Markus Owen

Contact

• workRoom C5 The Mathematical Sciences Building
  University Park
  Nottingham
  NG7 2RD
  UK
• work0115 8467214
• fax0115 9514951
• markus.owen@nottingham.ac.uk

Biography

• BSc Applied Mathematics, Warwick, 1994 (1st class)
• PhD Interdisciplinary Applied Mathematics, Warwick, 1997 (supervisor, Jonathan Sherratt)
• PDRA, University of Utah, 1997-1999
• Lecturer, Loughborough University, 1999-2003; Senior Lecturer, 2003-2004
• Reader, University of Nottingham, 2004-2013
• Professor of Mathematical Biology, 2013-date

Teaching Summary

Modules

• MTHS1001 Calculus and Linear Algebra (Linear Algebra, Autumn Semester)
• MATH4046 Practical Biomedical Modelling

I am particularly interested in how to deliver mathematical modelling concepts to life scientists.

Research Summary

From 2011 to 2019 I was Head of the Mathematical Medicine and Biology Research Group and Director of the Centre for Mathematical Medicine and Biology.

From 2015 to 2022 I led a Leverhulme Doctoral Scholarships programme in Modelling and Analytics for a Sustainable Society. Going further back, I led the BBSRC-funded Multiscale Biology Network and the EPSRC-funded Cell Signalling Network (Signet).

Google Scholar | Nottingham ePrints | ORCiD | ResearcherID | Twitter @MarkusOwenMMB | LMS Directory

Current PhD students: Nicholas Harbour

Previous PhD students:

• Rik Rutjens (2023), Simulating maize/bean polycultures using functional-structural plant modelling (viva passed with minor correction, 6 Nov 2023)
• Bethan Morris (2022), Characterisation of glioblastoma sub-populations using mathematical modelling and inference (viva passed with minor corrections, 15 Sept 2022)
• Heather Collis (2022), Mathematical modelling of auxin dynamics in the model plant Arabidopsis thaliana (viva passed with minor corrections, 9 Sept 2022)
• Avinash Harkison (2022), Modelling and Experiment to Understand the Control of Germ Cell Migration in vivo (viva pending)
• Lorna Burnell (2021), Risks to global water resources from geoengineering the climate with solar radiation management.
• Ernst Schäfer (2021), Modelling Plant Root Systems: Nutrient Uptake, Resilience and Trait Optimisation
• Tim Whiteley (2020), Analysis and spatio-temporal modelling of spatial patterns in urban systems: agglomeration, segregation and food deserts
• Holly Smith (2019), Pattern Formation by Lateral Inhibition in Physiological and Tumour Angiogenesis
• Linda Irons (2019), Modelling cell-matrix interactions in airway smooth muscle cells.
• Regi Jurkus (2019), Learned fear extinction: an interdisciplinary investigation of the neurocircuitry and the potential therapeutic benefit of cannabidiol.
• Lee Curtin (2018), Mathematical modelling of brain tumour growth and therapy.
• Jakub Köry (2017), Multiscale modelling of nutrient and water uptake by plants
• Tanvi Joshi (2015), Multiscale modelling of cancer growth and therapy
• Lindsey Macdougall (2015), Mathematical modelling of retinal metabolism
• Michelle Baker (2015), Mathematical modelling of cytokine dynamics in arthritic disease
• Georgina Fenton (2014), Neural network interactions underlying emotional learning and memory: integrating experimental and theoretical approaches.
• Sunny Modhara (2014), Mathematical modelling of vascular development in zebrafish
• Sotiris Prokopiou (2013), Integrative modelling of angiogenesis in the bovine corpus luteum
• Wodu Majin (2011), Mathematical modelling of GPCR-mediated calcium signalling
• Ioannis Taxidis (2011), Modelling and analysis of cortico-hippocampal interactions and dynamics during sleep and anaesthesia
• Duncan Barrack (2010), Modelling cell cycle entrainment during cortical brain development.
• Johanna Stamper (2009), Approaches to modelling angiogenesis and vasculogenesis in solid tumours.
• Sabine Schamberg (2009), Modelling planar cell polarity in Drosophila melanogaster
• James Smith (2006).

