Program
Speaker List
All plenary, minisymposia and contributed talks are now posted.
PLEN - plenary talk, MS - minisymposium talk, CT - contributed talk
CTC1a | Abbas, Fazal | |
---|---|---|
University of Guelph | ||
Biofilm Model in Soil Fractured Media | ||
MSE5a | Abedi, Ali | |
University of Houston, Downtown | ||
Multivariate Data Analysis: Relationship between Environmental Factors and Vector Frequencies Affecting the Spread of Pierce’s Disease across Texas | ||
CTF6a | Adams, Ben | |
University of Bath, UK | ||
Man Bites Mosquito: Understanding the Contribution of Human Movement to Vector-borne Disease Dynamics | ||
MSC3a | Alberts, Jon | |
University of Washington | ||
Agent-based simulations of filaments, crosslinkers, and motor proteins | ||
CTF7a | Alexander, Helen | |
Queen's University | ||
Regulatory T cells in autoimmune disease: dose dependence arises in a stochastic approach | ||
MSG4a | Allard, Jun | |
University of British Columbia | ||
Force generation by a dynamic Z-ring in bacterial cell division | ||
CTA6a | Anazawa, Masahiro | |
Tohoku Institute of Technology | ||
Relationships between population models in terms of resource partitioning and spatial aggregation | ||
CTB6a | Andasari, Vivi | |
University of Dundee | ||
Modelling the Cell-Matrix Adhesion Pathway for Cancer Cell Invasion of Tissue | ||
CTF2a | Andersson, Tom | |
Stockholm University, Stanford University School of Medicine | ||
Evaluating competing models of nociceptive neurons with sensitivity analysis | ||
MSB1d | Andrews, Steven | |
Lawrence Berkeley National Laboratory | ||
New particle-based simulation algorithms for molecule-membrane interactions enable a yeast signaling model | ||
MSE4a | Andrews, Steven | |
Molecular Sciences Institute | ||
Mechanics can explain coiled shapes of bacterial cytoskeletal polymers | ||
CTG7a | Arciero, Julia | |
University of Pittsburgh | ||
Predicting migration of the intestinal epithelial cell layer using a continuum mechanical model | ||
MSD1d | Arino, Julien | |
University of Manitoba | ||
A metapopulation model for malaria - Efficacy of control strategies | ||
MSG5a | Arino, Julien | |
Department of Mathematics, University of Manitoba, Winnipeg, Manitoba, Canada | ||
Metapopulation models - Applications to the spread of infectious diseases | ||
CTA7b | Atkins, Katie | |
University of Edinburgh | ||
Marek’s Disease Virus: Defining Virulence And Understanding The Drivers Of Evolution | ||
MSC2a | Aukema, Brian | |
Pacific Forestry Centre, Canadian Forest Service & University of Northern British Columbia | ||
Spatial-Temporal Statistical Modeling of Outbreaks of Mountain Pine Beetle | ||
MSD4b | Bachar, Mostafa | |
Department of Mathematics, King Saud University | ||
Sensitivity analysis of a cardiovascular control system model | ||
CTB6b | Badoual, Mathilde | |
Paris 7 University | ||
A "go or grow" model based on cell interactions in brain tumours | ||
MSA2d | Baker, Ruth | |
Centre for Mathematical Biology, University of Oxford | ||
Comparing deterministic and stochastic models for cell motility and domain growth | ||
MSH1d | Band, Leah | |
Centre for Plant Integrative Biology, University of Nottingham, UK | ||
Modelling GA-regulated growth in the root elongation zone | ||
CTA7a | Basanta, David | |
Moffitt Cancer Center | ||
Games that tumour cells play: using game theory to study the different paths of tumour progression | ||
MSG3c | Basanta, David | |
H. Lee Moffitt Cancer Center & Research Institute | ||
An integrative study of the role of TGF-β mediated tumour-stroma interactions in prostate cancer progression. A computational view | ||
MSG3d | Basanta, David | |
H. Lee Moffitt Cancer Center & Research Institute | ||
An integrative study of the role of TGF-β mediated tumour-stroma interactions in prostate cancer progression. An experimental view | ||
CTD7b | Bearon, Rachel | |
University of Liverpool | ||
Understanding the NF-κB cell pathway: a paradigm for systems biology | ||
CTC1b | Bearon, Rachel | |
University of Liverpool | ||
Individual to population models of swimming micro-organisms in fluid flow | ||
MSE3c | Beheshti, Afshin | |
Tufts University School of Medicine | ||
The induction of DNA double-strand breaks in bystander stromal cells by cancer cells, a biological perspective | ||
MSD4c | Ben-Tal, Alona | |
Institute of Information and Mathematical Sciences, Massey University | ||
Circulatory Delay Vs. Neural Feedback Dynamics | ||
CTH3a | Besse, Ian | |
University of Iowa | ||
A model of cardiac action potential that incorporates stochastic caveolar dynamics | ||
CTB7a | Bhattacharyya, Samit | |
Mathematics and Statistics, University of Guelph, Canada | ||
