ECMTB 2011

Accepted mini-symposia:

(abstracts of talks at accepted mini-symposia should be submitted by March 15-th)

	Mini-symposium Title	Chair/Organizers	Affilliation
1.	Vector-borne diseases	Ben Adams	Department of Mathematical Sciences, University of Bath, UK

2.	Modelling dengue fever epidemiology	Maíra Aguiar	Centro de Matemática e Aplicações Funamentais (CMAF), Lisbon University, Lisbon, Portugal
		Bob Kooi
		Nico Stollenwerk
		Ezio Venturino

3.	Recent developments in the study of Lotka-Volterra and Kolmogorov systems	Stephen Baigent	UCL

4.	Connecting microscale and macroscale models of cellular migration	Ruth Baker	University of Oxford
4.		Matthew Simpson	Queensland University of Technology

5.	The emergence of resistance in cancer using mathematical modelling	David Basanta	Moffitt Cancer Center

6.	Modeling physiological systems: model validation and experimental design issues	Jerry Batzel	University of Graz Institute for Mathematics and Scientific Computing
6.		Mette Olufsen	Department of Mathematics, North Carolina State University

7.	Ecology and evolution of infectious diseases	Barbara Boldin	Faculty of Mathematics, Natural Sciences and Technology, University of Primorska
7.	Ecology and evolution of infectious diseases	Eva Kisdi	Department of Mathematics and Statistics, University of Helsinki

8.	Game theoretical modelling and optimization in evolution and ecology	Mark Broom	Centre for Mathematical Science, City University
8.		Krzysztof Argasinski	Department of Mathematics, University of Sussex

9.	Multiscale modeling of biological systems: from physical tools to applications in cancer modeling. I	Arnaud Chauviere	University of New Mexico
		Haralampos Hatzikirou	University of New Mexico
		John Lowengrub	University of California - Irvine

10.	Multiscale modeling of biological systems: from physical tools to applications in cancer modeling. II	Arnaud Chauviere	University of New Mexico
		Haralampos Hatzikirou	University of New Mexico
		John Lowengrub	University of California - Irvine

11.	Plants, growth and transport processes I	Andrés Chavarría-Krauser	University of Heidelberg
11.	Plants, growth and transport processes I	Mariya Ptashnyk	RWTH Aachen

12.	Plants, growth and transport processes II	Andrés Chavarría-Krauser	University of Heidelberg
12.	Plants, growth and transport processes II	Mariya Ptashnyk	RWTH Aachen

13.	Mathematical Modeling of Mosquito-Borne Diseases	Nakul Chitnis	Swiss Tropical and Public Health Institute

14.	Modeling Dynamics of Complex Biological Systems	Ching-Shan Chou	Department of Math and MBI, Ohio State University
14.	Modeling Dynamics of Complex Biological Systems	Richard Gejji	MBI, Ohio State University

15.	Multiscale modelling of reaction kinetics in biology	Simon Cotter	University of Oxford

16.	Modeling viral hepatitis dynamics in-vivo and in-vitro in the era of direct anti-viral agents I	Harel Dahari	Theoretical Biology and Biophysics, Los Alamos National Laboratory, Los Alamos, NM 87545, USA
16.		Avidan Neumann	Faculty of Life Sciences, Bar-Ilan University, Ramat-Gan 52900, Israel

17.	Modeling viral hepatitis dynamics in-vivo and in-vitro in the era of direct anti-viral agents II	Harel Dahari	Theoretical Biology and Biophysics, Los Alamos National Laboratory, Los Alamos, NM 87545, USA
17.		Avidan Neumann	Faculty of Life Sciences, Bar-Ilan University, Ramat-Gan 52900, Israel

18.	Statistical methods in computational neuroscience II	Susanne Ditlevsen	University of Copenhagen, Dept Mathematical Sciences

19.	Multiscale mathematics of liver: bridging molecular systems biology to virtual physiological human scale	Dirk Drasdo	INRIA, Paris-Rocquencourt, France
19.		Stefan Hoehme	IZBI, University of Leipzig, Germany

20.	Bridging the Divide: Cancer Models in Clinical Practice	Marisa Eisenberg	Mathematical Biosciences Institute, Ohio State University
20.	Bridging the Divide: Cancer Models in Clinical Practice	Harsh Jain	Mathematical Biosciences Institute, Ohio State University

21.	Bridging Time Scales in Biological Sciences	Konstantin Fackeldey	Konrad Zuse Institut Berlin, Berlin, Germany
		Susanna Roeblitz	ZIB, Berlin, Germany
		Marcus Weber	Konrad Zuse Institut Berlin, Berlin, Germany

22.	Delay Differential Equations and Applications I	Urszula Foryś	University of Warsaw, Faculty of Math. Inf. Mech., Inst. Appl. Math. Mech.
22.	Delay Differential Equations and Applications I	Monika Joanna Piotrowska	University of Warsaw, Faculty of Math. Inf. Mech., Inst. Appl. Math. Mech.