Previous PDRAs: Lloyd Bridge, Jenn Gaskell, Yue Hu, Alistair Middleton, Stephen Pring, Johanna Stamper, Steve Webb and Hao Zhu

My principal research interests are in the application of nonlinear mathematical models to problems in cell biology, in particular to cancer, angiogenesis (the growth of new blood vessels), developmental biology (both in animals and plants) and neuroscience. I also have an interest in ecology and immunology. I use a variety of mathematical approaches, including models for single cells, populations and tissues, and a range of tools for mathematical analysis and computer simulation. Much of this work is underpinned by multidisciplinary collaborations with life scientists, engineers, computer scientists and other mathematicians.

Selected Publications

• OWEN, M.R., STAMPER, I.J., MUTHANA, M., RICHARDSON, G.W., DOBSON, J., LEWIS, C.E. and BYRNE, H.M., 2011. Mathematical modeling predicts synergistic antitumor effects of combining a macrophage-based, hypoxia-targeted gene therapy with chemotherapy Cancer Research. 71(8), 2826
• OWEN, M.R., ALARCÓN, T., MAINI, P.K. and BYRNE, H.M., 2009. Angiogenesis and vascular remodelling in normal and cancerous tissues Journal of Mathematical Biology. 58(4-5), 689-721
• COOMBES, S. and OWEN, M.R., 2005. Bumps, breathers and waves in a neural network with spike frequency adaptation Physical Review Letters. VOL 94(NUMB 14), 148102
• OWEN, M.R., 2002. Waves and propagation failure in discrete space models with nonlinear coupling and feedback Physica D: Nonlinear Phenomena. 173(1-2), 59-76

• View all publications

The Centre for Mathematical Medicine and Biology (CMMB) is based within the School of Mathematical Sciences and comprises members of the University of Nottingham who use mathematical methods to provide insights into biological and biomedical phenomena. We aim to promote the application of mathematical modelling to medicine and the biomedical sciences, and to stimulate multi-disciplinary research within the University and beyond

.

Past Research

MODELLING THE MACROPHAGE INVASION OF TUMOURS

Even in the early stages of their development, tumours are not simply a homogeneous grouping of mutant cells; rather, they develop in tandem with normal tissue cells, and also recruit other cell types. Many solid tumours contain a high proportion of macrophages, a type of white blood cell which can have a variety of effects upon the tumour, leading to a delicate balance between growth promotion and inhibition.

ODE model for macrophage-tumour interactions: Initial research concentrated on an ODE model for the anti-tumour effects of macrophages, a type of white blood cell, and results show that while macrophages can strongly affect the cellular composition of a tumour, they cannot eliminate it altogether. Inclusion in this model of a source term of chemical regulator, corresponding to some immuno-therapeutic strategies targeting macrophages, was shown to lead to the possibility of tumour regression. A detailed bifurcation analysis demonstrated the possibility of multiple stable steady states and hysteresis.

Immunotherapy simulation (jpeg).

PDE model -- pattern formation: Tumour growth is very much a spatial phenomenon, and so the natural next step was to include spatial variation. In the consequent PDE model, random cell movement and diffusion of a chemical regulator lead to a pattern forming bifurcation behind a travelling wave front of invading tumour cells. This is explained by the rapid diffusion of chemical regulator leading to a typical long range activation---short range inhibition type mechanism. These results suggest that tumour heterogeneity may arise in part as a consequence of macrophage infiltration.

2d simulation showing evolution of a pattern behind a travelling wave of tumour invasion.

An intuitive explanation for this spatial instability is that given a local perturbation increasing the density of mutant cells, chemical regulator production will also increase locally. Then if the chemical diffuses fast enough, it will act non-locally to activate macrophages to the tumouricidal state and to stimulate an additional influx of macrophages. This will suppress non-local mutant cell growth, whilst enhancing local mutant cell growth, due to the relative suppression of local macrophage activation, so that the original perturbation will grow in time.

PDE model -- spatiotemporal irregularity: Using data from the literature I determined ranges for the parameters governing macrophage motility using a mathematical model of the experimental procedure. Including macrophage chemotaxis with these parameters led to the development of irregular wakes behind the wave front of invading tumour cells. This phenomenon was investigated using domain length as a bifurcation parameter. Stable oscillating solutions with a regular period were found to coexist with stable steady patterns for certain windows in domain length which were deduced to appear at regular intervals. Intuitively the wave front can be treated as a moving boundary, leading to the proposal that as the wave spreads out, the effective domain length passes through a series of bifurcations, so that the solution seen is always transient and irregular.

