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Abstract
In this paper we introduce a new method for the registration between preoperative and intraoperative computerized tomography (CT) images used in endovascular interventions for aortic aneurysm repair. The method relies on a 3D finite-element model (FEM) of the aortic centerline reconstructed from preoperative CT scans. Intraoperative 2D fluoroscopic images are used to deform the 3D FEM and align it onto the current aortic geometry. The method was evaluated on clinical datasets for which a reference CT scan was available to evaluate the registration errors made by our method and to compare them with other registration methods based on rigid transformations. Errors were estimated based on the predicted locations of landmarks positioned at different branch ostia. It appeared that our method always reduced the registration errors of at least 20% compared to gold standard 3D rigid registration and permitted to reach a global precision of 3.8 mm and a renal precision of 2.6 mm, which is a significant improvement compatible with surgical specifications. Finally, the major asset of our method is that it only requires one fluoroscopic intraoperative 2D image to perform the 3D non-rigid registration. This would reduce patient irradiation and cut the costs compared to traditional methods.
Highlights
Cardiovascular diseases are one of the first causes of death in industrialized countries, with 45,000 cases per year in the United States related to abdominal aortic aneurysms (AAA) [1].Minimally invasive procedures known as Endovascular Aneurysm Repair (EVAR) procedures are well adapted to the treatment of AAA and are conducted daily in modern hospitals.Stent-grafts are inserted through the femoral artery and are deployed using assistance of 2D angiography and fluoroscopy
Invasive procedures known as Endovascular Aneurysm Repair (EVAR) procedures are well adapted to the treatment of AAA and are conducted daily in modern hospitals
The objective of this study was to introduce and to evaluate our novel non‐rigid registration technique, which is based on a mechanical model
Summary
Cardiovascular diseases are one of the first causes of death in industrialized countries, with 45,000 cases per year in the United States related to abdominal aortic aneurysms (AAA) [1].Minimally invasive procedures known as Endovascular Aneurysm Repair (EVAR) procedures are well adapted to the treatment of AAA and are conducted daily in modern hospitals.Stent-grafts are inserted through the femoral artery and are deployed using assistance of 2D angiography and fluoroscopy. Cardiovascular diseases are one of the first causes of death in industrialized countries, with 45,000 cases per year in the United States related to abdominal aortic aneurysms (AAA) [1]. Invasive procedures known as Endovascular Aneurysm Repair (EVAR) procedures are well adapted to the treatment of AAA and are conducted daily in modern hospitals. Stent-grafts are inserted through the femoral artery and are deployed using assistance of 2D angiography and fluoroscopy. The intraoperative mortality of EVAR is lower (1.5%) than open surgical repair (4.6%) [2]. The aneurysm-related mortality in the long term is similar [3,4]. Sophisticated fenestrated stent grafts have to be used to repair AAA expanding beyond ostia of renal arteries
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