23.	Delay Differential Equations and Applications II	Urszula Foryś	University of Warsaw, Faculty of Math. Inf. Mech., Inst. Appl. Math. Mech.
23.	Delay Differential Equations and Applications II	Monika Joanna Piotrowska	University of Warsaw, Faculty of Math. Inf. Mech., Inst. Appl. Math. Mech.

24.	Reports from US - African BioMathematics Initiative: Conservation Biology	Holly Gaff	Old Dominion University

25.	Mathematical models of gene regulation	Tomas Gedeon	Montana State University

26.	Heart rate dynamics: models and measures of complexity (part I)	Grzegorz Graff	Gdańsk University of Technology
26.		Beata Graff	Medical University of Gdańsk

27.	Heart rate dynamics: models and measures of complexity (part II)	Grzegorz Graff	Gdańsk University of Technology
27.		Beata Graff	Medical University of Gdańsk

28.	Applications of nonnegative Radon measure spaces with metric structure to population dynamic models	Piotr Gwiazda	University of Warsaw
28.		Anna Marciniak-Czochra	University of Heidelberg

29.	Modeling and analysis of tumor invasion I	Haralampos Hatzikirou	University of New Mexico
		Andreas Deutsch	Dresden University of Technology, Germany
		Arnaud Chauviere	University of New Mexico

30.	Modeling and analysis of tumor invasion II	Haralampos Hatzikirou	University of New Mexico
		Andreas Deutsch	Dresden University of Technology, Germany
		Arnaud Chauviere	University of New Mexico

31.	Epidemic models: Networks and stochasticity	Thomas House	University of Warwick
31.	Epidemic models: Networks and stochasticity	Istvan Kiss	University of Sussex

32.	From one to many: Cell-based modeling of collective, emergent behaviors in biology -I	Yi Jiang	Los Alamos National Laboratory

33.	From one to many: Cell-based modeling of collective, emergent behaviors in biology -II	Yi Jiang	Los Alamos National Laboratory

34.	Epidemics of Neglected Tropical Diseases	Roberto Kraenkel	São Paulo State University, Brazil

35.	Models in Spatial Ecology	Roberto Kraenkel	São Paulo State University, Brazil

36.	Physiologically Structured Population Models in Pharmacodynamics	Wojciech Krzyzanski	University at Buffalo

37.	Cell migration during development: modelling and experiment	Paul Kulesa	Stowers Institute for Medical Research
37.		Ruth Baker	University of Oxford

38.	Biofluids, Solute Transport, and Hemodynamics	Anita Layton	Department of Mathematics, Duke University
38.	Biofluids, Solute Transport, and Hemodynamics	S. Randall Thomas	Orsay & Institut Gustav Roussy

39.	Analysis of mathematical models for cancer growth and treatment, Part I	Urszula Ledzewicz	Southern Illinois University, USA
39.		Alberto d'Onofrio	European Institute of Oncology, Italy

40.	Analysis of mathematical models for cancer growth and treatment, Part II	Urszula Ledzewicz	Southern Illinois University, USA
40.		Alberto d'Onofrio	European Institute of Oncology, Italy

41.	Analysis of mathematical models for cancer growth and treatment, Part III	Urszula Ledzewicz	Southern Illinois University, USA
41.		Alberto d'Onofrio	European Institute of Oncology, Italy

42.	Analysis of mathematical models for cancer growth and treatment, Part IV	Urszula Ledzewicz	Southern Illinois University, USA
42.		Alberto d'Onofrio	European Institute of Oncology, Italy

43.	Analysis of mathematical models for cancer growth and treatment, Part V	Urszula Ledzewicz	Southern Illinois University, USA
43.		Alberto d'Onofrio	European Institute of Oncology, Italy

44.	Turing !! Turing?? on morphogenesis via experimental and theoretical approaches.	S. Seirin Lee	The University of Tokyo, Japan

45.	Statistical Analysis of Biological Signals	Jacek Leśkow	Nowy Sacz Graduate School of Business - National Louis University

46.	Fluid-structure interaction problems in biomechanics	Sookkyung Lim	University of Cincinnati, USA

47.	Modeling of immune responses and calcium signaling. I	Tomasz Lipniacki	Institute of Fundamental Technological Research, PAS, Warsaw
		Bogdan Kazmierczak	Institute of Fundamental Technological Research, PAS, Warsaw
		Marek Kimmel	Rice University, Dept. of Statistics, Houston, Texas