Snapshots from a two-dimensional simulation illustrating that chemotaxis leads to solutions which are irregular in space and time. For a movie of a similar simulation, click here: Chemotaxis induces spatiotemporal irregularities (mpeg) and another example (mpeg).

Future Research

Future research will continue to focus on many of the above topics. For PhD opportunities, see:

https://www.nottingham.ac.uk/mathematics/study/research/postgraduate-projects.aspx

• SCHAFER, ERNST D., OWEN, MARKUS R., BAND, LEAH R., FARCOT, ETIENNE, BENNETT, MALCOLM J. and LYNCH, JONATHAN P., 2022. Modeling root loss reveals impacts on nutrient uptake and crop development PLANT PHYSIOLOGY.
• WHITELEY, TIMOTHY D., AVITABILE, DANIELE, SIEBERS, PEER-OLAF, ROBINSON, DARREN and OWEN, MARKUS R., 2022. Modelling the emergence of cities and urban patterning using coupled integro-differential equations JOURNAL OF THE ROYAL SOCIETY INTERFACE. 19(190),
• BENSON, THOMAS, DE BIE, JASPER, GASKELL, JENNIFER, VEZZA, PAOLO, KERR, JAMES R., LUMBROSO, DARREN, OWEN, MARKUS R. and KEMP, PAUL S., 2021. Agent-based modelling of juvenile eel migration via selective tidal stream transport (vol 443, 109448, 2021) ECOLOGICAL MODELLING. 453,
• RIZZA, ANNALISA, TANG, BIJUN, STANLEY, CLAIRE E., GROSSMANN, GUIDO, OWEN, MARKUS R., BAND, LEAH R. and JONES, ALEXANDER M., 2021. Differential biosynthesis and cellular permeability explain longitudinal gibberellin gradients in growing roots PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA. 118(8),
• CURTIN, LEE, HAWKINS-DAARUD, ANDREA, VAN DER ZEE, KRISTOFFER G., SWANSON, KRISTIN R. and OWEN, MARKUS R., 2020. Speed Switch in Glioblastoma Growth Rate due to Enhanced Hypoxia-Induced Migration BULLETIN OF MATHEMATICAL BIOLOGY. 82(3),
• IRONS, LINDA, HUANG, HUANG, OWEN, MARKUS R, O’DEA, REUBEN D, MEININGER, GERALD A and BROOK, BINDI S, 2020. Switching behaviour in vascular smooth muscle cell-matrix adhesion during oscillatory loading Journal of Theoretical Biology. 110387
• MORRIS, B, CURTIN, L, HAWKINS-DAARUD, A, HUBBARD, ME, RAHMAN, R, SMITH, SJ, AUER, D, TRAN, NL, HU, LS, SWANSON, KR and OWEN, MR, 2020. Identifying the spatial and temporal dynamics of molecularly-distinct glioblastoma sub-populations Mathematical Biosciences and Engineering. 17(5), 4905-4941
• LEE CURTIN, ANDREA HAWKINS-DAARUD, ALYX B. PORTER, KRISTOFFER G. VAN DER ZEE, MARKUS R. OWEN and KRISTIN R. SWANSON, 2020. A Mechanistic Investigation into Ischemia-Driven Distal Recurrence of Glioblastoma Bulletin of Mathematical Biology. 82, 143
• JOSHI TV, AVITABILE D and OWEN MR, 2018. Capturing the Dynamics of a Hybrid Multiscale Cancer Model with a Continuum Model. Bulletin of mathematical biology. (In Press.)
• L. IRONS, M.R. OWEN, R.D. O'DEA and B.S. BROOK, 2018. Effect of Loading History on Airway Smooth Muscle Cell-Matrix Adhesions Biophysical Journal. 114(11), 2679–2690
• DIETRICH D, PANG L, KOBAYASHI A, FOZARD JA, BOUDOLF V, BHOSALE R, ANTONI R, NGUYEN T, HIRATSUKA S, FUJII N, MIYAZAWA Y, BAE TW, WELLS DM, OWEN MR, BAND LR, DYSON RJ, JENSEN OE, KING JR, TRACY SR, STURROCK CJ, MOONEY SJ, ROBERTS JA, BHALERAO RP, DINNENY JR, RODRIGUEZ PL, NAGATANI A, HOSOKAWA Y, BASKIN TI, PRIDMORE TP, DE VEYLDER L, TAKAHASHI H and BENNETT MJ, 2017. Root hydrotropism is controlled via a cortex-specific growth mechanism. Nature plants. 3, 17057
