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Angiogenesis on coronary angiography is a marker for accelerated cardiac allograft vasculopathy as assessed by intravascular ultrasound.
Clinical Transplantation 2017 November
BACKGROUND: Errant neovascularization and coronary artery fistulae (CAF) are frequently observed after cardiac transplantation. The relationship between angiographic neovascularization/CAF and coronary plaque progression is unknown.
METHODS: Angiography and intravascular ultrasound were routinely performed at 4-6 weeks and 1-year post-transplant. Pts were divided into three groups: no angiographic angiogenesis (Group 1), neovascularization only (Group 2), and CAF (Group 3). First-year changes in maximal intimal thickness (MIT), maximal intimal area (MIA), and percent atheroma volume (PAV) were compared between groups.
RESULTS: The 106 pts were included, 40/106 in Group 1, 42/106 in Group 2, and 24/106 in Group 3. Respectively, first-year ΔMIT was 0.14 ± 0.13 mm, 0.32 ± 0.26 mm, and 0.50 ± 0.34 mm, P < .001. ΔMIA was 0.6 ± 0.6 mm2 , 1.7 ± 1.8 mm2 , and 3.0 ± 2.6 mm2 , P < .001. ΔPAV was 2.3 ± 2.5%, 6.0 ± 5.1%, and 9.6 ± 9.0%, P < .001. Rapid plaque progression occurred in 1/40 (2.5%) pts in Group 1, 12/42 (28.6%) in Group 2, and 12/24 (50%) in Group 3, P < .001. Multivariate analysis identified both antithymocyte globulin and presence of CAF as independently associated with rapid plaque progression: OR 0.29 (P = .038) and 4.04 (P = .014).
CONCLUSION: Neovascularization and CAF are commonly present on surveillance angiography after cardiac transplantation and may signify amplified angiogenesis. Their presence is associated with accelerated coronary plaque progression by IVUS.
METHODS: Angiography and intravascular ultrasound were routinely performed at 4-6 weeks and 1-year post-transplant. Pts were divided into three groups: no angiographic angiogenesis (Group 1), neovascularization only (Group 2), and CAF (Group 3). First-year changes in maximal intimal thickness (MIT), maximal intimal area (MIA), and percent atheroma volume (PAV) were compared between groups.
RESULTS: The 106 pts were included, 40/106 in Group 1, 42/106 in Group 2, and 24/106 in Group 3. Respectively, first-year ΔMIT was 0.14 ± 0.13 mm, 0.32 ± 0.26 mm, and 0.50 ± 0.34 mm, P < .001. ΔMIA was 0.6 ± 0.6 mm2 , 1.7 ± 1.8 mm2 , and 3.0 ± 2.6 mm2 , P < .001. ΔPAV was 2.3 ± 2.5%, 6.0 ± 5.1%, and 9.6 ± 9.0%, P < .001. Rapid plaque progression occurred in 1/40 (2.5%) pts in Group 1, 12/42 (28.6%) in Group 2, and 12/24 (50%) in Group 3, P < .001. Multivariate analysis identified both antithymocyte globulin and presence of CAF as independently associated with rapid plaque progression: OR 0.29 (P = .038) and 4.04 (P = .014).
CONCLUSION: Neovascularization and CAF are commonly present on surveillance angiography after cardiac transplantation and may signify amplified angiogenesis. Their presence is associated with accelerated coronary plaque progression by IVUS.
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