Imitation dynamics, delaying strategies, and vaccination in an age-structured population | ||
CTD7a | Birol, Inanc | |
British Columbia Genome Sciences Centre | ||
De novo assembly of transcriptomes with ABySS | ||
CTH7a | Borowski, Peter | |
Dept.of Math., UBC | ||
Predictions from a stochastic polymer model for the MinDE dynamics in E.c oli | ||
MSE1b | Bowman, Christopher | |
National Research Council of Canada, Institute for Biodiagnostics | ||
Optimal Control for an Influenza Pandemic | ||
MSE5f | Bradshaw, Catherine | |
REBMI Claremont Colleges: Student's perspective | ||
MSG5b | Brown, Richard | |
Department of Mathematics and Statistics, University of Canterbury, Christchurch, New Zealand | ||
Dispersal, fragmentation, and space: Determining the importance of spatial structure in different models of plant dispersal | ||
CTH3b | Bungay, Sharene | |
Memorial University | ||
A 2D Model of Calcium Activation in Cardiac Purkinje Cells to explain the source of lethal arrhythmias in post-MI heart | ||
MSG5c | Burie, Jean-Baptiste | |
Institut Mathematiques de Bordeaux, Universite Victor Segalen Bordeaux2, France | ||
Modelling of a powdery mildew epidemic over a vineyard | ||
CTH4e | Burrow, Jenny | |
University of York | ||
Linking plankton dynamics and stochastic fish recruitment models | ||
MSE4b | Cabeen, Matthew | |
Yale University | ||
Mechanical Control of Bacterial Cell Curvature | ||
MSA1d | Cairo, Christopher | |
University of Alberta | ||
Diffusion of adhesion molecules in the T cell membrane and the role of lateral mobility in signaling mechanisms | ||
CTE6a | Calmelet, Colette | |
California State Univ. Chico | ||
Mathematical Modeling of Cellular Intercalation during Zebrafish Gastrulation | ||
MSH2c | Chakraborty, Gargi | |
Department of Pathology, University of Washington | ||
Bridging from Anatomic Imaging to Molecular Imaging through Multi-scale Models for Brain Tumor Growth and Invasion | ||
MSC6c | Chakraborty, Arup | |
Massachusetts Institute of Technology | ||
How T cells see antigen | ||
MSB5a | Chan, David | |
Virginia Commonwealth University | ||
Gene Dispersal in an Insect-Mediated Tree Species | ||
CTB6c | Chaplain, Mark | |
University of Dundee | ||
Multiscale modelling of vascular tumour growth | ||
MSA2b | Chauviere, Arnaud | |
Technische Universität Dresden | ||
Cell migration features in glioma tumor invasion | ||
MSH1c | Chavarría-Krauser, Andrés | |
University of Heidelberg, Germany | ||
A mathematical model of primary root growth | ||
MSH1a | Cobb, Alex | |
Singapore MIT Alliance for Research and Technology, Singapore | ||
Growth analysis of twisting roots in arabidopsis | ||
CTF5a | Cobbold, Christina | |
University of Glasgow | ||
The evolution of parasitoid developmental timing | ||
CTF1a | Conrad, Matthias | |
Emory University | ||
Homeostasis by interacting positive and negative feedback: insights from the in the HPA system | ||
CTE7b | Conway, Jessica | |
University of British Columbia | ||
Latently infected cells and viral load in HIV patients on antiretroviral treatment | ||
MSC2b | Cooke, Barry | |
Northern Forestry Centre, Canadian Forest Service | ||
Climate change and the emergence and spread of forest insect 'superspecies' | ||
MSC6a | Coombs, Dan | |
University of British Columbia | ||
Serial engagement in T cell activation | ||
MSA1b | Cooper, Jonathan | |
Fred Hutchinson Cancer Research Center | ||
A mechanism for transmembrane signal transduction by Src kinases | ||
MSB3d | Craciun, Gheorghe | |
Department of Mathematics and Department of Biomolecular Chemistry University of Wisconsin-Madison | ||
Dynamical system models of neurofilament transport in axons | ||
MSG2b | Craciun, Gheorghe | |
Department of Mathematics and Department of Biomolecular Chemistry, University of Wisconsin-Madison | ||
Graph-theoretic criteria for injectivity and unique equilibria in biochemical reaction networks | ||
SI2 | Daniell, Ellen | |
Author of Every Other Thursday | ||
Opportunities for leadership | ||
MSB1a | Das, Raibatak | |
University of British Columbia | ||
Imaging and modeling the recruitment of cytosolic signaling proteins to the plasma membrane | ||
CTH4b | Davoudi-Dehaghi, Bahman | |
BCCDC | ||
Early Real-time Estimation of Infectious Disease Reproduction Number | ||
MSD3a | Dawes, Adriana | |
University of Alberta | ||
Cytoskeletal reorganization in the early C. elegans embryo | ||
MSD3c | de Vries, Gerda | |
University of Alberta | ||
Quantitative Analysis of Single Particle Tracking Experiments | ||
CTC1c | Deroulers, Christophe | |
University Paris Diderot-Paris 7 | ||
The phase diagram of elongated migrating cells: aggregation without attraction | ||
MSD6b | Di Rosa, Francesca | |
Institute of Molecular Biology and Pathology, Consiglio Nazionale delle Ricerche, Rome, Italy | ||
