“…[16][17][18] Indeed, it seems difficult to compare the hemodynamic or clinical performance of different types of endografts between several patient groups, since certain patient-specific factors, e.g., the configuration of the iliac vessels and the level of peripheral occlusive disease, may confound the effect of the endograft's structural differences on limb patency and incidence of migration and endoleaks. [19][20][21][22] Consequently, under this perspective, subtle geometrical models of unusual or complex endograft patterns, such as the cross-limbs configuration [19][20][21] and fenestrated 22 designs, respectively, can be computationally examined, preceding or even inspiring large-scale clinical studies on the same issue. More intriguingly, as modeling techniques evolve, finite element analysis can be performed for direct comparisons of the mechanical stresses and strains acting on a number of commerciallyavailable device components under a variety of angulations, depicting potential advantages or drawbacks between them.…”