A novel mathematical model for growth of capillaries and nutrient supply with application to prediction of osteophyte onset E Bednarczyk, T Lekszycki
Zeitschrift für angewandte Mathematik und Physik 67, 1-14, 2016
36 2016 A comparative investigation of the surface properties of corn-starch-microfibrillated cellulose composite films Z Żołek-Tryznowska, E Bednarczyk, M Tryznowski, T Kobiela
Materials 16 (9), 3320, 2023
6 2023 chondrocytes in vitro systems allowing study of OA E Bednarczyk
International journal of molecular sciences 23 (18), 10308, 2022
6 2022 Evolution of bone tissue based on angiogenesis as a crucial factor: New mathematical attempt E Bednarczyk, T Lekszycki
Mathematics and Mechanics of Solids 27 (6), 976-988, 2022
5 2022 Extension of the virtual cell based assay from a 2-D to a 3-D cell culture model E Bednarczyk, Y Lu, A Paini, S Batista Leite, LA van Grunsven, A Worth, ...
Alternatives to Laboratory Animals 50 (1), 45-56, 2022
3 2022 Effect of micro-cracks on the angiogenesis and osteophyte development during degenerative joint disease EI Bednarczyk, T Lekszycki, W Glinkowski
Computer Assisted Methods in Engineering and Science 24 (3), 149-156, 2018
2 2018 Osteophyte development during osteoarthritis (OA)–consideration of angiogenesis, mechanical loading and tissue microstructure E Bednarczyk, T Lekszycki
Engineering Transactions 64 (4), 533–540, 2016
2 2016 Mathematical model of osteophyte development with the first attempt to identify a biomechanical parameter E Bednarczyk, S Sikora, K Jankowski, Z Żołek-Tryznowska, T Murawski, ...
Continuum Mechanics and Thermodynamics, 1-11, 2024
1 2024 Development and experimental verification of the new WHA sinters intended for kinetic energy projectiles O Goroch, Z Gulbinowicz, M Magier, E Bednarczyk, P Skoczylas, ...
Continuum Mechanics and Thermodynamics 35 (6), 2193-2205, 2023
1 2023 Experimental and numerical study on failure mechanisms of the 7.62 P Zochowski, M Cegła, K Szczurowski, J Mączak, M Bajkowski, ...
Continuum Mechanics and Thermodynamics 35 (4), 1745-1767, 2023
1 2023 Effect of hydrophobic nano-silica content on the surface properties of corn-starch films Z Żołek-Tryznowska, A Jeznach, E Bednarczyk, T Murawski, K Piłczyńska, ...
Industrial Crops and Products 214, 118582, 2024
2024 Mathematical model of osteophyte development with the first attempt to identify a biomechanical parameter Z Żołek-Tryznowska, C Senderowski, Y Lu, E Bednarczyk, S Sikora, ...
Continuum Mechanics and Thermodynamics, 2024
2024 Understanding flat feet: An in-depth analysis of orthotic solutions E Bednarczyk, S Sikora, A Kossobudzka-Górska, K Jankowski, ...
Journal of Orthopaedic Reports, 100250, 2023
2023 Friction welding of tungsten composite core with AA5754 ballistic cup O Goroch, Z Gulbinowicz, E Bednarczyk
Continuum Mechanics and Thermodynamics, 1-20, 2023
2023 Modeling and ballistic tests of selected soft point projectiles in a water medium P Żochowski, D Pacek, E Bednarczyk, M Bajkowski, R Grygoruk, ...
Continuum Mechanics and Thermodynamics, 1-18, 2023
2023 Experimental and numerical study on failure mechanisms of the 7.62 x25 mm FMJ projectile and hyperelastic target material during ballistic impact P Żochowski, M Cegła, K Szczurowski, J Mączak, M Bajkowski, ...
Continuum Mechanics and Thermodynamics 35 (4), 2023
2023 Simplified mathematical modeling of development pathological changes in bone tissue E Bednarczyk, K Barcz, T Lekszycki
Biomechanics 2014: International Conference of the Polish Society of …, 2014
2014 Utilisation of first Polish multifunctional 3D bioprinter BioCloner Desktop for printing hydrogel cell scaffolds in controlled clean environment–case study J KNAP-KOWALSKI, H TWARDZIAK, J MATULSKI, EWA BEDNARCZYK, ...
Effect of changes in microstructure on the growth of blood vessels and the development of osteophytes during osteoarthritis E Bednarczyk, T Lekszycki
OSTEOPHYTES DEVELOPMENT DURING OA-CONSIDERATION ANGIOGENESIS, MECHANICAL LOADING AND TISSUE MICROSTRUCTURE E Bednarczyk, T Lekszycki
Tomasz LekszyckiWarsaw University of Technology, Warsaw Medical University, Warsaw, PolandEmail verificata su wip.pw.edu.pl
