Biomedical Engineering Reference
In-Depth Information
103. Metz, J., Diekmann, O.: The dynamics of physiologically structured populations. In: Lecture
Notes in Biomathematics, vol. 68. Springer, New York (1986)
104. Montalenti, F., Sena, G., Cappella, P., Ubezio, P.: Simulating cancer-cell kinetics after drug
treatment: application to cisplatin on ovarian carcinoma. Phys. Rev. E
57
, 5877-5887 (1998)
105. Morgan, D.: The Cell Cycle: Principles of Control. Primers in Biology series. Oxford
University Press, Oxford (2006)
106. Murray, J.: Optimal control for a cancer chemotherapy problem with general growth and loss
functions. Math. Biosci.
98
, 273-287 (1990)
107. Murray, J.: Some optimal control problems in cancer chemotherapy with a toxicity limit.
Math. Biosci.
100
, 49-67 (1990)
108. Murray, J.: The optimal scheduling of two drugs with simple resistance for a problem in
cancer chemotherapy. IMA J. Math. Appl. Med. Biol.
14
, 283-303 (1997)
109. Murray, J.: Mathematical Biology. I: An Introduction, 3rd edn. Springer, New York (2002)
110. Murray, J.: Mathematical Biology. II: Spatial Models and Biomedical Applications, 3rd edn.
Springer, New York (2003)
111. Nocedal, J., Wright, S.: Numerical Optimization. Springer, New York (1999)
112. Norris, E., King, J., Byrne, H.: Modelling the response of spatially structured tumours to
chemotherapy: Drug kinetics. Math. Comput. Model.
43
, 820-837 (2006)
113. Nowsheen, S., Aziz, K., Panayiotidis, M.I., Georgakilas, A.G.: Molecular markers for
cancer prognosis and treatment: have we struck gold? Canc. Lett. (2011) Published on line,
November 2011, DOI:10.1016/j.canlet.2011.11.022.
114. Panetta, J.C.: A mathematical model of breast and ovarian cancer treated with paclitaxel.
Math. Biosci.
146
(2), 89-113 (1997)
115. Panetta, J., Adam, J.: A mathematical model of cell-specific chemotherapy. Math. Comput.
Model.
22
, 67 (1995)
116. Panetta, J.C., Kirstein, M.N., Gajjar, A.J., Nair, G., Fouladi, M., Stewart, C.F.: A mechanistic
mathematical model of temozolomide myelosuppression in children with high-grade gliomas.
Math. Biosci.
186
, 29-41 (2003)
117. Panetta, J.C., Evans, W.E., Cheok, M.H.: Mechanistic mathematical modelling of mercaptop-
urine effects on cell cycle of human acute lymphoblastic leukaemia cells. Br. J. Canc.
94
(1),
93-100 (2006)
118. Pereira, F., Pedreira, C., de Sousa, J.: A new optimization based approach to experimental
combination chemotherapy. Frontiers Med. Biol. Engng.
6
(4), 257-268 (1995)
119. Perthame, B.: Transport equations in biology. Frontiers in Mathematics Series. Birkhauser,
Boston (2007)
120. Perthame, B., Zubelli, J.: On the inverse problem for a size-structured population model.
Inverse Problems
23
, 1037-1052 (2007)
121. Pontryagin, L.S., Boltyanski, V.G., Gamkrelidze, R.V., Mishchenko, E.F.: The mathematical
theory of optimal processes. Interscience Publishers, New York (1962) Translated from the
Russian by K.N. Trirogoff.
122. Prenen, H., Tejpar, S., Cutsem, E.V.: New strategies for treatment of kras mutant metastatic
colorectal cancer. Clin. Canc. Res.
16
, 2921-2926 (2010)
123. Ribba, B., Saut, O., Colin, T., Bresch, D., Grenier, E., Boissel, J.P.: A multiscale mathematical
model of avascular tumor growth to investigate the therapeutic benefit of anti-invasive agents.
J. Theor. Biol.
243
, 532-541 (2006)
124. Ribba, B., Watkin, E., Tod, M., Girard, P., Grenier, E., You, B., Giraudo, E., Freyer, G.:
A model of vascular tumour growth in mice combining longitudinal tumour size data with
histological biomarkers. Eur. J. Canc.
47
, 479-490 (2011)
125. Sakaue-Sawano, A., Ohtawa, K., Hama, H., Kawano, M., Ogawa, M., Miyawaki, A.: Tracing
the silhouette of individual cells in S/G2/M phases with fluorescence. Chem. Biol.
15
,
1243-48 (2008)
126. Shah, N., Tran, C., Lee, F., Chen, P., Norris, D., Sawyers, C.: Overriding imatinib resistance
with a novel ABL kinase inhibitor. Science
305
, 399-401 (2004)
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