Ureterovesical reimplantation for ureteral deep infiltrating endometriosis: A retrospective study

International audienc

Simulation of pelvic mobility: topology optimisation of ligamentous system

International audienc

Simulation of normal pelvic mobilities in building an MRI-validated biomechanical model

International audienc

Bilan iconographique pour une prise en charge chirurgicale optimale de l’endométriose pelvienne. Imagerie et chirurgie de l’endométriose

International audienc

How to manage peroperative haemorrhage when vaginally treating genital prolapse

International audienc

Intérêt de la fertiloscopie dans la prise en charge de l’infertilité : étude rétrospective, à propos de 262 cas

International audienc

Bloc du nerf pudendal en chirurgie périnéo-vulvaire : étude monocentrique prospective randomisée

International audienc

Chirurgie pour endométriose pelvienne profonde avant fécondation in vitro : pas de bénéfice pour la fertilité ?

International audienc

FE Simulation for the Understanding of the Median Cystocele Prolapse Occurrence

International audienceFemale pelvic organ prolapse is a complex mechanism combining the mechanical behavior of the tissues involved and their geometry defects. The developed approach consists in generating a parametric FE model of the whole pelvic system to analyze the influence of this material and geometric combination on median cystocele prolapse occurrence. In accordance with epidemiological and anatomical literature, the results of the numerical approach proposed show that the geometrical aspects have a stronger influence than material properties. The fascia between the bladder and vagina and paravaginal ligaments are the most important anatomical structures inducing the amplitude of cystocele prolapse. This FE model has also allowed studying the coupled effect, showing a significant influence of the fascia size. The study allows highlighting the origins of the median cystocele prolapse and responds to this major issue of mobility occurrence