A shell finite element model of the pelvic floor muscles

The pelvic floor gives support to the organs in the abdominal cavity. Using the dataset made public in (Janda et al. J. Biomech. ( 2003 ) 36(6), pp. 749-757), we have reconstructed the geometry of one of the most important parts of the pelvic floor, the levator ani, using NURB surfaces. Once the sur...

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Bibliographic Details
Published in:Computer methods in biomechanics and biomedical engineering 2005-10, Vol.8 (5), p.339-347
Main Authors: d'Aulignac, D., Martins, J.A.C., Pires, E.B., Mascarenhas, T., Jorge, R.M. Natal
Format: Article
Language:English
Subjects:
Computer Simulation
Elasticity
Female
Finite Element Analysis
Humans
Humphrey's model
Models, Biological
Movement - physiology
Muscle Contraction - physiology
Muscle, Skeletal - physiology
Pelvic floor
Pelvis - physiology
Shell finite elements
Stress, Mechanical
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Summary:The pelvic floor gives support to the organs in the abdominal cavity. Using the dataset made public in (Janda et al. J. Biomech. ( 2003 ) 36(6), pp. 749-757), we have reconstructed the geometry of one of the most important parts of the pelvic floor, the levator ani, using NURB surfaces. Once the surface is triangulated, the corresponding mesh is used in a finite element analysis with shell elements. Based on the 3D behavior of the muscle we have constructed a shell that takes into account the direction of the muscle fibers and the incompressibility of the tissue. The constitutive model for the isotropic strain energy and the passive strain energy stored in the fibers is adapted from Humphrey's model for cardiac muscles. To this the active behavior of the skeletal muscle is added. We present preliminary results of a simulation of the levator ani muscle under pressure and with active contraction. This research aims at helping simulate the damages to the pelvic floor that can occur after childbirth.
ISSN:1025-5842
1476-8259
DOI:10.1080/10255840500405378