BIOMECHANICAL FEMALE PELVIC FLOOR MODEL

Abstract

practise by addressing personalized biomechanical human body models and numerical simulations. For accelerating biomedical simulations into an everyday medical routine, we focus on injury prevention in mother and child during the second phase of the childbirth process, and to avoid pelvic floor disorders caused by the incompatible geometry of the bony pelvis and fetal size. For specific bony pelvis and fetal dimensions, pelvic floor disorders including stress urinary incontinence, urgency urinary incontinence, overactive bladder, pelvic organ prolapse, and fecal or anal incontinence are common