48.	Modeling of immune responses and calcium signaling. II	Tomasz Lipniacki	Institute of Fundamental Technological Research, PAS, Warsaw
		Bogdan Kazmierczak	Institute of Fundamental Technological Research, PAS, Warsaw
		Marek Kimmel	Rice University, Dept. of Statistics, Houston, Texas

49.	Modeling of immune responses and calcium signaling. III	Tomasz Lipniacki	Institute of Fundamental Technological Research, PAS, Warsaw
		Bogdan Kazmierczak	Institute of Fundamental Technological Research, PAS, Warsaw
		Marek Kimmel	Rice University, Dept. of Statistics, Houston, Texas

50.	B and T cell immune responses.	yoram Louzoun	Bar Ilan University

51.	Modeling of collective phenomena in biological systems	Danuta Makowiec	Institute of Theoretical Physics and Astrophysics, Gdansk University, Poland

52.	Mathematical Models in Eco-epidemiology I	Horst Malchow	University of Osnabrück, Department of Mathematics & Computer Science, Institute of Environmental Systems Research, Barbarastr. 12, 49076 Osnabrück, Germany
		Sergei V. Petrovskii	Department of Mathematics, University of Leicester, Leicester LE1 7RH, UK
		Ezio Venturino	Dipartimento di Matematica "Giuseppe Peano", via Carlo Alberto 10, 10123 Torino, Italy

53.	Mathematical Models in Eco-epidemiology II	Horst Malchow	University of Osnabrück, Department of Mathematics & Computer Science, Institute of Environmental Systems Research, Barbarastr. 12, 49076 Osnabrück, Germany
		Sergei V. Petrovskii	Department of Mathematics, University of Leicester, Leicester LE1 7RH, UK
		Ezio Venturino	Dipartimento di Matematica "Giuseppe Peano", via Carlo Alberto 10, 10123 Torino, Italy

54.	Information, human behaviour and infection control.	Piero Manfredi	Dipartimento di Statistica e Matematica Applicata all'Economia, Università di Pisa, Via Ridolfi 10, Pisa, 56124, Italy
54.	Information, human behaviour and infection control.	Alberto d'Onofrio	Dept. of Experimental Oncology European Institute of Oncology , Via Ripamonti 435 , 20141 Milano (Italy)

55.	Information, human behaviour and disease.	Piero Manfredi	Dipartimento di Statistica e Matematica Applicata all'Economia, Università di Pisa, Via Ridolfi 10, Pisa, 56124, Italy
55.	Information, human behaviour and disease.	Alberto d'Onofrio	Dept. of Experimental Oncology European Institute of Oncology , Via Ripamonti 435 , 20141 Milano (Italy)

56.	Stem cells and cancer	Anna Marciniak-Czochra	University of Heidelberg
56.	Stem cells and cancer	Heiko Enderling	Tufts University

57.	Structure and Dynamics of Biochemical Reaction Networks I	Maya Mincheva	Northern Illinois University
57.	Structure and Dynamics of Biochemical Reaction Networks I	Casian Pantea	University of Wisconsin-Madison

58.	Structure and Dynamics of Biochemical Reaction Networks II	Maya Mincheva	Northern Illinois University
58.		Casian Pantea	University of Wisconsin-Madison

59.	Mathematical Modelling of Macromolecules and Molecular Aggregates	Rubem Mondaini	BIOMAT Consortium/ Federal University of Rio de Janeiro/CT-COPPE

60.	Crowd Dynamics: Modeling, Analysis and Simulation (Part 1)	Adrian Muntean	Institute for Complex Molecular Systems (ICMS) and Center for Analysis, Scientific computing and Applications (CASA), Department of Mathematics, TU Eindhoven, The Netherlands

61.	Crowd Dynamics: Modeling, Analysis and Simulation (Part 2)	Adrian Muntean	Institute for Complex Molecular Systems (ICMS) and Center for Analysis, Scientific computing and Applications (CASA), Department of Mathematics, TU Eindhoven, The Netherlands

62.	Multiscale modelling of biological systems: the Chaste framework	James Osborne	The University of Oxford (Computational Biology Group)

63.	Dynamics and Biological Thresholds	Alberto Pinto	LIAAD-INESC Porto LA; Department of Mathematics, Faculty of Sciences, University of Porto.

