Bogdan Kaźmierczak: Difference between revisions

Latest revision as of 10:54, 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

Tudelska K, Markiewicz J, Kochańczyk M, Czerkies M, Prus W, Korwek Z, Abdi A, Błoński S, Kaźmierczak B, Lipniacki T. Information processing in the NF-κB pathway, Scientific Reports 7:15926 (2017) PubMed CrossRef | PDF SuppInfo-PDF SuppCode-BNGL SuppCode-Py

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

@@ Line 1: / Line 1: @@
-<div align="center">'''Ph.D., D.Sc., IPPT Professor'''<!--Associate Professor--></div>
+<div align="center">'''Ph.D., D.Sc. (habilitation), Professor'''<!--Associate Professor--></div>
 ===Contact===
@@ Line 14: / Line 14: @@
 ===Recent publications===
-* <span class="pmbm">Tudelska K</span>, <span class="pmbm">Markiewicz J</span>, <span class="pmbm">Kochańczyk M</span>, <span class="pmbm">Czerkies M</span>, <span class="pmbm">Prus W</span>, <span class="pmbm">Korwek Z</span>, <span class="nopmbm">Abdi A</span>, <span class="pmbm">Błoński S</span>, <span class="pmbm">Kaźmierczak B</span>, <span class="pmbm">Lipniacki T</span>. '''Information processing in the NF-κB pathway''', ''Sci&nbsp;Rep'' (accepted)
+* <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="pmbm">Bialecki S</span>, <span class="pmbm">Kaźmierczak B</span>, <span class="pmbm">Nowicka D</span>, <span class="nopmbm">Tsai J-C</span>. '''Regularity of solutions to a reaction–diffusion equation on the sphere: the Legendre series approach''', ''Math&nbsp;Meth Appl Sci'' <u>40</u>(14):5349–5369 (2017) [http://dx.doi.org/10.1002/mma.4390 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="nopmbm">Bobrowski A</span>, <span class="pmbm">Kaźmierczak B</span>, <span class="nopmbm">Kunze M</span>. '''An averaging principle for fast diffusions in&nbsp;domains separated by semi-permeable membranes''', ''Math Model Meth Appl Sci'' <u>27</u>(4):663–706 (2017) [http://dx.doi.org/10.1142/S0218202517500130 CrossRef] [http://arxiv.org/abs/1603.00494 arXiv]
+* <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="nopmbm">Adimy M</span>, <span class="nopmbm">Chekroun A</span>, <span class="pmbm">Kaźmierczak B</span>. '''Traveling waves in a coupled reaction–diffusion and difference model of hematopoiesis''', ''J&nbsp;Differ Equ'' <u>262</u>(7):4085–4128 (2017) [http://dx.doi.org/10.1016/j.jde.2016.12.009 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">Mahiout&nbsp;LA</span>, <span class="pmbm">Kaźmierczak&nbsp;B</span>, <span class="author">Volpert&nbsp;V</span>. '''Viral infection spreading and mutation in cell culture''', ''Mathematics'' <u>10</u>(2):256 (2022) [https://doi.org/10.3390/math10020256 CrossRef]
+* <span class="author">Bialecki S</span>, <span class="author">Nalecz-Jawecki P</span>, <span class="author">Kazmierczak B</span>, <span class="author">Lipniacki</span>. '''Traveling and standing fronts on&nbsp;curved surfaces''', ''Physica D'' <u>401</u>:132215 (2020) [https://doi.org/10.1016/j.physd.2019.132215 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'' <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">Kazmierczak B</span>, <span class="author">Tsai J-C</span>, <span class="author">Bialecki S</span>. '''The propagation phenomenon of solutions of a&nbsp;parabolic problem on the sphere''', ''Math Model Meth Appl Sci'' <u>28</u>(10):2001–2067 (2018) [http://doi.org/10.1142/S0218202518500483 CrossRef]
