Year 2022

• Polynomial Chaos Expansion in Bio-and Structural Mechanics

  Publication

  • K. Szepietowska

  - Year 2022

  This monograph presents a probabilistic approach to modelling the mechanics of materials and structures where the modelled performance is influenced by uncertainty in the input parameters. The work is interdisciplinary and the methods described are applied to medical and civil engineering problems. The motivation for this work was the necessity of mechanics-based approaches in the modelling and simulation of implants used in the...

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Year 2018

• Global sensitivity analysis of membrane model of abdominal wall with surgical mesh

  Publication

  • K. Szepietowska
  • I. Lubowiecka
  • B. Magnain
  • E. Florentin

  - Year 2018

  The paper addresses the issue of ventral hernia repair. Finite Element simulations can be helpful in the optimization of hernia parameters. A membrane abdominal wall model is proposed in two variants: a healthy one and including hernia defect repaired by implant. The models include many uncertainties, e.g. due to variability of abdominal wall, intraabdominal pressure value etc. Measuring mechanical properties with high accuracy...

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• Membrane model of human abdominal wall. Simulations vs. in vivo measurements

  Publication

  • I. Lubowiecka
  • A. Tomaszewska
  • K. Szepietowska
  • C. K. Szymczak (formerly: C. Szymczak)
  • M. Lichodziejewska-Niemierko
  • M. Chmielewski

  - Year 2018

  The study presents a methodology of defining a numerical model of human abdominal wall based on the experimentally registered data of the abdomen geometry due to variations of the intraabdominal pressure. The abdominal wall is modelled here as a simple homogeneous membrane structure made of linear orthotropic material The displacements registered during the increase of pressure are compared with the re-sults of the model static...

• Polynomial Chaos Expansion in Bio- and Structural Mechanics

  Publication

  • K. Szepietowska

  - Year 2018

  This thesis presents a probabilistic approach to modelling the mechanics of materials and structures where the modelled performance is influenced by uncertainty in the input parameters. The work is interdisciplinary and the methods described are applied to medical and civil engineering problems. The motivation for this work was the necessity of mechanics-based approaches in the modelling and simulation of implants used in the repair...

• Sensitivity analysis based on non-intrusive regression-based polynomial chaos expansion for surgical mesh modelling

  Publication

  • K. Szepietowska
  • B. Magnain
  • I. Lubowiecka
  • E. Florentin

  - STRUCTURAL AND MULTIDISCIPLINARY OPTIMIZATION - Year 2018

  The modelling of a system containing implants used in ventral hernia repair and human tissue suffers from many uncertainties. Thus, a probabilistic approach is needed. The goal of this study is to define an efficient numerical method to solve non-linear biomechanical models supporting the surgeon in decisions about ventral hernia repair. The model parameters are subject to substantial variability owing to, e.g., abdominal wall...

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Year 2017

• Regression points in non-intrusive polynomial chaos expansion method and D-optimal design

  Publication

  • K. Szepietowska
  • B. Magnain
  • I. Lubowiecka
  • E. Florentin

  - Machine Dynamics Research - Year 2017

  The paper addresses selected issues of uncertainty quantification in the modelling of a system containing surgical mesh used in ventral hernia repair. Uncertainties in the models occur e.g. due to variability of abdominal wall properties among others. In order to include them, a non-intrusive regression-based polynomial chaos expansion method is employed. Its accuracy depends on the choice of regression points. In the study a relation...

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• Two-criteria optimisation problem for ventral hernia repair

  Publication

  • C. K. Szymczak (formerly: C. Szymczak)
  • I. Lubowiecka
  • K. Szepietowska
  • A. Tomaszewska

  - COMPUTER METHODS IN BIOMECHANICS AND BIOMEDICAL ENGINEERING - Year 2017

  Two-criteria optimisation problem related to laparoscopic ventral hernia repair is formulated in this paper. An optimal implant from a given set and its orientation is sought. The implant is subjected to kinematic extortions due to a patient’s body movement and intra-abdominal pressure. The first criterion of the optimisation problem deals with the reaction force in the implant fastener, while the deflection of the implant constitutes...

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