- 作者:Francesco Sturlaa ; francesco.sturla@polimi.it" class="auth_mail" title="E-mail the corresponding author ; Mattia Ronzonia ; Mattia Vitalia ; Annalisa Dimasia ; Riccardo Vismaraa ; Georgia Preston-Maherb ; Gaetano Burriescib ; Emiliano Vottaa ; Alberto Redaellia
- 关键词:AR ; aortic root ; AS ; aortic stenosis ; AV ; aortic valve ; AVA ; aortic valve area ; CAS ; calcific aortic stenosis ; FE ; finite element ; RC ; commissural radial stent coordinate ; Rmid ; radial stent coordinate close to leaflets belly ; TAVI ; transcatheter aortic valve implantation ; εr ; radial strain ; εθ ; circumferential strain ; σI ; maximum principal stress ; σVM ; Von Mises stress
- 刊名:Journal of Biomechanics
- 出版年:2016
- 出版时间:16 August 2016
- 年:2016
- 卷:49
- 期:12
- 页码:2520-2530
- 全文大小:11538 K
Numerical results highlighted the dependency on the specific calcification pattern of the “dog–boning” of the stent. Also, local stent distortions were associated with leaflet calcifications, and led to localized gaps between the TAVI stent and the aortic tissues, with potential implications in terms of paravalvular leakage. High stresses were found on calcium deposits, which may be a risk factor for stroke; their magnitude and the extent of the affected regions substantially increased for the case of an “arc–shaped” calcification, running from commissure to commissure. Moreover, high stresses due to the interaction between the aortic wall and the leaflet calcifications were computed in the annular region, suggesting an increased risk for annular damage.
Our analyses suggest a relation between the alteration of the stresses in the native anatomical components and prosthetic implant with the presence and distribution of relevant calcifications. This alteration is dependent on the patient-specific features of the calcific aortic stenosis and may be a relevant indicator of suboptimal TAVI results.