AIMS: To investigate the extent and the circumferential distribution of the neointima tissue developed following an Absorb bioresorbable vascular scaffold (BVS) implantation. METHODS AND RESULTS: Twenty-three patients who were treated with the Absorb BVS and had optical coherence tomographic examination after scaffold implantation, at six-month and at two-year follow-up, were included in the current analysis. The lumen and the scaffold borders were detected and the circumferential thickness of the neointima was measured at one degree intervals. The symmetry of the neointima was defined as: minimum/maximum thickness. The lumen area was decreased at six months compared to baseline but it did not change between six-month and two-year follow-up (baseline: 7.49 [6.13-8.00] mm², six months: 6.31 (4.75-7.06) mm², two years: 6.01 [4.67-7.11] mm², p=0.373). However, the mean neointima thickness (six months: 189 [173-229] m, two years: 258 [222-283] m, p<0.0001) and the symmetry index of the neointima (six months: 0.06 [0.02-0.09], two years: 0.27 [0.24-0.36], p<0.0001) were increased at two years. Full circumferential coverage of the vessel wall by neointima tissue was seen in 91% of the studied frames at two years. CONCLUSIONS: This study demonstrates that after an Absorb BVS implantation neointima tissue develops that covers almost the whole circumference of the vessel wall. In contrast to the metallic stents, the neointima tissue does not compromise the luminal dimensions. Further research is required to evaluate the neointimal characteristics and assess the potential value of the device in passivating high-risk plaques.
AIMS: To investigate the extent and the circumferential distribution of the neointima tissue developed following an Absorb bioresorbable vascular scaffold (BVS) implantation. METHODS AND RESULTS: Twenty-three patients who were treated with the Absorb BVS and had optical coherence tomographic examination after scaffold implantation, at six-month and at two-year follow-up, were included in the current analysis. The lumen and the scaffold borders were detected and the circumferential thickness of the neointima was measured at one degree intervals. The symmetry of the neointima was defined as: minimum/maximum thickness. The lumen area was decreased at six months compared to baseline but it did not change between six-month and two-year follow-up (baseline: 7.49 [6.13-8.00] mm², six months: 6.31 (4.75-7.06) mm², two years: 6.01 [4.67-7.11] mm², p=0.373). However, the mean neointima thickness (six months: 189 [173-229] m, two years: 258 [222-283] m, p<0.0001) and the symmetry index of the neointima (six months: 0.06 [0.02-0.09], two years: 0.27 [0.24-0.36], p<0.0001) were increased at two years. Full circumferential coverage of the vessel wall by neointima tissue was seen in 91% of the studied frames at two years. CONCLUSIONS: This study demonstrates that after an Absorb BVS implantation neointima tissue develops that covers almost the whole circumference of the vessel wall. In contrast to the metallic stents, the neointima tissue does not compromise the luminal dimensions. Further research is required to evaluate the neointimal characteristics and assess the potential value of the device in passivating high-risk plaques.
Authors: Christos V Bourantas; Hector M Garcia-Garcia; Carlos A M Campos; Yao-Jun Zhang; Takashi Muramatsu; Marie-Angèle Morel; Shimpei Nakatani; Xingyu Gao; Yun-Kyeong Cho; Yuki Isibashi; Frank J H Gijsen; Yoshinobu Onuma; Patrick W Serruys Journal: Int J Cardiovasc Imaging Date: 2014-01-24 Impact factor: 2.357
Authors: Chinmay Khandkar; Mahesh V Madhavan; James C Weaver; David S Celermajer; Keyvan Karimi Galougahi Journal: Cells Date: 2021-04-10 Impact factor: 6.600