64.	Mathematical modeling of biomechanical regulation in bone tissue (Session I)	Peter Pivonka	The University of Western Australia
		Stefan Scheiner
		Pascal Buenzli

65.	Mathematical modeling of biomechanical regulation in bone tissue (Session II)	Peter Pivonka	The University of Western Australia
		Stefan Scheiner
		Pascal Buenzli

66.	Computational toxicology and pharmacology - in silico drug activity and safety assessment	Sebastian Polak	Jagiellonian University Medical College Faculty of Pharmacy
66.		Aleksander Mendyk	Dept. of Drug Technology and Biopharmaceutics Faculty of Pharmacy Jagiellonian University Medical College

67.	Speciation	Tadeas Priklopil	University of Helsinki

68.	Mathematical models of evolutionary dynamics of infectious agents	Andrea Pugliese	University of Trento
68.		Viggo Andreasen	University of Roskilde

69.	UNDERGRADUATE BIOMATHEMATICS EDUCATION BEYOND BIO 2010 (Part I)	Raina Robeva	Sweet Briar College
		Timothy Comar	Benedictine University
		Meghan Burke	Kennesaw State University

70.	UNDERGRADUATE BIOMATHEMATICS EDUCATION BEYOND BIO 2010 (Part II)	Raina Robeva	Sweet Briar College
		Timothy Comar	Benedictine University
		Meghan Burke	Kennesaw State University

71.	Stochastic models in computational neuroscience I	Laura Sacerdote	Dept. Mathematics, University of Torino

72.	Noisy Cells	Alexander Skupin	Max Planck Institute of Molecular Plant Physiology, Potsdam, Germany; Luxembourg Centre for System Biomedicine, Luxembourg
72.	Noisy Cells	Rudiger Thul	University of Nottingham, UK

73.	Recent advances in infectious disease modelling (part 1)	Robert Smith?	The University of Ottawa

74.	Recent advances in infectious disease modelling (part 2)	Robert Smith?	The University of Ottawa

75.	Mechanical Models of Movement and Growth of Cells and Tissues I	Magdalena Stolarska	University of St. Thomas, St. Paul, MN, USA

76.	Mechanical Models of Movement and Growth of Cells and Tissues II	Magdalena Stolarska	University of St. Thomas, St. Paul, MN, USA

77.	Mechanics of the cytoskeleton and cortical actin at the cellular level	Wanda Strychalski	University of California, Davis
77.		Guillaume Salbreux	Max Planck Institut für Physik komplexer Systeme

78.	Moving Organisms: From Individuals to Populations	Christina Surulescu	ICAM, WWU Münster

79.	Semigroups of Operators in Mathematical Biology I	Horst Thieme	School of Mathematical and Statistical Sciences Arizona State University Tempe, Arizona, 85287-1804
79.	Semigroups of Operators in Mathematical Biology I	Adam Bobrowski	Lublin University of Technology, Nadbystrzycka 38A, 20-618 Lublin, Poland.

80.	Semigroups of Operators in Mathematical Biology II	Horst Thieme	School of Mathematical and Statistical Sciences Arizona State University Tempe, Arizona, 85287-1804
80.	Semigroups of Operators in Mathematical Biology II	Adam Bobrowski	Lublin University of Technology, Nadbystrzycka 38A, 20-618 Lublin, Poland.

81.	Epidemiology, Eco-Epidemiology and Evolution	Ezio Venturino	Univ. Torino
81.	Epidemiology, Eco-Epidemiology and Evolution	Nico Stollenwerk	CMAF, Univ. Lisbon

82.	The dynamics of interacting cell systems: from intercellular interaction to tissue-level traits I	Anja Voss-Boehme	Center for High Performance Computing (ZIH), Technical University Dresden, Germany

83.	The dynamics of interacting cell systems: from intercellular interaction to tissue-level traits II	Anja Voss-Boehme	Center for High Performance Computing (ZIH), Technical University Dresden, Germany

84.	Multi-scale mathematics of the liver: From intracellular signaling to intercellular interaction	Anja Voss-Boehme	Center for High Performance Computing (ZIH), Technical University Dresden, Germany
84.		Andreas Deutsch

85.	Fractals and Complexity I	Przemyslaw Waliszewski	Department of Urology, Philipps University, Marburg, Germany

86.	Fractals and Complexity II	Przemyslaw Waliszewski	Department of Urology, Philipps University, Marburg, Germany

87.	Mathematical modelling of physiological processes in patients on dialysis	Jacek Waniewski	Institute of Biocybernetics and Biomedical Engineering PAS

88.	Modelling biofilms: from gene regulation to large-scale structure and function	John Ward	University of Loughborough
88.		Fordyce Davidson	University of Dundee

89.	Mathematical modeling and simulations of angiogenesis I	Xiaoming Zheng	Central Michigan University, USA
89.	Mathematical modeling and simulations of angiogenesis I	Trachette Jackson	University of Michigan, USA

90.	Mathematical modeling and simulations of angiogenesis II	Xiaoming Zheng	Central Michigan University, USA
90.	Mathematical modeling and simulations of angiogenesis II	Trachette Jackson	University of Michigan, USA

91.	Systems Biology of Development	Walter de Back
		Lutz Brusch	Technische Universität Dresden, Germany
		Andreas Deutsch