• POSTMA JA, KUPPE C, OWEN MR, MELLOR N, GRIFFITHS M, BENNETT MJ, LYNCH JP and WATT M, 2017. OpenSimRoot: widening the scope and application of root architectural models. The New phytologist. 215(3), 1274-1286
• BAKER, MICHELLE, BROOK, BINDI S. and OWEN, MARKUS R., 2017. Mathematical modelling of cytokines, MMPs and fibronectin fragments in osteoarthritic cartilage JOURNAL OF MATHEMATICAL BIOLOGY. 75(4), 985-1024
• ZHU, HAO, OWEN, MARKUS R. and MAO, YANLAN, 2016. The spatiotemporal order of signaling events unveils the logic of development signaling Bioinformatics.
• MELLOR, NATHAN, BAND, LEAH R., PENCIK, ALES, NOVAK, ONDREJ, RASHED, AFAF, HOLMAN, TARA, WILSON, MICHAEL H., VOSS, UTE, BISHOPP, ANTHONY, KING, JOHN R., LJUNG, KARIN, BENNETT, MALCOLM J. and OWEN, MARKUS R., 2016. Dynamic regulation of auxin oxidase and conjugating enzymes AtDAO1 and GH3 modulates auxin homeostasis PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA. 113(39), 11022-11027
• BARRACK DS, THUL R and OWEN MR, 2015. Modelling cell cycle synchronisation in networks of coupled radial glial cells. Journal of theoretical biology. 377, 85-97 (In Press.)
• BEGITT, ANDREAS, DROESCHER, MATHIAS, MEYER, THOMAS, SCHMID, CHRISTOPH D., BAKER, MICHELLE, ANTUNES, FILIPA, OWEN, MARKUS R., NAUMANN, RONALD, DECKER, THOMAS and VINKEMEIER, UWE, 2014. STAT1-cooperative DNA binding distinguishes type 1 from type 2 interferon signaling NATURE IMMUNOLOGY. 15(2), 168-176
• BARRACK DS, THUL R and OWEN MR, 2014. Modelling the coupling between intracellular calcium release and the cell cycle during cortical brain development. Journal of theoretical biology. 347C, 17-32 (In Press.)
• FIGUEREDO, GRAZZIELA P, SIEBERS, PEER-OLAF, OWEN, MARKUS R, REPS, JENNA and AICKELIN, UWE, 2014. Comparing stochastic differential equations and agent-based modelling and simulation for early-stage cancer. PloS ONE. 9(4), e95150
• PROKOPIOU, SOTIRIS A., BYRNE, HELEN M., JEFFREY, MIKE R., ROBINSON, ROBERT S., MANN, GEORGE E. and OWEN, MARKUS R., 2014. Mathematical analysis of a model for the growth of the bovine corpus luteum JOURNAL OF MATHEMATICAL BIOLOGY. 69(6-7), 1515-1546
• FISCHER, S., HOUSTON, P., MONK, N.A.M. and OWEN, M.R., 2013. Is a Persistent Global Bias Necessary for the Establishment of Planar Cell Polarity? PLOS ONE. 8(4), e60064
• FIGUEREDO, GRAZZIELA P., JOSHI, TANVI V., OSBORNE, JAMES M., BYRNE, HELEN M. and OWEN, MARKUS R., 2013. On-lattice agent-based simulation of populations of cells within the open-source Chaste framework INTERFACE FOCUS. 3(2),
• ZHU, HAO and OWEN, MARKUS R., 2013. Damped propagation of cell polarization explains distinct PCP phenotypes of epithelial patterning SCIENTIFIC REPORTS. 3,
• TAXIDIS, JIANNIS, MIZUSEKI, KENJI, MASON, ROBERT and OWEN, MARKUS R., 2013. Influence of slow oscillation on hippocampal activity and ripples through cortico-hippocampal synaptic interactions, analyzed by a cortical-CA3-CA1 network model FRONTIERS IN COMPUTATIONAL NEUROSCIENCE. 7,
• PERET, BENJAMIN, MIDDLETON, ALISTAIR M., FRENCH, ANDREW P., LARRIEU, ANTOINE, BISHOPP, ANTHONY, NJO, MARIA, WELLS, DARREN M., PORCO, SILVANA, MELLOR, NATHAN, BAND, LEAH R., CASIMIRO, ILDA, KLEINE-VEHN, JUERGEN, VANNESTE, STEFFEN, SAIRANEN, ILKKA, MALLET, ROMAIN, SANDBERG, GORAN, LJUNG, KARIN, BEECKMAN, TOM, BENKOVA, EVA, FRIML, JIRI, KRAMER, ERIC, KING, JOHN R., DE SMET, IVE, PRIDMORE, TONY, OWEN, MARKUS and BENNETT, MALCOLM J., 2013. Sequential induction of auxin efflux and influx carriers regulates lateral root emergence MOLECULAR SYSTEMS BIOLOGY. 9,
