Wednesday 18th September, 12:10 - 13:30
Abhishek Upadhyay, Institute for Theoretical Biology, Charité – Universitätsmedizin Berlin and Humboldt University of Berlin, Berlin, Germany
An inactivation switch enables rhythms in a Neurospora clock model
Emine Atici Endes, Heriot-Watt University
E and N-Cadherin-Dependent Non-Local Model For Wound Healing
Aden Forrow, Mathematical Institute, University of Oxford
Statistical Optimal Transport via Factored Couplings
Adrien Coulier, Dept of Information Technology, Uppsala University
A Compartment-Based SSA for biochemical simulations
Andreas Hellander, Hellander Lab at Uppsala University
A multiscale center-based model for coupling stochastic intracellular cell-cell signalling and cellular adhesion
Andrew Krause, Mathematical Institute, University of Oxford
Morphogenesis in complex and evolving domains
Annalisa Iuorio, Vienna University of Technology and Frits Veerman, University of Heidelberg
Flee the toxins: autotoxicity-induced traveling vegetation spots in a biomass-water-toxicity model
Aleksandra Ardaseva, Mathematical Institute, University of Oxford
Analysis of cancer dynamics in fluctuating environments
Bernadette Stolz, Mathematical Institute, University of Oxford
Applications of persistent homology to biological networks
Chitaranjan Mahapatra, Department of Biosciences & Bioengineering, Indian Institute of Technology Bombay
In silico pharmacological assessment of Mibefradil in single detrusor smooth muscle cell towards understanding the urinary bladder overactivity
Daria Stepanova, Centre de Recerca Matemàtica, Universitat Autònoma de Barcelona
Multiscale Modelling Of Complex Endothelial Cell Dynamics In Early Angiogenesis
Edward Yeo, Mathematical Institute, University of Oxford
Multiphase Flow Modelling of Magnetically Targeted Stem Cell Delivery
Emma Carrick Smith, Mathematical Institute, University of Oxford
Modelling the Clonal Evolution of Drug-Resistant Cells in Non-Small Cell Lung Carcinoma
Fabian Spill, Mathematics, University of Birmingham
Signal integration in the physical tumour microenvironment
Giulio Facchini, Life Science Department, University of Roehamtpon
Biology and physics of the most complex form of animal architecture: a study of growth and form of nests built by Nasutitermes
Heba Sailem, Institute of Biomedical Engineering, University of Oxford
KDML: a Knowledge-Driven Machine Learning for Characterising Genes Regulating Multicellular Organisation and Nuclear Morphology
Hugh Ford, Mathematics and Statistics, University of Sydney
Coalescence as a detrimental consequence of cellular cannibalism
Hye-Won Kang, Department of Mathematics and Statistics, University of Maryland Baltimore County
A Mathematical Model for Enzyme Clustering in Glucose Metabolism
Jenny Larsson, Department of Animal and Plant Sciences, University of Sheffield
A developmentally descriptive method for quantifying shape in snail shells
Joanne Dunster, University of Reading
Separatrix behaviour in enzyme kinetics
Johannes Borgqvist, University of Gothenburg
The polarising world of Cdc42: the importance of geometry in cell division
Jonathan Harrison, University of Warwick
Gaining quantitative insight into the mechano-chemical regulation of cell division via mathematical modelling
Ana Osojnik, Mathematical Institute, University of Oxford
Systematic analysis of a bifurcating model of tumour-immune interactions
Thursday 19th September, 12:00 - 13:30
Julia Stadlmann, University of Oxford
Brownian motion, L ́evy processes and random walks as limits of shift-periodic maps
Muhammad Humayun Kabir, Jahangirnagar University,
Model-aided understanding of the transition from hunter-gatherers to farmers in Europe
Liam Brown, Mathematical Institute, University of Oxford
Not of Mice, But Men: How Does Immunotherapeutic Success Depend on Species?
Aaron Lim, Population Health Sciences, Bristol Medical School, University of Bristol
Estimating the Impact and Costs of Scaling-Up Screening and Treatment for Hepatitis C Virus in Pakistan: Working Towards Elimination
Lukas Eigentler, Mathematical and Computer Sciences, Heriot-Watt University
Metastability as a coexistence mechanism in a model for dryland vegetation patterns
Duncan Martinson, Mathematical Institute, University of Oxford
Applications of Multiscale Simulation Algorithms to Angiogenesis Models
Michael Adamer, Mathematical Institute, University of Oxford
Coloured Noise in Stochastic Turing Systems
Natasha Ellison, Mathematics and Statistics, University of Sheffield
Mechanistic modelling of the home range patterns of long-tailed tits
Phebe Mawuena Afi Havor, National Institute for Mathematical Sciences, Ghana
Dynamics of Disease Models with Self-Diffusion: Cholera Epidemic in Ghana
Radek Erban, Mathematical Institute, University of Oxford
Multiscale Methods for Modelling Intracellular Processes with Single-Molecule Detail
Rasa Giniunaite, Mathematical Institute, University of Oxford
How does domain growth influence the collective migration of neural crest cells?
Ravinda Gunaratne, Mathematical Institute, University of Oxford
Multi-resolution modelling in molecular dynamics
Rifaldy Fajar, Department of Mathematics, Yogyakarta State University
Mathematics Model and Numerical Solution of Reaction-Difussion Equations in Conduction Cardiac Tissue Models
Roisin Stephens, Mathematical Institute, University of Oxford
Optimising biopsy scheduling, integrating digital pathology and agent-based modelling
Sandra Montes, Department of Engineering Mathematics, University of Bristol
Multiscale computational modelling of intestinal organoids
Seirin Lee, Department of Mathematics, Hiroshima University
A Single Reaction-Diffusion Equation for the Multifarious Eruptions of Urticaria
Sonja Mathias, Department of Information Technology, Division of Scientific Computing, Uppsala University
Choose your force function wisely - a computational study on center-based models
Thomas Pak, Mathematical Institute, University of Oxford
Pakman: a modular and efficient software tool for approximate Bayesian inference
Tom Prescott, Mathematical Institute, University of Oxford
Multifidelity Approximate Bayesian Computation
Victoria Ponce, Institute for Applied Mathematics, Heidelberg University
Quantitative frameworks for understanding cancer cell invasion through in-vitro scratch assays
Valerie Voorsluijs, Mathematical Institute, University of Oxford
Impact of mitochondrial exchanges on calcium wave propagation in astrocytes
Joshua Bull, Mathematical Institute, University of Oxford
Inferring tumour spheroid composition and dynamics from infiltration experiments and modelling
Yansong Zhao, Mathematical Institute, University of Oxford
Chronotherapy for Cancer: Using Mathematical Modelling to Get the Timing Right