+* <span class="author">Białecki S</span>, <span class="author">Kaźmierczak B</span>, <span class="author">Lipniacki T</span>. '''Polarization of concave domains by traveling wave pinning''', ''PLOS One'' <u>12</u>:e0190372 (2017) [http://www.ncbi.nlm.nih.gov/pubmed/29284045 PubMed] [http://dx.doi.org/10.1371/journal.pone.0190372 CrossRef]
+* <span class="pmbm">Tudelska K</span>, <span class="pmbm">Markiewicz J</span>, <span class="pmbm">Kochańczyk M</span>, <span class="pmbm">Czerkies M</span>, <span class="pmbm">Prus W</span>, <span class="pmbm">Korwek Z</span>, <span class="pmbm">Abdi A</span>, <span class="pmbm">Błoński&nbsp;S</span>, <span class="pmbm">Kaźmierczak B</span>, <span class="pmbm">Lipniacki T</span>. '''Information processing in the NF-κB pathway''', ''Scientific&nbsp;Reports'' <u>7</u>:15926 (2017) [http://www.ncbi.nlm.nih.gov/pubmed/29162874 PubMed] [http://doi.org/10.1038/s41598-017-16166-y CrossRef] | [http://www.nature.com/articles/s41598-017-16166-y.pdf PDF] [http://pmbm.ippt.pan.pl/publications/supplementary/Tudelska-2017-SciRep-SuppInfo.pdf SuppInfo-PDF] [http://pmbm.ippt.pan.pl/publications/supplementary/Tudelska-2017-SciRep-SuppDataset1.zip SuppCode-BNGL] [http://pmbm.ippt.pan.pl/publications/supplementary/Tudelska-2017-SciRep-SuppDataset2.zip SuppCode-Py]
+* <span class="pmbm">Bialecki S</span>, <span class="pmbm">Kaźmierczak B</span>, <span class="pmbm">Nowicka D</span>, <span class="pmbm">Tsai J-C</span>. '''Regularity of solutions to a reaction–diffusion equation on the sphere: the Legendre series approach''', ''Math&nbsp;Meth Appl Sci'' <u>40</u>(14):5349–5369 (2017) [http://dx.doi.org/10.1002/mma.4390 CrossRef]
+* <span class="pmbm">Bobrowski A</span>, <span class="pmbm">Kaźmierczak B</span>, <span class="pmbm">Kunze M</span>. '''An averaging principle for fast diffusions in&nbsp;domains separated by semi-permeable membranes''', ''Math Model Meth Appl Sci'' <u>27</u>(4):663–706 (2017) [http://dx.doi.org/10.1142/S0218202517500130 CrossRef] [http://arxiv.org/abs/1603.00494 arXiv]
+* <span class="pmbm">Adimy M</span>, <span class="pmbm">Chekroun A</span>, <span class="pmbm">Kaźmierczak B</span>. '''Traveling waves in a coupled reaction–diffusion and difference model of hematopoiesis''', ''J&nbsp;Differ Equ'' <u>262</u>(7):4085–4128 (2017) [http://dx.doi.org/10.1016/j.jde.2016.12.009 CrossRef]
 * <span class="pmbm">Chatterjee P</span>, <span class="pmbm">Kaźmierczak B</span>. '''Eigenfunction approach to transient patterns in a&nbsp;model of chemotaxis''', ''Math Model Nat Phenom'' <u>11</u>(2):44–62 (2016) [http://dx.doi.org/10.1051/mmnp/201611204 CrossRef]
-* <span class="pmbm">Białecki S</span>, <span class="pmbm">Kaźmierczak B</span>, <span class="nopmbm">Tsai J-C</span>. '''Stationary waves on the sphere''', ''SIAM J Appl Math'' <u>75</u>(4):1761–1788 (2015) [http://dx.doi.org/10.1137/140999384 CrossRef]
+* <span class="pmbm">Białecki S</span>, <span class="pmbm">Kaźmierczak B</span>, <span class="pmbm">Tsai J-C</span>. '''Stationary waves on the sphere''', ''SIAM J Appl Math'' <u>75</u>(4):1761–1788 (2015) [http://dx.doi.org/10.1137/140999384 CrossRef]
 * <span class="pmbm">Szopa P</span>, <span class="pmbm">Dyzma M</span>, <span class="pmbm">Kaźmierczak B</span>. '''Membrane associated complexes in calcium dynamics modelling''', ''Phys&nbsp;Biol'' <u>10</u>(3):035004 (2013) [http://www.ncbi.nlm.nih.gov/pubmed/23735591 PubMed] [http://dx.doi.org/10.1088/1478-3975/10/3/035004 CrossRef]
-* <span class="nopmbm">Crooks E</span>, <span class="pmbm">Kazmierczak B</span>, <span class="pmbm">Lipniacki T</span>. '''A spatially extended model of kinase&ndash;receptor interaction''', ''SIAM&nbsp;J&nbsp;Appl Math'' <u>73</u>(1):374–400 (2013) [http://dx.doi.org/10.1137/110860926 CrossRef]