• BAKER, MICHELLE, DENMAN-JOHNSON, SARAH, BROOK, BINDI S., GAYWOOD, IAN and OWEN, MARKUS R., 2013. Mathematical modelling of cytokine-mediated inflammation in rheumatoid arthritis MATHEMATICAL MEDICINE AND BIOLOGY-A JOURNAL OF THE IMA. 30(4), 311-337
• PERFAHL, H., BYRNE, H.M., CHEN, T., ESTRELLA, V., ALARCÓN, T., LAPIN, A., GATENBY, R.A., GILLIES, R.J., LLOYD, M.C., MAINI, P.K., REUSS, M. and OWEN, M.R., 2013. 3D Multiscale Modelling of Angiogenesis and Vascular Tumour Growth. In: COLLINS, MICHAEL W. and KOENIG, CAROLA S., eds., Micro and Nano Flow Systems for Bioanalysis 2. Springer New York. 29-48
• TAXIDIS, J., COOMBES, S., MASON, R. and OWEN, M.R., 2012. Modeling sharp wave-ripple complexes through a CA3-CA1 network model with chemical synapses Hippocampus. 22(5), 995-1017
• BAND, L.R., UBEDA-TOMAS, S., DYSON, R.J., MIDDLETON, A.M., HODGMAN, T.C., OWEN, M.R., JENSEN, O.E., BENNETT, M.J and KING, J.R., 2012. Growth-induced hormone dilution can explain the dynamics of plant root cell elongation Proceedings of the National Academy of Sciences of the United States of America: PNAS. 109(19), 7577-7582
• BAND. L.R., WELLS, D.M., LARRIEU, A., SUN, J., MIDDLETON, A.M., FRENCH, A.P., BRUNOUD, G., SATO, E.M., WILSON, M.H., PÉRET, B., OLIVA, M., SWARUP, R., SAIRANEN, I., PARRY, G., LJUNG, K., BEECKMAN, T., GARIBALDI, J.M., ESTELLE, M., OWEN, M.R., VISSENBERG, K., HODGMAN, T.C., PRIDMORE, T.P., KING, J.R., VERNOUX, T. and BENNETT, M.J., 2012. Root gravitropism is regulated by a transient lateral auxin gradient controlled by a tipping-point mechanism Proceedings of the National Academy of Sciences of the United States of America. 109(12), 4668-4673
• MIDDLETON A.M., UBEDA-TOMÁS S., GRIFFITHS J., HOLMAN T., HEDDEN P., THOMAS S.G., PHILLIPS A.L., HOLDSWORTH M.J., BENNETT M.J., KING J.R. and OWEN M.R., 2012. Mathematical modeling elucidates the role of transcriptional feedback in gibberellin signaling Proceedings of the National Academy of Sciences of the United States of America. 109(19), 7571-7576
• PRING SR, OWEN M, KING JR, SINCLAIR KD, WEBB R, FLINT APF and GARNSWORTHY PC, 2012. A mathematical model of the bovine oestrous cycle: Simulating outcomes of dietary and pharmacological interventions Journal of Theoretical Biology. 313, 115–126
• MIDDLETON AM, FARCOT E, OWEN MR and VERNOUX T, 2012. Modeling regulatory networks to understand plant development: small is beautiful. The plant cell. (In Press.)
• PRING, STEPHEN R., OWEN, MARKUS, KING, JOHN R., SINCLAIR, KEVIN D., WEBB, ROBERT, FLINT, ANTHONY P. F. and GARNSWORTHY, PHILIP C., 2012. A mathematical model of the bovine oestrous cycle: Simulating outcomes of dietary and pharmacological interventions JOURNAL OF THEORETICAL BIOLOGY. 313, 115-126
• OWEN, M.R., STAMPER, I.J., MUTHANA, M., RICHARDSON, G.W., DOBSON, J., LEWIS, C.E. and BYRNE, H.M., 2011. Mathematical modeling predicts synergistic antitumor effects of combining a macrophage-based, hypoxia-targeted gene therapy with chemotherapy Cancer Research. 71(8), 2826
• PERFAHL H, BYRNE HM, CHEN T, ESTRELLA V, ALARCÓN T, LAPIN A, GATENBY RA, GILLIES RJ, LLOYD MC, MAINI PK, REUSS M and OWEN MR, 2011. Multiscale Modelling Of Vascular Tumour Growth In 3D: The Roles Of Domain Size And Boundary Conditions. Plos One. 6(4), e14790