Kinetics of in vivo proliferation and death of memory and naive CD8 T cells: parameter estimation based on BromodeoxyUridine (BrdU) incorporation in spleen, lymph nodes and bone marrow | ||
PLEN2 | Dieckmann, Ulf | |
International Institute for Applied Systems Analysis, Laxenburg, Austria | ||
Dynamics at the interface of ecology and evolution | ||
MSA5b | Diekman, Casey | |
University of Michigan | ||
Clustering and Temporal Silencing of Electrical Activity in the Suprachiasmatic Nucleus | ||
CTH4a | Dimitrov, Dobromir | |
Fred Hutchinson Cancer Research Center | ||
Modeling the Gender-Specific Benefits of Wide-Scale Microbicide Interventions | ||
MSC4d | Duffin, James | |
Departments of Anaesthesia & Physiology, University of Toronto | ||
Modeling interactions between the control of cerebral blood flow and the chemoreflex control of breathing: implications for stability | ||
CTF6b | Dumont, Yves | |
CIRAD - UMR AMAP | ||
Some results about vector control for the Chikungunya disease | ||
MSA1a | Dushek, Omer | |
Sir William Dunn School of Pathology, Oxford University | ||
A role for localized rebinding in rapid and reliable T cell responses | ||
MSC2c | Dwyer, Greg | |
Department of Ecology & Evolution, University of Chicago | ||
Models of pathogen-driven outbreaks that are motivated by experiments | ||
MSG1b | Dyson, Rosemary | |
Centre for Plant Integrative Biology, University of Nottingham, UK | ||
Mathematical modelling of anisotropic plant root cell growth | ||
CTH5a | Edwards, Andrew | |
Pacific Biological Station, Fisheries and Oceans Canada | ||
How a lack of statistical analysis led to claims that many animals forage using similar random walks described by power-law distributions | ||
MSG2c | Eiswirth, Markus | |
Fritz-Haber-Institut | ||
Application of quotient rings for stability analysis in chemical systems | ||
MSE3d | Enderling, Heiko | |
Tufts University School of Medicine | ||
The induction of DNA double-strand breaks in bystander stromal cells by cancer cells, a computational perspective | ||
MSG4d | Erickson, Harold | |
Duke University | ||
FtsZ bending membranes inside and outside liposomes | ||
PLEN5 | Fagan, Bill | |
Department of Biology, University of Maryland | ||
Riverine Landscapes: Exploring Connectivity, Extinction Risk, and Biogeography in an Alternative Geometry | ||
MSE1a | Feng, Zhilan | |
Purdue University | ||
Control and Prevention Strategies for the Spread of Influenza | ||
MSC5a | Fitzpatrick, Ben | |
Loyola Marymount University | ||
Undergraduate Training in Mathematical Biology at LMU | ||
CTC1d | Flach, Edward | |
Technical University Dresden | ||
Motility and the CPM | ||
CTE7a | Forde, Jonathan | |
Hobart and William Smith Colleges | ||
Dynamics of hepatitis B virus infection: what causes viral clearance? | ||
MSC4b | Francis, Darrel | |
Imperial College London | ||
Dynamic therapy of periodic breathing with exogenous carbon dioxide delivered as an inspired gas or endogenously using a cardiac pacemaker: the theoretical potential and the practical challenges. | ||
MSB1b | Freeman, Spencer | |
University of British Columbia | ||
Regulation of tumor cell adhesion dynamics in 2- and 3-D matrices | ||
MSB2b | Fricks, John | |
Penn State University | ||
The Role of Neck Linker Modification in Kinesin Stepping. | ||
MSD2d | Friedenberg, Nicholas | |
Applied Biomathematics | ||
Some ideas about climate and the future of forest insect pests | ||
CTC7a | Fuhrman, Kseniya | |
Milwaukee School of Engineering | ||
Modeling Nutrient Flow in Virus-Host Interactions in Aquatic Systems | ||
MSB5b | Gaff, Holly | |
Old Dominion University | ||
Effects of migration on tick-borne disease risk | ||
MSC6d | Ganusov, Vitaly | |
Los Alamos National Laboratory | ||
The contribution of cell-intrinsic vs. extrinsic factors in determining magnitude of expansion of CD4 T cell populations | ||
MSG1c | Geitmann, Anja | |
Institut de recherche en biologie végétale, Université de Montréal, Canada | ||
Coordination of material supply and growth - vesicle delivery in pollen tubes | ||
CTB7b | Gerberry, David | |
Purdue University | ||
A data-based model for tuberculosis: Who should be vaccinating? | ||
CTB6d | Gevertz, Jana | |
Princeton University | ||
Multi-scale Mathematical Modeling of Brain Tumor Growth | ||
CTA6b | Ghosh, Suma | |
Mathematics and Statistics, York University | ||
Spatial Distribution of Pathogen in Pest Control: Traveling Wave Solution | ||
MSC5b | Goins, Gregory | |
North Carolina A&T State University | ||
Forming A Biomathematical Learning Alliance Across Traditional Academic Departments | ||
MSC6b | Goldstein, Byron | |
Los Alamos National Laboratory | ||
