Bogdan Kaźmierczak: Difference between revisions

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===Recent publications===
===Recent publications===


* <span class="author">Mahiout&nbsp;AL</span>, <span class="author">Bessonov&nbsp;N</span>, <span class="author">Kazmierczak&nbsp;B</span>, <span class="author">Sadaka&nbsp;G</span>, <span class="author">Volpert&nbsp;V</span>. '''Infection spreading in cell culture as a reaction-diffusion wave''',  ''ESAIM: Math Model Num Analysis'' 56(3):791–814 (2022) [https://doi.org/10.1051/m2an/2022019 CrossRef]
* <span class="author">Kazmierczak&nbsp;B</span>, <span class="author">Sneyd&nbsp;J</span>, <span class="author">Tsai&nbsp;J-C</span>. '''Effect of buffers with multiple binding sites on calcium waves''', ''Bull&nbsp;Math&nbsp;Biol'' <u>85</u>(1):10 (2023) [https://doi.org/10.1007/s11538-022-01109-0 CrossRef]
 
* <span class="author">Mahiout&nbsp;LA</span>, <span class="author">Bessonov&nbsp;N</span>, <span class="author">Kazmierczak&nbsp;B</span>,<span class="author"> Volpert&nbsp;V</span>. '''Mathematical modeling of respiratory viral infection and applications to SARS-CoV-2 progression''', ''Math&nbsp;Meth&nbsp;Appl&nbsp;Sci'' <u>46</u>(2):1740–1751 (2023) [https://doi.org/10.1002/mma.8606 CrossRef]
 
* <span class="author">Mahiout&nbsp;AL</span>, <span class="author">Bessonov&nbsp;N</span>, <span class="author">Kazmierczak&nbsp;B</span>, <span class="author">Sadaka&nbsp;G</span>, <span class="author">Volpert&nbsp;V</span>. '''Infection spreading in cell culture as a reaction-diffusion wave''',  ''ESAIM: Math Model Numer Anal'' 56(3):791–814 (2022) [https://doi.org/10.1051/m2an/2022019 CrossRef]


* <span class="author">Adimy&nbsp;M</span>, <span class="author">Chekroun&nbsp;A</span>, <span class="author">Kazmierczak&nbsp;B</span>. '''Traveling waves for reaction-diffusion PDE coupled to difference equation with nonlocal dispersal term and time delay''', ''Math Model Nath Phenom'' <u>17</u>:2022021 (2022) [https://doi.org/10.1051/mmnp/2022021 CrossRef]
* <span class="author">Adimy&nbsp;M</span>, <span class="author">Chekroun&nbsp;A</span>, <span class="author">Kazmierczak&nbsp;B</span>. '''Traveling waves for reaction-diffusion PDE coupled to difference equation with nonlocal dispersal term and time delay''', ''Math Model Nath Phenom'' <u>17</u>:2022021 (2022) [https://doi.org/10.1051/mmnp/2022021 CrossRef]
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* <span class="author">Kaźmierczak&nbsp;B</span> &amp; <span class="author">Sneyd&nbsp;J</span>. '''Speed of traveling waves for monotone reaction–diffusion systems as a function of diffusion coefficients''', ''Physica D: Nonlin Phenom'' <u>424</u>:132940 (2021) [https://doi.org/10.1016/j.physd.2021.132940 CrossRef]
* <span class="author">Kaźmierczak&nbsp;B</span> &amp; <span class="author">Sneyd&nbsp;J</span>. '''Speed of traveling waves for monotone reaction–diffusion systems as a function of diffusion coefficients''', ''Physica D: Nonlin Phenom'' <u>424</u>:132940 (2021) [https://doi.org/10.1016/j.physd.2021.132940 CrossRef]


* <span class="author">Chen&nbsp;WC</span>, <span class="author">Kaźmierczak&nbsp;B</span>. '''Traveling waves in quadratic autocatalytic systems with complexing agent''', ''Discrete Contin Dyn Syst–Ser&nbsp;B'' (accepted) [http://dx.doi.org/10.3934/dcdsb.2020364 CrossRef]
* <span class="author">Chen&nbsp;WC</span>, <span class="author">Kaźmierczak&nbsp;B</span>. '''Traveling waves in quadratic autocatalytic systems with complexing agent''', ''Discrete Contin Dyn Syst–Ser&nbsp;B'' <u>26</u>(4):1827–1842 (2021) [http://dx.doi.org/10.3934/dcdsb.2020364 CrossRef]  