• MIDDLETON, A.M, KING, J.R, BENNETT, M.J and OWEN, M.R., 2010. Mathematical modeling of the Aux/IAA negative feedback loop Bull Math Biol. 72(6), 1383-1407
• SCHAMBERG, S., HOUSTON, P., MONK, N.A.M. and OWEN, M.R., 2010. Modelling and analysis of planar cell polarity Bulletin of Mathematical Biology. 72(3), 645-680
• STAMPER, I J, OWEN, M R, MAINI, P K and BYRNE, H M, 2010. Oscillatory dynamics in a model of vascular tumour growth--implications for chemotherapy. Biology direct. 5, 27
• TAXIDIS, J., COOMBER, B., MASON, R. and OWEN, M., 2010. Assessing cortico-hippocampal functional connectivity under anesthesia and kainic acid using generalized partial directed coherence Biological Cybernetics. 102(4), 327-340
• BRIDGE, LJ, KING, JR, HILL, SJ and OWEN, MR, 2010. Mathematical Modelling Of Signalling In A Two-Ligand G-Protein Coupled Receptor System: Agonist-Antagonist Competition Mathematical Biosciences. 223(2), 115-132
• BYRNE HM and OWEN MR, 2010. Macrophages And Tumours: Friends Or Foe?. In: MONDAINI RP, ed., 9th International Symposium on Mathematical and Computational Biology - BIOMAT 2009 WORLD SCIENTIFIC PUBL CO PTE LTD, PO BOX 128 FARRER RD, SINGAPORE 9128, SINGAPORE. 1-20
• SMITH, JAMES M D, MAAS, JAMES A, GARNSWORTHY, PHILIP C, OWEN, MARKUS R, COOMBES, STEPHEN, PILLAY, TAHIR S, BARRETT, DAVID A and SYMONDS, MICHAEL E, 2009. Mathematical modeling of glucose homeostasis and its relationship with energy balance and body fat. Obesity (Silver Spring, Md.). 17(4), 632-9
• OWEN, M.R., ALARCÓN, T., MAINI, P.K. and BYRNE, H.M., 2009. Angiogenesis and vascular remodelling in normal and cancerous tissues Journal of Mathematical Biology. 58(4-5), 689-721
• ZACHARIOU, M., DISSANAYAKE, D. W., COOMBES, S., OWEN, M. R. and MASON, R., 2008. Sensory gating and its modulation by cannabinoids: electrophysiological, computational and mathematical analysis COGNITIVE NEURODYNAMICS. VOL 2(NUMBER 2), 159-170
• BYRNE, H.M., VAN LEEUWEN, I.M.M., OWEN, M.R., ALARCON, T. and MAINI, P.K., 2008. Multiscale modelling of solid tumour growth. In: BELLOMO, N., DE ANGELIS, E. and CHAPLAIN, M.A.J., eds., Selected topics in cancer modelling: Genesis, evolution, immune competition, therapy. Birkhäuser.
• SMITH, J.M.D., WARD, J.P, CHILD, L.E. and OWEN, M.R., 2008. Modelling the spatial spread of Japanese knotweed (Fallopia japonica) on a local scale in the United Kingdom. In: TOKARSKA-GUZIK, B., BROCK, J.H., BRUNDU, G., CHILD, L., DAEHLER, C.C. and PYSEK, P., eds., Plant Invasions: Human perception, ecological impacts and management Backhuys. 145-160
• DILLON, R., PAINTER, K.J. and OWEN, M.R., 2008. A single-cell based model of cellular growth using the immersed boundary method. In: KHOO, B.C., LI, Z., LIN and P., eds., Moving Interface Problems and Applications in Fluid Dynamics American Mathematical Society. (In Press.)
• ZACHARIOU, M., DISSANAYAKE, D.W.N., OWEN, M.R., MASON, R. and COOMBES, S, 2007. The role of cannabinoids in the neurobiology of sensory gating: a firing rate model study Neurocomputing. 70(10-12), 1902-1906
• COOMBES, S, and OWEN, M.R., 2007. Exotic dynamics in a firing rate model of neural tissue with threshold accommodation. In: BOTELHO, F., HAGEN, T. and JAMISON, J., eds., Fluids and Waves: Recent Trends in Applied Analysis 440. American Mathematical Society. 123-144