The Role of Serial Engagement in Mast Cell Signaling | ||
MSE5b | Gonzalez, Tania | |
University of California, Davis | ||
The Spread of Avian Influenza Across Heterogeneous Farmscapes: | ||
MSG2d | Goryachev, Andrew | |
Centre for Systems Biology, The University of Edinburgh | ||
Intracellular pattern formation with small GTPases | ||
CTH7b | Green, Edward | |
Ohio State University | ||
Non-local models for the formation of hepatocyte - stellate cell aggregates | ||
CTC7c | Greenman, Jonathan | |
University of Stirling | ||
Invasion, Resonance, Control | ||
PLEN7 | Grieneisen, Veronica | |
Bioinformatics group, Utrecht University | ||
A Reflux Loop Between Experiments and Modelling: Plant Development, Morphogen Gradients and Cell Polarity | ||
CTH5b | Gurarie, Eliezer | |
University of Helsinki | ||
Modeling of encounter rates for randomly moving individuals: Mathematical predictions and ecological consequences | ||
CTC1e | Gurarie, Eliezer | |
University of Helsinki | ||
Characterizing three-dimensional helical movements of microorganisms from two-dimensional microvideographic tracking data | ||
MSA4d | Gurarie, David | |
Case Western Reserve University, Cleveland | ||
In-host dynamics of mixed malaria infection with adaptive immunity | ||
CTF1b | Haber, Eldad | |
Emory University | ||
Inverse problems in mathematical biology: energy metabolism and glucose models | ||
MSE1c | Hansen, Elsa | |
Queen's University | ||
Characterizing the Effect of Emerging Resistance on the Optimal Treatment Strategy | ||
CTH3c | Hartman, Jana | |
The College of William and Mary | ||
Calcium sparks and calcium homeostasis in a hybrid model of local and global calcium responses | ||
MSE5e | Hayes, David | |
Truman State University | ||
Measuring the Structure of Vascular Networks | ||
MSH6b | Heffernan, Jane | |
York University | ||
Immuno-Epidemiology: Bridging the gap between within-host and between-host dynamics for measles | ||
MSA3a | Herrmann, Harald | |
Functional Architecture of the Cell Lab, DKFZ, Heidelberg, Germany | ||
Molecular mechanisms underlying intermediate filament organization: The impact of inherited human disease mutations | ||
CTC7d | Hilker, Frank M. | |
University of Bath | ||
Complex wildlife disease transmission dynamics in populations with demographic Allee effect | ||
CTE6b | Hirashima, Tsuyoshi | |
Department of Biology, Kyushu University | ||
Mechanisms for Split Localization of Fgf10 Observed in Lung Bud Branching | ||
CTH7c | Holloway, David | |
British Columbia Institute of Technology | ||
Chemical Dynamics and the Development of Plant Shape | ||
PLEN8 | Hosoi, Anette | |
Hatsopoulos Microfluids Laboratory, Massachusetts Institute of Technology | ||
Optimizing Locomotion: From Biology to Robotics | ||
CTF5b | Hsieh, Ying-Hen | |
China Medical University, Taiwan | ||
Predator–prey model with disease infection in both populations | ||
CTA7c | Hurford, Amy | |
Queen's University | ||
Selection for incomplete mimicry in parasites | ||
MSE2d | Ingalls, Brian | |
Department of Applied Mathematics, University of Waterloo | ||
Overactuated systems and Metabolic Control Analysis | ||
MSB1c | Isaacson, Samuel | |
Boston University | ||
Effects of cellular substructure on the dynamics of gene regulation and expression | ||
MSB3c | Janmey, Paul | |
Departments of Physiology, Physics, Bioengineering, University of Pennsylviana | ||
Assembly and mechanics of intermediate filaments | ||
MSD4d | Javaheri, Shahrokh | |
University of Cincinnati College of Medicine | ||
Consequences of obstructive sleep apnea | ||
MSE5d | Jensen, Ethan | |
University of Nebraska, Lincoln | ||
Using coupled systems of differential equations to model competition for light within a New Zealand forest stand | ||
CTH7d | Jilkine, Alexandra | |
University of British Columbia | ||
Bifurcation analysis of a wave-pinning mechanism in a model of cell polarization | ||
CTA6c | Jin, Yu | |
Department of Mathematical and Statistical Sciences, University of Alberta | ||
Population dispersal in a periodic environment | ||
CTH5c | Johnson, Leah R. | |
University of California Santa Barbara | ||
Optimal Foraging Strategies in Albatrosses. | ||
MSA5d | Joshi, Badal | |
Ohio State University/Mathematical Biosciences Institute | ||
Dynamics of Sleep-Wake Cycles: Insights from Development | ||
CTE6c | Jupp, Charlotte | |
Centre for Mathematical Biology, University of Oxford | ||
A cell chemotaxis chemical source model for feather bud formation on a growing domain. | ||
MSC4c | Kappel, Franz | |
Institute for Mathematics and Scientific Computing, University of Graz | ||
Parameter Estimation and Experimental Design for a Cardiovascular Model | ||
MSD5a | Kepler, Grace | |
North Carolina State University | ||
