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Article Dans Une Revue Current Problems in Cardiology Année : 2024

Optimizing coronary artery opacification and 3D reconstruction from human cadaver hearts in anatomy research

Résumé

Objective: This study seeks to identify the ideal dilution rate of a radiopaque product to optimize the visualization of coronary arteries and their branches within human cadaver hearts. The process involves obtaining images in the anatomy laboratory and subsequently constructing a three-dimensional model.Materials and methods: We utilized 30 human hearts fixed in 10 % formalin (9 females and 21 males) with a mean age of 79 +/- 5 years. The initial experiment, involving the first four hearts (referred to as "group 1"), encountered difficulties in opacifying coronary arteries. In this phase, a probabilistic injection of 20 % Visipaque and 80 % latex, with coronary sinus ostium closure, was performed. The optimal mixture ratio was then determined as 33 % Visipaque and 66 % latex. Recognizing the need for on-site injection at the CT Scan table, this protocol was applied to the subsequent 11 hearts in "group 2." Closure of the coronary sinus was deemed unnecessary. The final 15 hearts, constituting "group 3," revealed that the injection should be gradual, maintaining controlled pressure between 120 and 150 mm Hg. Post-injection, hearts were scanned with the injected coronary arteries using an Optima 660 CT scanner. Two-dimensional images were acquired with parameters set at 64 x 0.625 mm, 100 kV, 300-400 mA, and a rotation of 0.5 s. Subsequently, 3D reconstruction was conducted using Advantage Workstation 4.7 (GE Healthcare) and volume rendering with Volume Viewer software, version 15.Results: Significant differences in the percentage of opacified coronaries were observed among the three groups (p < 0.005). This variation underscores the learning curve and comprehension required before establishing a reliable method. Group 1 (N = 4) demonstrated minimal opacification, group 2 (N = 11) displayed partial opacification, while group 3 (N = 15) achieved 100 % opacification of coronary arteries.Conclusion: The successive experiments culminated in the development of a protocol for CT imaging, enabling accurate three-dimensional reconstruction of the normal anatomy of the main and secondary coronary arteries. Our work is grounded in a series of progressively refined and successful experiments.

Dates et versions

hal-04375263 , version 1 (05-01-2024)

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Misbaou Barry, Mesut Gun, Yuthiline Chabry, Faouzi Trojette, Karen Chardon, et al.. Optimizing coronary artery opacification and 3D reconstruction from human cadaver hearts in anatomy research. Current Problems in Cardiology, 2024, 49 (2), pp.102216. ⟨10.1016/j.cpcardiol.2023.102216⟩. ⟨hal-04375263⟩
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