+* <span class="pmbm">Crooks E</span>, <span class="pmbm">Kazmierczak B</span>, <span class="pmbm">Lipniacki T</span>. '''A spatially extended model of kinase&ndash;receptor interaction''', ''SIAM&nbsp;J&nbsp;Appl Math'' <u>73</u>(1):374–400 (2013) [http://dx.doi.org/10.1137/110860926 CrossRef]
 * <span class="pmbm">Kaźmierczak B</span>, <span class="pmbm">Peradzyński Z</span>. '''Calcium waves with mechano-chemical couplings''', ''Math&nbsp;Biosci Eng'' <u>10</u>(3):743-759 (2013) [http://dx.doi.org/10.3934/mbe.2013.10.743 CrossRef]
-* <span class="nopmbm">El Khatib N</span>, <span class="nopmbm">Genieys S</span>, <span class="pmbm">Kazmierczak B</span>, <span class="nopmbm">Volpert V</span>. '''Reaction&ndash;diffusion model of artherosclerosis development''', ''J&nbsp;Math&nbsp;Biol'' <u>65</u>(2):349-374 (2012) [http://www.ncbi.nlm.nih.gov/pubmed/21858687 PubMed] [http://dx.doi.org/10.1007/s00285-011-0461-1 CrossRef]
+* <span class="pmbm">El Khatib N</span>, <span class="pmbm">Genieys S</span>, <span class="pmbm">Kazmierczak B</span>, <span class="pmbm">Volpert V</span>. '''Reaction&ndash;diffusion model of artherosclerosis development''', ''J&nbsp;Math&nbsp;Biol'' <u>65</u>(2):349-374 (2012) [http://www.ncbi.nlm.nih.gov/pubmed/21858687 PubMed] [http://dx.doi.org/10.1007/s00285-011-0461-1 CrossRef]
-* <span class="nopmbm">Gejji R</span>, <span class="pmbm">Kaźmierczak B</span>, <span class="nopmbm">Alber M</span>. '''Classification and stability of global inhomogeneous solutions of a macroscopic model of cell motion''', ''Math&nbsp;Biosci'' (2012) [http://www.ncbi.nlm.nih.gov/pubmed/22504124 PubMed] [http://dx.doi.org/10.1016/j.mbs.2012.03.009 CrossRef]
+* <span class="pmbm">Gejji R</span>, <span class="pmbm">Kaźmierczak B</span>, <span class="pmbm">Alber M</span>. '''Classification and stability of global inhomogeneous solutions of a macroscopic model of cell motion''', ''Math&nbsp;Biosci'' (2012) [http://www.ncbi.nlm.nih.gov/pubmed/22504124 PubMed] [http://dx.doi.org/10.1016/j.mbs.2012.03.009 CrossRef]
 * <span class="pmbm">Dyzma M</span>, <span class="pmbm">Szopa P</span>, <span class="pmbm">Kaźmierczak B</span>. '''Membrane associated complexes: new approach to calcium dynamics modeling''', ''Math&nbsp;Model Nat Phenom'' <u>7</u>(2):32-50 (2012) [http://dx.doi.org/10.1051/mmnp/20127608 CrossRef]
@@ Line 50: / Line 72: @@
 * <span class="pmbm">Kaźmierczak B</span>, <span class="pmbm">Lipniacki T</span>. '''Spatial gradients in kinase cascade regulation''', ''IET&nbsp;Syst&nbsp;Biol'' <u>4</u>:348-355 (2010) [http://www.ncbi.nlm.nih.gov/pubmed/21073234 PubMed] [http://dx.doi.org/10.1049/iet-syb.2010.0002 CrossRef] | [http://pmbm.ippt.pan.pl/publications/Kazmierczak-2010-IETSystBiol-MS.pdf PDF-ms]
-* <span class="nopmbm">Alber M</span>, <span class="nopmbm">Gejji R</span>, <span class="pmbm">Kaźmierczak B</span>. '''Existence of global solutions of a macroscopic model of cellular motion in a chemotactic field''', ''Appl&nbsp;Math&nbsp;Lett'' <u>22</u>:1645-1648  (2009) [http://dx.doi.org/10.1016/j.aml.2009.05.013 CrossRef]
+* <span class="pmbm">Alber M</span>, <span class="pmbm">Gejji R</span>, <span class="pmbm">Kaźmierczak B</span>. '''Existence of global solutions of a macroscopic model of cellular motion in a chemotactic field''', ''Appl&nbsp;Math&nbsp;Lett'' <u>22</u>:1645-1648  (2009) [http://dx.doi.org/10.1016/j.aml.2009.05.013 CrossRef]