Application of mathematical modeling and simulation to within-host viral pathogenesis | ||
MSB4a | Khadra, Anmar | |
Laboratory of Biological Modeling -NIDDK/NIH | ||
Investigating the role of IGRP-specific low avidity T cells in the protection against T1D | ||
CTE6d | Kheibarshekan Asl, Leila | |
Ghent University | ||
A Stomatal Lineage Model for Arabidopsis Leaf Development | ||
MSH2b | Kim, Yangjin | |
Mathematical Biosciences Institute, Ohio State U | ||
A hybrid model of interaction between tumor cells and microenviroment | ||
MSD6a | Kleinstein, Steven | |
Yale University, USA | ||
Transcriptional cascades during anti-viral responses in human dendritic cells | ||
MSG3a | Kohandel, Mohammad | |
University of Waterloo | ||
Examining the implications of the cancer stem cell hypothesis in solid tumours | ||
MSB3b | Kreplak, Laurent | |
Structural nanomechanics lab, Department of Physics and Atmospheric Science, Dalhousie University | ||
Nanomechanics of self-assembled protein filaments | ||
MSD1c | Kribs-Zaleta, Christopher | |
The University of Texas at Arlington | ||
Multi-patch sylvatic transmission of Trypanosoma cruzi | ||
MSE2c | Leite, Maria | |
Department of Mathematics, The University of Oklahoma | ||
Bifurcations from Quotient Coupled Cell Systems | ||
MSE1d | Lenhart, Suzanne | |
University of Tennessee | ||
Optimal Control in Epidemic Models of Rabies in Raccoons | ||
CTE7c | Leviyang, Sivan | |
Georgetown University | ||
The Impact of Stochastic Effects on the Population Dynamics of Within Host Viral-Immune System Interaction | ||
MSA4c | Li, Jia | |
Department of Mathematical Sciences; University of Alabama in Huntsville | ||
Modeling of the Impact of Climate Change and Mosquito Transgenes on Malaria Transmission | ||
MSH6c | Li, Jing | |
The University of Ottawa | ||
Modeling spatial spread of infectious diseases with a fixed latent period in a spatially continuous domain | ||
CTF7b | Lipsmeier, Florian | |
Bielefeld University | ||
Probabilistic T cell activation and negative selection | ||
CTC1f | Lorz, Alexander | |
University of Cambridge | ||
Collective Motion of Swimming Microorganisms and Chemotaxis | ||
CTB6e | Lowengrub, John | |
University of California, Irvine | ||
Hybrid continuum-discrete multiscale models of vascular tumor growth | ||
CTA6f | Lukeman, Ryan | |
University of British Columbia | ||
Inferring interaction rules from empirical data of collective motion in animal groups | ||
MSA2c | Lushnikov, Pavel | |
University of New Mexico | ||
Macroscopic dynamics of biological cells interacting via chemotaxis and direct contact | ||
MSG5d | Lutscher, Frithjof | |
Department of Mathematics and Statistics, University of Ottawa, Canada | ||
Approximations and rules of thumb for persistence and spread in heterogeneous landscapes | ||
CTC7e | Mahaffy, Joseph | |
San Diego State University | ||
Marine Bacteria and Phage Model with Delays | ||
CTA6d | Malchow, Horst | |
Institute of Environmental Systems Research, University of Osnabrueck, Germany | ||
Pattern Generation and Competition in Models of Population Dynamics | ||
MSA3c | Marceau, Normand | |
Centre de recherche en cancerologie, Laval University | ||
Keratin involvement in simple epithelial cell response to a mechanical stress or a migratory stimulus | ||
MSD6d | Marino, Simenone | |
Department of Microbiology and Immunology, University of Michigan Medical School, Ann Arbor, Michiga | ||
A multi-compartmental model of Mycobacterium tuberculosis infection in mice: the role of antigen dose in T cell priming | ||
MSC3d | Marshall, Wallace | |
University of California, San Francisco | ||
The Flagellar Length Control System | ||
MSD3b | Marée, Athanasius F. M. (Stan) | |
University of Utrecht | ||
Cell polarity in plants and animals: a conservation of principles | ||
CTB6f | Massey, Susan | |
University of Washington | ||
Paracrine PDGF signaling and progression in experimental gliomas | ||
CTF4a | Masso, Majid | |
George Mason University | ||
Novel Pedagogical Resources Based on Protein Structure Analysis | ||
MSE3a | McCawley, Lisa | |
Vanderbilt University Medical School | ||
An integrative approach in modeling bio-mechanics of epithelial cancer initiation. Experimental view | ||
CTG7b | McDougall, Steven | |
Heriot-Watt University | ||
Modeling the impact of fibroblast migration and collagen alignment during dermal wound healing | ||
MSB3a | Meier, Markus | |
Department of Chemistry, University of Manitoba | ||
Biophysical characterization of vimentin coil 1A, a molecular switch | ||
CTF7c | Mendoza, Luis | |
Instituto de Investigaciones Biomédicas, UNAM. | ||
A virtual cell culture of T-helper lymphocytes | ||
PLEN6 | Michor, Franziska | |