• WEBB, S.D., OWEN, M.R., BYRNE, H.M., MURDOCH, C. and LEWIS, C.E., 2007. Macrophage-based anti-cancer therapy: modelling different modes of tumour targeting Bulletin of Mathematical Biology. 69, 1747-1776
• MAINI, P.K., ALARCON, T., BYRNE, H.M., OWEN, M.R. and MURPHY, J., 2007. Structural adaptation in normal and cancerous vasculature. In: ALETTI, G., BURGER, M., MICHELETTI, A. and MORALE D., eds., Math Everywhere: Deterministic and Stochastic Modelling in Biomedicine, Economics and Industry Springer. 165-178
• STAMPER, I J, BYRNE, H M, OWEN, M R and MAINI, P K, 2007. Modelling the role of angiogenesis and vasculogenesis in solid tumour growth. Bulletin of Mathematical Biology. 69(8), 2737-72
• SMITH, J.M.D., WARD, J.P, CHILD, L.E. and OWEN, M.R., 2007. A Simulation Model of Rhizome Networks for Fallopia japonica (Japanese Knotweed) in the United Kingdom Ecological Modelling. 200(3-4), 421-432 (In Press.)
• OWEN, M.R., LAING, C.R. and COOMBES, S., 2007. Bumps and rings in a two-dimensional neural field: splitting and rotational instabilities New Journal of Physics. 378 (In Press.)
• ZHU, H., YANG, H. and OWEN, M.R., 2007. Combined Microarray analysis uncovers self-renewal related signaling in mouse embryonic stem cells Systems and Synthetic Biology. 1(4), 171-181
• BYRNE, H. M., ALARCON, T., OWEN, M. R., WEBB, S. D. and MAINI, P. K., 2006. Modelling aspects of cancer dynamics: a review Philosophical Transactions of the Royal Society of London. Series A: Mathematical, physical, and engineering sciences. VOL 364(NUMB 1843), 1563-1578
• ALARCON, T, OWEN, M.R., BYRNE, H.M. and MAINI, P.K., 2006. Multiscale modelling of tumour growth and therapy: the influence of vessel normalisation on chemotherapy Computational and Mathematical Methods in Medicine. 7, 85-119
• BYRNE, H.M., OWEN, M., ALARCON, T. and MAINI, P.K., 2006. Cancer disease: integrative modelling approaches In: IEEE International Symposium on Biomedical Imaging: from nano to micro. 806-809
• BETTERIDGE, R., OWEN, M.R., BYRNE, H.M., ALARCON, T. and MAINI, P.K, 2006. The impact of cell crowding and active cell movement on vascular tumour growth Networks and Heterogeneous Media. 16(4), 515-535
• BYRNE, H.M., ALARCON, T., OWEN, M.R., MURPHY, J. and MAINI, P.K., 2006. Modelling the response of vascular tumours to chemotherapy: a multiscale approach Mathematical Models and Methods in Applied Sciences. 16(S1), 1219-1241
• BYRNE, HM, OWEN, MR, ALARCON, T and MAINI, PK, 2006. Cancer Disease: Integrative Modelling Approaches
• COOMBES, S. and OWEN, M.R., 2005. Bumps, breathers and waves in a neural network with spike frequency adaptation Physical Review Letters. VOL 94(NUMB 14), 148102
• COOMBES, S. and OWEN, M.R., 2004. Evans functions for integral neural field equations with heaviside firing rate function SIAM Journal on Applied Dynamical Systems. 3(4), 574-600
• BYRNE, H.M. and OWEN, M.R., 2004. A new interpretation of the Keller-Segel model based on multiphase modelling Journal of Mathematical Biology. 49(6), 604-626
• WEBB, S.D. and OWEN, M.R., 2004. Oscillations and patterns in spatially discrete models for developmental intercellular signalling Journal of Mathematical Biology. VOL 48(PART 4), 444-476