 * <span class="pmbm">Kaźmierczak B</span>, <span class="pmbm">Lipniacki T</span>. '''Regulation of kinase activity by diffusion and feedback''', ''J&nbsp;Theor&nbsp;Biol'' <u>259</u>:291-296 (2009) [http://www.ncbi.nlm.nih.gov/pubmed/19306885 PubMed] [http://dx.doi.org/10.1016/j.jtbi.2009.03.016 CrossRef]
-* <span class="nopmbm">El Khatib N</span>, <span class="nopmbm">Génieys S</span>, <span class="pmbm">Kazmierczak B</span>, <span class="nopmbm">Volpert V</span>. '''Mathematical modelling of atherosclerosis as an inflammatory disease''', ''Philos Transact&nbsp;A Math Phys Eng Sci'' <u>367</u>(1908):4877-86 (2008) [http://www.ncbi.nlm.nih.gov/pubmed/19884184 PubMed] [http://dx.doi.org/10.1098/rsta.2009.0142 CrossRef]
+* <span class="pmbm">El Khatib N</span>, <span class="pmbm">Génieys S</span>, <span class="pmbm">Kazmierczak B</span>, <span class="pmbm">Volpert V</span>. '''Mathematical modelling of atherosclerosis as an inflammatory disease''', ''Philos Transact&nbsp;A Math Phys Eng Sci'' <u>367</u>(1908):4877-86 (2008) [http://www.ncbi.nlm.nih.gov/pubmed/19884184 PubMed] [http://dx.doi.org/10.1098/rsta.2009.0142 CrossRef]
 * <span class="pmbm">Kaźmierczak B</span>. '''Existence of global solutions to a&nbsp;model of chondrogenesis''', ''Math&nbsp;Meth&nbsp;Appl&nbsp;Sci'' <u>32</u>(3):264-283 (2008) [http://dx.doi.org/10.1002/mma.1034 CrossRef]
-* <span class="pmbm">Kaźmierczak B</span>, <span class="nopmbm">Volpert V</span>. '''Calcium waves in systems with immobile buffers as a&nbsp;limit of waves for systems with non zero diffusion''', ''Nonlinearity'' <u>21</u>:71 (2008) [http://dx.doi.org/10.1088/0951-7715/21/1/004 CrossRef]
+* <span class="pmbm">Kaźmierczak B</span>, <span class="pmbm">Volpert V</span>. '''Calcium waves in systems with immobile buffers as a&nbsp;limit of waves for systems with non zero diffusion''', ''Nonlinearity'' <u>21</u>:71 (2008) [http://dx.doi.org/10.1088/0951-7715/21/1/004 CrossRef]
-* <span class="pmbm">Kaźmierczak B</span>, <span class="nopmbm">Volpert V</span>. '''Travelling calcium waves in systems with non diffusing buffers''', ''Math&nbsp;Mod&nbsp;Meth&nbsp;Appl&nbsp;Sci'' <u>18</u>(6):883-912 (2008) [http://dx.doi.org/10.1142/S0218202508002899 CrossRef]
+* <span class="pmbm">Kaźmierczak B</span>, <span class="pmbm">Volpert V</span>. '''Travelling calcium waves in systems with non diffusing buffers''', ''Math&nbsp;Mod&nbsp;Meth&nbsp;Appl&nbsp;Sci'' <u>18</u>(6):883-912 (2008) [http://dx.doi.org/10.1142/S0218202508002899 CrossRef]
-* <span class="nopmbm">Alber M</span>, <span class="nopmbm">Glimm T</span>, <span class="nopmbm">Hentschel HG</span>, <span class="pmbm">Kazmierczak B</span>, <span class="nopmbm">Zhang YT</span>, <span class="nopmbm">Zhu J</span>, <span class="nopmbm">Newman SA</span>. '''The&nbsp;morphostatic limit for a model of skeletal pattern formation in the vertebrate limb''', ''Bull&nbsp;Math&nbsp;Biol'' <u>69</u>:460-483 (2007) [http://www.ncbi.nlm.nih.gov/pubmed/17965922 PubMed] [http://dx.doi.org/10.1007/s11538-007-9264-3 CrossRef]
+* <span class="pmbm">Alber M</span>, <span class="pmbm">Glimm T</span>, <span class="pmbm">Hentschel HG</span>, <span class="pmbm">Kazmierczak B</span>, <span class="pmbm">Zhang YT</span>, <span class="pmbm">Zhu J</span>, <span class="pmbm">Newman SA</span>. '''The&nbsp;morphostatic limit for a model of skeletal pattern formation in the vertebrate limb''', ''Bull&nbsp;Math&nbsp;Biol'' <u>69</u>:460-483 (2007) [http://www.ncbi.nlm.nih.gov/pubmed/17965922 PubMed] [http://dx.doi.org/10.1007/s11538-007-9264-3 CrossRef]
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