Memorial Sloan-Kettering Cancer Center | ||
Towards the evolutionary trajectory causing tumorigenesis | ||
CTD7c | Miekisz, Jacek | |
University of Warsaw | ||
Stochastic models of gene expression with time delays | ||
CTD7d | Mileyko, Yuriy | |
Georgia Institute of Technology | ||
Nonlinear effect of copy number variation on gene expression | ||
MSC5d | Miller, Jason | |
Truman State University | ||
Training Undergraduates in Mathematical Biology Using Research With Faculty | ||
CTF6c | Miller, Laura | |
University of North Carolina at Chapel Hill | ||
Scaling effects and fluid dynamics in heart development | ||
MSC5c | Milton, John | |
The Claremont Colleges | ||
REBMI: Research Experiences at the Biology-Mathematics Interface | ||
MSG2a | Mincheva, Maya | |
Department of Mathematical Sciences, Northern Illinois University | ||
Oscillations in biochemical reaction networks | ||
CTH3d | Miura, Robert M. | |
New Jersey Institute of Technology | ||
Migraine With Aura and Cortical Spreading Depression | ||
PLEN4 | Mogilner, Alex | |
Depts. of Mathematics and Neurobiology, Physiology and Behavior, University of California, Davis | ||
Geometry and force of mitotic spindle assembly | ||
MSG3b | Molavian, Hamid | |
University of Waterloo | ||
Cell metabolism and its relationship to hypoxia and acidity in solid tumors. Computational results | ||
CTH5e | Molnár, Péter | |
Centre for Mathematical Biology, University of Alberta | ||
Using Dynamic Energy Budget Models to Predict Changes in Polar Bear Reproduction under Climate Change | ||
MSD5c | Morgan, John | |
Purdue University | ||
In silico prediction and experimental measurements of metabolic fluxes in photosynthetic organisms | ||
MSD1b | Murillo, David | |
Arizona State University | ||
Local vs. global behavioral change strategies for a two-strain dengue fever outbreak | ||
CTG7c | Murphy, Kelly | |
Queensland University of Technology | ||
A fibrocontractive mechanochemical model of dermal wound closure incorporating realistic growth factor kinetics | ||
CTH5f | Myerscough, Mary | |
University of Sydney | ||
Why do so few choose for so many? Nonlinear decision-making by honey bees. | ||
MSA1c | Nag, Ambarish | |
Los Alamos National Laboratory | ||
Aggregation of membrane proteins by cytosolic cross-linkers: Modeling of LAT aggregation mediated by cytosolic complex of Grb2 and SOS1 proteins | ||
CTH7e | Nahmad, Marcos | |
California Institute of Technology | ||
Steady-State Invariant Manifolds: A theoretical approach to the study of morphogen gradient dynamics | ||
CTF5c | Namba, Toshiyuki | |
Osaka Prefecture University, Department of Biological Science | ||
Multiple, not stable, but unstable, steady states may explain ungulate population dynamics | ||
CTH4c | O'Regan, Suzanne Marie | |
University College Cork, Ireland | ||
Chaos in a seasonally perturbed SIR model: numerical evidence and rigorous proof | ||
CTH3e | Olson, Sarah | |
Tulane University | ||
A model of CatSper channel-mediated Calcium dynamics in mammalian spermatozoa | ||
CTH7f | Osborne, James | |
University of Oxford | ||
Multiscale Modelling in Systems Biology | ||
PLEN1 | Oster, George | |
Department of Molecular and Cellular Biology, University of California, Berkeley | ||
What the thoughts of a mollusk tell us about memory in neural systems | ||
CTH3f | Oster, Andrew | |
Mathematical Biosciences Institute | ||
Mitochondrial Calcium Trafficking: excitability, waves, and oscillations | ||
PLEN3 | Othmer, Hans | |
School of Mathematics and Digital Technology Center, University of Minnesota | ||
Robustness of Pattern Formation in Development | ||
CTF2c | Ougrinovskaia, Anna | |
University of Sydney | ||
Modelling the inflammatory response in early stage atherosclerosis | ||
CTE6e | Palsson, Eirikur | |
Simon Fraser University of | ||
Excitability of Dictyostelium discoideum is regulated by the ratio of membrane bound to secreted phosphodiesterase | ||
CTA7d | Parsons, Todd | |
University of Pennsylvania | ||
Stochastic Competition in Ecology, Epidemiology and Population Genetics | ||
CTA7e | Parvinen, Kalle | |
University of Turku, Finland | ||
Evolutionary emergence of cooperators and defectors in a metapopulation | ||
CTE7d | Pasour, Virginia | |
Duke University | ||
A Dimensionless Number for Viral Evolution | ||
CTE6f | Pearson, Yanthe | |
Rensselaer Polytechnic Institute | ||
A Renewal Process Approach to Growth Cone Kinematics in Axonogenesis | ||
MSB4d | Peercy, Bradford | |
University of Maryland, Baltimore County | ||
Long Time Scale cAMP-Dependent Signaling by Protein Kinase A in Pancreatic Beta Cells | ||
MSB4c | Periwal, Vipul | |
Laboratory of Biological Modeling -NIDDK/NIH | ||
Modeling Metabolism in Pancreatic Beta-Cell Mitochondria | ||
