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Location- and layer-dependent biomechanical and microstructural characterisation of the porcine urinary bladder wall

Robin Trostorf, Enrique Morales‐Orcajo, Tobias Siebert, Markus Böl

2020Journal of the mechanical behavior of biomedical materials/Journal of mechanical behavior of biomedical materials18 citationsDOIOpen Access PDF

Abstract

The knowledge of the mechanical properties of the urinary bladder wall helps to explain its storage and micturition functions in health and disease studies; however, these properties largely remain unknown, especially with regard to its layer-specific characteristics and microstructure. Consequently, this study entails the assessment of the layer-specific differences in the mechanical properties and microstructure of the bladder wall, especially during loading. Accordingly, ninety-two (n=92) samples of porcine urinary bladder walls were mechanically and histologically analysed. Generally, the bladder wall and different tissue layers exhibit a non-linear stress-stretch relationship. In this study, the load transfer mechanisms were not only associated with the wavy structure of muscular and mucosal layers, but also with the entire bladder wall microstructure. Contextually, an interplay between the mucosal and muscular layers could be identified. Therefore, depending on the region and direction, the mucosal layer exhibited a stiffer mechanical response to equi-biaxial loading than that offered by the muscular layer when deformed to stretch levels higher than λ=1.6 to λ=2.2. For smaller stretches, the mucosal layer evinces no significant mechanical reaction, while the muscular layer bears the load. Owing to the orientation of its muscle fibres, the muscular layer shows an increased degree of anisotropy compared to the mucosal layer. Furthermore, the general incompressibility assumption is analysed for different layers by measuring the change in thickness during loading, which indicated a small volume loss.

Topics & Concepts

MicrostructureLayer (electronics)Urinary bladderMuscular layerMaterials scienceAnisotropyUrinationUrinary systemAnatomyComposite materialMedicineUrologyOpticsPhysicsUrological Disorders and TreatmentsTissue Engineering and Regenerative MedicinePelvic floor disorders treatments
Location- and layer-dependent biomechanical and microstructural characterisation of the porcine urinary bladder wall | Litcius