* <span class="author">Chatterjee&nbsp;P</span>, <span class="author">Glimm&nbsp;T</span>, <span class="author">Kaźmierczak&nbsp;B</span>. '''Mathematical modeling of chondrogenic pattern formation during limb development: Recent advances in continuous models''', ''Math&nbsp;Biosci'' <u>322</u>:108319 (2020) [https://pubmed.ncbi.nlm.nih.gov/32001201 PubMed] [https://doi.org/10.1016/j.mbs.2020.108319 CrossRef]
* <span class="author">Chatterjee&nbsp;P</span>, <span class="author">Glimm&nbsp;T</span>, <span class="author">Kaźmierczak&nbsp;B</span>. '''Mathematical modeling of chondrogenic pattern formation during limb development: Recent advances in continuous models''', ''Math&nbsp;Biosci'' <u>322</u>:108319 (2020) [https://pubmed.ncbi.nlm.nih.gov/32001201 PubMed] [https://doi.org/10.1016/j.mbs.2020.108319 CrossRef]

Latest revision as of 09:54, 2 May 2023

Ph.D., D.Sc. (habilitation), Professor

Contact

e-mail at ippt.pan.pl: bkazmier
tel.: +48 22 8261280 ext. 450
room: 310

Institute of Fundamental Technological Research
Polish Academy of Sciences
Pawińskiego 5B, 02-106 Warsaw, Poland


