Search results for: BLOW-OUT FRACTURES

• Static and dynamic modelling blow- out type trauma of orbital wall

  Publication

  • P. Kłosowski
  • A. Skorek
  • M. A. Zmuda Trzebiatowski

  - Year 2014

  Authors of the paper present initial results of finite element analysis of a blow-out type trauma of orbital wall. The research is liked with laboratory tests for the Young’s modulus of bones evaluation. In the finite element analysis the neighbourhood of orbital wall is modelled by triangle thin shell finite elements. In the paper results of nonlinear static and transient dynamic analysis (including damping) are compared. The...

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• Nonlinear dynamic analysis of the pure “buckling” mechanism during blow-out trauma of the human orbit

  Publication

  • M. Zmuda
  • P. Kłosowski
  • A. Skorek
  • K. Żerdzicki
  • P. Lemski
  • M. Koberda

  - Scientific Reports - Year 2020

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• Nonlinear dynamic analysis of the pure “buckling” mechanism during blow-out trauma of the human orbit

  Publication

  • M. A. Zmuda Trzebiatowski
  • P. Kłosowski
  • A. Skorek
  • K. Żerdzicki
  • P. Lemski
  • M. Koberda

  - Scientific Reports - Year 2020

  Considering the interplay between orbital bones and intraorbital soft tissues, commonly accepted patterns of the blow-out type of trauma within the human orbit require more thorough investigation to assess the minimal health-threatening impact value. Two different three-dimensional finite element method (FEM) models of the human orbital region were developed to simulate the pure “buckling” mechanism of orbital wall fracture in...

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• Analysis of the mechanical properties of the eye orbital wall and the numerical nonlinear dynamic analysis of the orbital blow-out trauma type verified by clinical observations

  Projects

  Project manager: prof. dr hab. inż. Paweł Kłosowski   Financial Program Name: OPUS

  Project realized in Structural Mechanics Department according to UMO-2016/23/B/ST8/00115 agreement from 2017-07-26

• Orbital blowout trauma occurring at the workplace – clinical, biomechanical and legal aspects

  Publication

  • A. Skorek
  • P. Kłosowski
  • K. Żerdzicki
  • P. Skorek
  • P. Lemski
  • M. A. Zmuda Trzebiatowski

  - Journal of Pre-Clinical and Clinical Research - Year 2020

  Introduction and objective: Craniofacial injury at the workplace may lead to orbital blowout fractures. The aim of the study is the development of own numerical model of the eye orbit, assessment of the damage zones, and comparing them with clinical examinations. In addition, the current legal status of patients after injuries is presented Material and methods: In laboratory tests performed on bones collected from the upper and...

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• Validation of Hydraulic Mechanism during Blowout Trauma of Human Orbit Depending on the Method of Load Application

  Publication

  • M. A. Zmuda Trzebiatowski
  • P. Kłosowski
  • A. Skorek
  • K. Żerdzicki
  • P. Lemski
  • M. Koberda

  - Applied Bionics and Biomechanics - Year 2021

  The more we know about mechanisms of the human orbital blowout type of trauma, the better we will be able to prevent them in the future. As long as the buckling mechanism’s veracity is not in doubt, the hydraulic mechanism is not based on equally strong premises. To investigate the correctness of the hydraulic mechanism’s theory, two different methods of implementation of the hydraulic load to the finite element method (FEM) model...

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