Improved co-registration of ex-vivo and in-vivo cardiovascular magnetic resonance images using heart-specific flexible 3D printed acrylic scaffold combined with non-rigid registration.
John WhitakerRadhouene NejiNicholas ByrneEsther Puyol-AntónRahul K MukherjeeSteven E WilliamsHenry ChubbLouisa O'NeillOrod RazeghiAdam ConnollyKawal RhodeSteven NiedererAndrew KingCory TschabrunnElad AnterReza NezafatMartin J BishopMark O'NeillReza RazaviSébastien RoujolPublished in: Journal of cardiovascular magnetic resonance : official journal of the Society for Cardiovascular Magnetic Resonance (2019)
The pattern of the morphological changes seen between the in-vivo and the ex-vivo LV differs between scar and healthy myocardium. A 3D printed flexible scaffold based on the in-vivo shape of the LV cavity is an effective strategy to minimize morphological changes in the ex-vivo LV. The subsequent non-rigid registration step further improved the co-registration and local comparison between in-vivo and ex-vivo data.