Recent publications

  • Kazmierczak B, Sneyd J, Tsai J-C. Effect of buffers with multiple binding sites on calcium waves, Bull Math Biol 85(1):10 (2023) CrossRef
  • Mahiout LA, Bessonov N, Kazmierczak B, Volpert V. Mathematical modeling of respiratory viral infection and applications to SARS-CoV-2 progression, Math Meth Appl Sci 46(2):1740–1751 (2023) CrossRef
  • Mahiout AL, Bessonov N, Kazmierczak B, Sadaka G, Volpert V. Infection spreading in cell culture as a reaction-diffusion wave, ESAIM: Math Model Numer Anal 56(3):791–814 (2022) CrossRef
  • Adimy M, Chekroun A, Kazmierczak B. Traveling waves for reaction-diffusion PDE coupled to difference equation with nonlocal dispersal term and time delay, Math Model Nath Phenom 17:2022021 (2022) CrossRef
  • Mahiout LA, Kaźmierczak B, Volpert V. Viral infection spreading and mutation in cell culture, Mathematics 10(2):256 (2022) CrossRef
  • Bialecki S, Nalecz-Jawecki P, Kazmierczak B, Lipniacki. Traveling and standing fronts on curved surfaces, Physica D 401:132215 (2020) CrossRef
  • Kaźmierczak B & Sneyd J. Speed of traveling waves for monotone reaction–diffusion systems as a function of diffusion coefficients, Physica D: Nonlin Phenom 424:132940 (2021) CrossRef
  • Chen WC, Kaźmierczak B. Traveling waves in quadratic autocatalytic systems with complexing agent, Discrete Contin Dyn Syst–Ser B 26(4):1827–1842 (2021) CrossRef
  • Chatterjee P, Glimm T, Kaźmierczak B. Mathematical modeling of chondrogenic pattern formation during limb development: Recent advances in continuous models, Math Biosci 322:108319 (2020) PubMed CrossRef
  • Kazmierczak B, Tsai J-C, Bialecki S. The propagation phenomenon of solutions of a parabolic problem on the sphere, Math Model Meth Appl Sci 28(10):2001–2067 (2018) CrossRef
  • Białecki S, Kaźmierczak B, Lipniacki T. Polarization of concave domains by traveling wave pinning, PLOS One 12:e0190372 (2017) PubMed CrossRef
  • Bialecki S, Kaźmierczak B, Nowicka D, Tsai J-C. Regularity of solutions to a reaction–diffusion equation on the sphere: the Legendre series approach, Math Meth Appl Sci 40(14):5349–5369 (2017) CrossRef
  • Bobrowski A, Kaźmierczak B, Kunze M. An averaging principle for fast diffusions in domains separated by semi-permeable membranes, Math Model Meth Appl Sci 27(4):663–706 (2017) CrossRef arXiv
  • Adimy M, Chekroun A, Kaźmierczak B. Traveling waves in a coupled reaction–diffusion and difference model of hematopoiesis, J Differ Equ 262(7):4085–4128 (2017) CrossRef
  • Chatterjee P, Kaźmierczak B. Eigenfunction approach to transient patterns in a model of chemotaxis, Math Model Nat Phenom 11(2):44–62 (2016) CrossRef
  • Białecki S, Kaźmierczak B, Tsai J-C. Stationary waves on the sphere, SIAM J Appl Math 75(4):1761–1788 (2015) CrossRef
  • Szopa P, Dyzma M, Kaźmierczak B. Membrane associated complexes in calcium dynamics modelling, Phys Biol 10(3):035004 (2013) PubMed CrossRef
  • Crooks E, Kazmierczak B, Lipniacki T. A spatially extended model of kinase–receptor interaction, SIAM J Appl Math 73(1):374–400 (2013) CrossRef
  • Kaźmierczak B, Peradzyński Z. Calcium waves with mechano-chemical couplings, Math Biosci Eng 10(3):743-759 (2013) CrossRef
  • El Khatib N, Genieys S, Kazmierczak B, Volpert V. Reaction–diffusion model of artherosclerosis development, J Math Biol 65(2):349-374 (2012) PubMed CrossRef
  • Gejji R, Kaźmierczak B, Alber M. Classification and stability of global inhomogeneous solutions of a macroscopic model of cell motion, Math Biosci (2012) PubMed CrossRef
  • Dyzma M, Szopa P, Kaźmierczak B. Membrane associated complexes: new approach to calcium dynamics modeling, Math Model Nat Phenom 7(2):32-50 (2012) CrossRef
  • Hat B, Kaźmierczak B, Lipniacki T. B cell activation triggered by the formation of the small receptor cluster: A computational study, PLoS Comput Biol 7(10):e1000448 (2011) PubMed CrossRef | PDF
  • Szopa P, Lipniacki T, Kaźmierczak B. Exact solutions to a spatially extended model of kinase–receptor interaction, Phys Biol 8(5):055005 (2011) PubMed CrossRef
  • Kaźmierczak B, Peradzyński Z. Calcium waves with fast buffers and mechanical effects, J Math Biol 62:1-38 (2011, e-pub 2010) PubMed CrossRef
  • Kaźmierczak B, Dyzma M. Mechanical effects coupled with calcium waves, Arch Mech 62:121-133 (2010) PDF
  • Kaźmierczak B, Piechór K. Traveling wave solutions of a model of skin pattern formation in a singular case, Math Method Appl Sci 34(3):325–337 (2011; e-pub 2010) CrossRef
  • Kaźmierczak B, Lipniacki T. Spatial gradients in kinase cascade regulation, IET Syst Biol 4:348-355 (2010) PubMed CrossRef | PDF-ms
  • Alber M, Gejji R, Kaźmierczak B. Existence of global solutions of a macroscopic model of cellular motion in a chemotactic field, Appl Math Lett 22:1645-1648 (2009) CrossRef
  • Kaźmierczak B, Lipniacki T. Regulation of kinase activity by diffusion and feedback, J Theor Biol 259:291-296 (2009) PubMed CrossRef
  • El Khatib N, Génieys S, Kazmierczak B, Volpert V. Mathematical modelling of atherosclerosis as an inflammatory disease, Philos Transact A Math Phys Eng Sci 367(1908):4877-86 (2008) PubMed CrossRef
  • Kaźmierczak B. Existence of global solutions to a model of chondrogenesis, Math Meth Appl Sci 32(3):264-283 (2008) CrossRef
  • Kaźmierczak B, Volpert V. Calcium waves in systems with immobile buffers as a limit of waves for systems with non zero diffusion, Nonlinearity 21:71 (2008) CrossRef
  • Kaźmierczak B, Volpert V. Travelling calcium waves in systems with non diffusing buffers, Math Mod Meth Appl Sci 18(6):883-912 (2008) CrossRef
  • Alber M, Glimm T, Hentschel HG, Kazmierczak B, Zhang YT, Zhu J, Newman SA. The morphostatic limit for a model of skeletal pattern formation in the vertebrate limb, Bull Math Biol 69:460-483 (2007) PubMed CrossRef
  • Newman SA, Christley S, Glimm T, Hentschel HG, Kazmierczak B, Zhang YT, Zhu J, Alber M. Multiscale models for vertebrate limb development, Curr Top Dev Biol 81:311-340 (2007) PubMed CrossRef
  • Kazmierczak B, Volpert V. Travelling waves in partially degenerated reaction-diffusion systems, Mathematical Modelling of Natural Phenomena 2:106-125 (2007) CrossRef
  • Kazmierczak B, Volpert V. Calcium waves in systems with immobile buffers as a limit of waves for systems with nonzero diffusion, Nonlinearity 21:71-98 (2007) CrossRef