• WEBB, S. D. and OWEN, M. R., 2004. Intra-membrane ligand diffusion and cell shape modulate juxtacrine patterning Journal of Theoretical Biology. VOL 230(NUMBER 1), 99-117
• OWEN, M. R., BYRNE, H. M. and LEWIS, C. E., 2004. Mathematical modelling of the use of macrophages as vehicles for drug delivery to hypoxic tumour sites Journal of Theoretical Biology. VOL 226(NUMBER 4), 377-391
• OWEN, M.R., 2004. Book Review, Modelling Neural Development, Edited by Arjen van Ooyen
• COOMBES, S., LORD, G. J. and OWEN, M. R., 2003. Waves and bumps in neuronal networks with axo-dendritic synaptic interactions Physica D - Nonlinear Phenomena. VOL 178(NUMBER 3-4), 219-241
• OWEN, M.R., 2002. Waves and propagation failure in discrete space models with nonlinear coupling and feedback Physica D: Nonlinear Phenomena. 173(1-2), 59-76
• BYRNE, H. and OWEN, M.R., 2002. Use of mathematical models to simulate and predict macrophage activity in diseased tissues. In: BURKE, B. and LEWIS, C.E., eds., The Macrophage 2nd. Oxford University Press, Oxford.
• COOMBES, S, OWEN, M R and SMITH, G D, 2001. Mode locking in a periodically forced integrate-and-fire-or-burst neuron model. Physical Review E - Statistical, Nonlinear, and Soft Matter Physics. 64(4 Pt 1), 041914
• OWEN, M.R. and LEWIS, M.A., 2001. How predation can slow, stop or reverse a prey invasion Bulletin of Mathematical Biology. VOL 63(PART 4), 655-684
• OWEN, M. R. and LEWIS, M. A., 2001. The Mechanics of Lung Tissue under High-Frequency Ventilation SIAM Journal on Applied Mathematics. VOL 61(PART 5), 1731-1761
• OWEN, M. R., SHERRATT, J. A. and WEARING, H. J., 2000. Lateral Induction by Juxtacrine Signaling Is a New Mechanism for Pattern Formation Developmental Biology. VOL 217(PART 1), 54-61
• MONK, N.A., SHERRATT, J.A. and OWEN, M.R., 2000. Spatiotemporal patterning in models of juxtacrine intercellular signalling with feedback. In: MAINI, P.K. and OTHMER, H.G., eds., Mathematical Models for Biological Pattern Formation Springer, New York, USA. 165-192
• WEARING, H. J., OWEN, M. R. and SHERRATT, J. A., 2000. Mathematical Modelling of Juxtacrine Patterning Bulletin of Mathematical Biology. VOL 62(PART 2), 293-320
• OWEN, M. R. and SHERRATT, J. A., 1999. Mathematical Modelling of Macrophage Dynamics in Tumours Mathematical Models and Methods in Applied Sciences. VOL 9(NUMBER 4), 513-540
• SHERRATT, J.A., PERUMPANANI, A.J. and OWEN, M.R., 1999. Pattern formation in cancer. In: On Growth and Form: Spatio-temporal Pattern Formation in Biology John Wiley & Sons, Chichester, UK.
• OWEN, M. R., SHERRATT, J. A. and MYERS, S. R., 1999. How far can a juxtacrine signal travel? Proceedings of the Royal Society B: Biological Sciences. ISSUE 1419, 579-585
• OWEN, M. R. and SHERRATT, J. A., 1998. Modelling the macrophage invasion of tumours: Effects on growth and composition IMA Journal of Mathematics Applied in Medicine and Biology. VOL 15(NUMBER 2), 165-186
• OWEN, M. R. and SHERRATT, J. A., 1998. Mathematical modelling of juxtacrine cell signalling Mathematical Biosciences. VOL 153(NUMBER 2), 125-150
• OWEN, M. R. and SHERRATT, J. A., 1997. Pattern Formation and Spatiotemporal Irregularity in a Model for Macrophage-Tumour Interactions Journal of Theoretical Biology. VOL 189(NUMBER 1), 63-80
• OWEN, M.R., GOMES, M.G. and KING, G.P., 1994. Detecting symmetric chaos In: Complex Stochastic Systems and Engineering, IMA Conference Proceedings Series.