| 16.00 - 16.20 | M. Bodnar On some stochastic models of avascular tumour growth |
| 16.20 - 16.40 | E. De Angelis Mathematical problems related to the immune competition |
| 16.40 - 17.00 | M. Kolev A mathematical model of cellular immune response to cancer |
| 17.00 - 17.20 | S. McDougall Network modelling techniques applied to anti-angiogenesis and chemotherapy strategies |
| 17.20 - 17.40 | W. Rocchia Computational aspects in the calculations of the electrostatic contribution in protein - protein association |
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17.40 - 18.00
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R. Kowalczyk On the stability of solutions to some aggregation models |
| 16.00 - 16.20 | E. Canetta Experimental observation of cell-substrate adhesion |
| 16.20 - 16.40 | R. Gatenby Mathematical models of acid-mediated tumor invasion predict new treatment modalities: correlation with experimental results and clinical trials |
| 16.40 - 17.00 | W. Grygierzec Dynamics of hematopoiesis: experiments and models |
| 17.00 - 17.20 | A. Drochon A flow chamber with a porous wall to study cancer cells transmigration |
| 17.20 - 17.40 | P. Zhivkov Analysis in simple models of tumor-immune system interaction |
| 17.40 - 18.00 | U. Forys Delays in tumour growth dynamics |
| 16.00 - 16.20 | D. Ambrosi Mechanical aspects in tumor growth |
| 16.20 - 16.40 | A. Anderson A hybrid model of solid tumour growth: the effect of adhesion mutations |
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A. Bru Tumor growth dynamics |
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A. Gandolfi Changes in tumour cord size following cytotoxis treatments |
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J. Panovska Mathematical modelling of cancer invasion and possibilities of treatment |
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S. Webb Modelling capillary sprout formation in tumour angiogenesis |