CTF3a | Phipps, Colin | |
University of Waterloo | ||
Combination of chemotherapy and antiangiogenic therapies: The roles of angiogenic factors and interstitial fluid pressure | ||
MSC3b | Pilgrim, Dave | |
University of Alberta | ||
Genetic analysis of the forces involved in shaping the cells in the C. elegans germline | ||
MSD2b | Pineda-Krch, Mario | |
Centre for Mathematical Biology, University of Alberta | ||
Prediction of mountain pine beetle outbreaks using Markov process logistic regression | ||
CTC7b | Planque, Bob | |
VU University Amsterdam | ||
Recruitment strategies and colony size in ants | ||
MSA3b | Portet, Stephanie | |
Department of Mathematics, University of Manitoba | ||
Modeling of the intermediate filament assembly | ||
MSD5d | Potter, Laura | |
Syngenta Biotechnology, Inc. | ||
Perspectives on key modeling problems and challenges in the agricultural industry | ||
MSD4a | Poulin, Marc | |
Departments of Physiology & Pharmacology and Clinical Neurosciences, University of Calgary | ||
Physiological Responses to Intermittent Hypoxia in Healthy Humans | ||
MSD2c | Powell, James | |
Department of Mathematics and Statistics, Utah State University | ||
Connecting tree-level phenology and lanscape-level outbreak dynamics for mountain pine beetle | ||
MSD3d | Rafelski, Susanne | |
University of California, San Francisco | ||
Mitochondrial Morphology: Quantifying Topological Network Properties in 3 Dimensions | ||
CTH4d | Rebarber, Richard | |
University of Nebraska - Lincoln | ||
Integral projection model analysis of an endangered plant species | ||
MSH2d | Rejniak, Kasia | |
Integrated Mathematical Oncology, H. Lee Moffitt Cancer Center & Research Institute, USA | ||
Revealing the Mechanisms Underlying Formation of Carcinomas using the Multiscale IBCell Morphocharts | ||
MSE3b | Rejniak, Kasia | |
H. Lee Moffitt Cancer Center & Research Institute | ||
An integrative approach in modeling bio-mechanics of epithelial cancer initiation. Bio-mechanical view | ||
CTB7d | Reluga, Timothy | |
Penn State | ||
Recent results in game-theoretic epidemiology | ||
MSD5b | Rockne, Russ | |
University of Washington | ||
Predictive modeling of brain tumor growth and invasion: optimizing treatment in individual patients | ||
CTF3b | Rockne, Russ | |
University of Washington | ||
The role of delay and observation timing in assessing glioma response to radiation therapy. | ||
MSB2c | Rodriguez, Ignacio | |
Courant Institute of Mathematical Sciences | ||
A mathematical model of telomere length regulation and cellular senescence | ||
CTB7e | Rogalsky, Tim | |
Canadian Mennonite University | ||
Continuous Parameterization for Optimal Control of Epidemiological and Biomedical Models by Differential Evolution | ||
MSA5c | Rogers, Lisa | |
Rensselaer Polytechnic Institute | ||
Neurochemically Based Model of the Human Sleep Wake System | ||
MSG1d | Rojas, Enrique | |
Department of Organismic and Evolutionary Biology, Harvard University, USA | ||
Tip Growth Morphogenesis: From Molecules to Cell Shape | ||
MSD2a | Roland, Jens | |
Department of Biological Science, University of Alberta | ||
Periodicity and spread in cyclic dynamics of forest tent caterpillar populations | ||
MSE2a | Roussel, Marc | |
Department of Chemistry and Biochemistry, University of Lethbridge | ||
Simultaneous experimental study of multiple clocks in yeast | ||
CTF2b | Rubchinsky, Leonid | |
Indiana University - Purdue University Indianapolis | ||
Dynamics of synchronized oscillations of neuronal activity in Parkinson’s disease | ||
MSC2d | Régnière, Jacques | |
Laurentian Forestry Centre, Canada Forest Service | ||
Comparative Empirical Models of Local Population Dynamics for Three Conifer-Feeding Budworms | ||
MSE2b | Schnell, Santiago | |
Department of Molecular & Integrative Physiology, University of Michigan Medical School | ||
How is protein load sensed in the endoplasmic reticulum? | ||
MSH6a | Schwartz, Elissa | |
Washington State University | ||
A Stochastic Model of HIV-1 Escape from the Cytotoxic T Lymphocyte Response | ||
CTG7d | Segal, Rebecca | |
Virginia Commonwealth University | ||
Analyzing Complexities of Wound Healing | ||
CTA6e | Seo, Gunog | |
University of Ottawa | ||
The effect of temporal variability on persistence conditions in rivers | ||
MSA3d | Seow, Chun, Y. | |
Department of Pathology and Laboratory Medicine, University of British Columbia | ||
Intermediate filaments in smooth muscle | ||
MSB4b | Sherman, Arthur | |
Laboratory of Biological Modeling -NIDDK/NIH | ||
The Highly Calcium Sensitive Pool and Newcomer Vesicles: Buy One Get One Free | ||
MSC3c | Sherrard, Kristin | |
University of Washington | ||
From so simple a beginning: How cells conspire to construct an embryo | ||
