coll Cardiol Date: 2016-07-26 Impact factor: 24.094