Rok 2023

• Debonding of coin-shaped osseointegrated implants: Coupling of experimental and numerical approaches

  Publikacja

  • Y. Hériveaux
  • S. Le Cann
  • K. Immel
  • E. Vennat
  • V. Nguyen
  • V. Brailovski
  • P. Karasinski
  • R. Sauer
  • G. Haiat

  - Journal of the Mechanical Behavior of Biomedical Materials - Rok 2023

  While cementless implants are now widely used clinically, implant debonding still occur and is difficult to anticipate. Assessing the biomechanical strength of the bone–implant interface can help improving the understanding of osseointegration phenomena and thus preventing surgical failures. A dedicated and standardized implant model was considered. The samples were tested using a mode III cleavage device to assess the mechanical...

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Rok 2022

• Diatomaceous earth as a drug-loaded carrier in a glass-ionomer cement

  Publikacja

  • M. Łępicka
  • M. Rodziewicz
  • M. Kawalec
  • K. Nowicka
  • Y. Tsybrii
  • J. K. Kurzydłowski

  - Journal of the Mechanical Behavior of Biomedical Materials - Rok 2022

  The effect of a natural filler (diatomaceous earth [DE], a promising drug-delivery agent) and its content was investigated on the performance of a model glass-ionomer cement (GIC). Three sample series, differing in DE content (0, 2.5 and 5 wt%), were prepared using a commercial GIC as a matrix (3M Ketac Molar Easymix). The resultant surface microhardness and roughness, wear performance, and compressive strength of the samples were...

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• Deformable model of a butterfly in motion on the example of Attacus atlas

  Publikacja

  • Z. Kunicka-Kowalska
  • M. Landowski
  • K. Sibilski

  - Journal of the Mechanical Behavior of Biomedical Materials - Rok 2022

  Insect wings can undergo significant chordwise (camber) as well as spanwise (twist) deformation during flapping flight but the effect of these deformations is not well understood. The shape and size of butterfly wings leads to particularly large wing deformations, making them an ideal test case for investigation of these effects. High-speed videogrammetry was used to capture the wing kinematics and deformations. The movements of...

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• A novel in vivo approach to assess strains of the human abdominal wall under known intraabdominal pressure

  Publikacja

  • I. Lubowiecka
  • K. Szepietowska
  • A. Tomaszewska
  • P. M. Bielski
  • M. Chmielewski
  • M. Lichodziejewska-Niemierko
  • C. K. Szymczak

  - Journal of the Mechanical Behavior of Biomedical Materials - Rok 2022

  The study concerns mechanical behaviour of a living human abdominal wall. A better mechanical understanding of a human abdominal wall and recognition of its material properties is required to find mechanically compatible surgical meshes to significantly improve the treatment of ventral hernias. A non-invasive methodology, based on in vivo optical measurements is proposed to determine strains of abdominal wall corresponding to...

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Rok 2020

• The mechanical properties and bactericidal degradation effectiveness of tannic acid-based thin films for wound care

  Publikacja

  • B. Kaczmarek
  • M. Wekwejt
  • K. Nadolna
  • A. Owczarek
  • O. Mazur
  • A. Pałubicka

  - Journal of the Mechanical Behavior of Biomedical Materials - Rok 2020

  The surface area is the most important aspect when considering the interactions between a material and the surrounding environment. Chitosan (CTS) and tannic acid (TA) were previously successfully tested by us to obtain thin films to serve as wound dressings or food packaging materials. However, surface properties as well as the antimicrobial activity of the material were not considered. They are important if the material is likely...

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