CTB7c | Shim, Eunha | |
Yale University | ||
The influence of altruism on influenza vaccination decisions | ||
MSH1b | Shipman, Patrick | |
Colorado State University, USA | ||
Shapes and Symmetries: Patterns in Plants and Mollusks | ||
MSA2a | Simpson, Matthew | |
University of Melbourne | ||
Multi-scale tools for interpreting experimental cell biology data | ||
MSH6d | Smith?, Robert | |
The University of Ottawa | ||
When zombies attack!: Mathematical modelling of an outbreak of zombie infection | ||
CTA7f | Strelioff, Christopher | |
Michigan State University | ||
Dynamics of Biological Information in Epistatic Fitness Landscapes | ||
MSE4c | Sun, Sean | |
Johns Hopkins University | ||
Condensation of FtsZ filaments can drive bacterial cell division | ||
CTF4b | Svoboda, Julia | |
University of California, Davis | ||
Undergraduates’ Conceptions of Mathematical Models in Biology | ||
MSG4c | Tarazona, Pedro | |
Universidad Autonoma de Madrid | ||
Theoretical modeling of dynamic FtsZ filaments imaged with atomic force microscopy. | ||
CTB7f | Tchuenche, Jean M. | |
University of Guelph | ||
Outbreak Control through Voluntary First-order and Second-order Ring Vaccination | ||
MSD6c | Textor, Jophannes | |
Institute of Theoretical Computer Science, Universität zu Lübeck, Germany | ||
Antigen detection as a distributed randomized search process: A multiscale approach | ||
MSA4a | Thibodeaux, Jeremy | |
University of Central Oklahoma | ||
Seeking Optimal Treatment Strategies for Malaria Infection | ||
CTD7e | Thomas, Peter | |
Case Western Reserve University | ||
On the Information Capacity of Diffusion Mediated Signal Transduction | ||
MSE5c | Thomason, Sarah | |
Murray State University | ||
Undergraduate Biomathematics Research at Murray State University | ||
CTH5d | Tokita, Kei | |
Osaka University | ||
Species abundance distributions, the species-area relationships and the Zipf's law | ||
CTF3c | Tomasetti, Cristian | |
University of Maryland | ||
Modeling Drug Resistance in Cancer | ||
MSC4a | Topor, Zbigniew | |
Department of Cell Biology & Anatomy, University of Calgary | ||
Transient ventilatory intervention reverses central sleep apnea - a model study | ||
MSB5c | Tyson, Rebecca | |
University of British Columbia Okanagan | ||
The effect of habitat fragmentation on cyclic predator-prey populations | ||
CTD7f | Uriu, Koichiro | |
Kyushu University | ||
Synchronized oscillation of the segmentation clock gene in vertebrate development | ||
CTE7e | van Gaalen, R D | |
University of Western Ontario | ||
Antioxidant supplementation as a potential therapy for HIV-positive injected drug users on HAART | ||
CTG7e | Van Schepdael, An | |
Catholic University Leuven | ||
The biology of bone formation in orthodontic tooth movement: a mathematical model | ||
MSE4d | Vélez, Marisela | |
Universidad Autónoma de Madrid | ||
Polymerization of individual FtsZ filaments observed with atomic force microscopy | ||
CTF4c | Wallace, Dorothy | |
Dartmouth College | ||
Six Short Weeks: A classroom strategy for supporting undergraduate research in mathematical biology | ||
MSB2a | Wang, Hongyun | |
University of California Santa Cruz | ||
How to convert reciprocal motions to a unidirectional motion? | ||
CTG7f | Watson, Michael | |
Heriot-Watt University | ||
Wound healing in the murine panniculus carnosus: mathematical modelling and numerical simulation | ||
CTF1c | Wei, Guowei | |
Michigan State University | ||
Differential geometry based multiscale modeling of biomolecules | ||
MSG1a | Wells, Darren | |
Centre for Plant Integrative Biology, University of Nottingham, UK | ||
Plant root cell expansion | ||
CTE7f | White, Steven | |
Centre for Ecology & Hydrology | ||
Modelling multiple within-host insect virus dynamics | ||
MSG4b | Wolgemuth, Charles | |
University of Connecticut Health Center | ||
The Shape and Dynamics of the Spirochetes | ||
MSB5d | Yakubu, Abdul-Aziz | |
Howard University | ||
Asynchronous and synchronous dispersals in spatially discrete population models | ||
MSB2d | Yamada, Richard | |
University of Michigan | ||
Error Correcting Mechanisms During Transcriptional Elongation | ||
MSA5a | Yamada, Richard | |
University of Michigan | ||
Molecular Noise Enhances Oscillations in SCN Network | ||
MSD1a | Yang, Hyun | |
UNICAMP | ||
Control of mosquitoes by the the Sterile Insect Technique (SIT) | ||
MSA4b | Yuster, Thomas | |
Department of Mathematics, Lafayette College | ||
A Mathematical Model of the Within-Vector Dynamics of the Plasmodium Falciparum Protozoan Parasite | ||
CTC7f | Zhang, Xu-Sheng | |
University of Edinburgh | ||
Dynamics of E. coli O157 infection among Scottish cattle farms: Stochastic models and selection |