@article{JEDP_2004____A6_0, author = {Grenier, Emmanuel}, title = {Quelques mod\`eles en m\'edecine}, journal = {Journ\'ees \'equations aux d\'eriv\'ees partielles}, eid = {6}, pages = {1--23}, publisher = {Groupement de recherche 2434 du CNRS}, year = {2004}, doi = {10.5802/jedp.6}, zbl = {02161532}, mrnumber = {2135361}, language = {fr}, url = {http://www.numdam.org/articles/10.5802/jedp.6/} }
Grenier, Emmanuel. Quelques modèles en médecine. Journées équations aux dérivées partielles (2004), article no. 6, 23 p. doi : 10.5802/jedp.6. http://www.numdam.org/articles/10.5802/jedp.6/
[1] L. Arakelyan, V. Vainstein et al. : A computer algorithm describing the process of vessel formation and maturation, and its use for predicting the effects of anti-angiogenic and anti-maturation therapy on vascular tumor growth", Angiogenesis, (2002), , .
[2] T. Back et al. : Failure to demonstrate peri-infarct depolarizations by repetitive MR diffusion imaging in acute human stroke, Stroke, (), , .
[3] M.A. Dronne : Elaboration d’un modèle représentant les principaux mécanismes tissulaires et cellulaires mis en jeu lors de la formation de l’oedème cytotoxique suite à un accident vasculaire cérébral ischémique, Rapport technique, .
[4] M.A. Dronne et al. : Influence of brain geometry on spreading depressions : a computationnal study, preprint, .
[5] M.A. Dronne et al. : Models of spreading depressions, following Nedergaard, preprint, .
[6] M.A. Dronne, E. Grenier, H. Gilquin : Modelization of spreading depressions following Nedergaard, preprint, .
[7] A. Friedman : A hierarchy of cancer models and their mathematical challenges, DCDS, (4), . | MR | Zbl
[8] M. Chaplain, A. Anderson : Mathematical modelling of tumour induced angiogenesis : network growth and structure, Cancer Treat Res, () .
[9] A. Gorji et al. : Spreading depression in human neocortical slices, Brain Research, () , .
[10] A. Gorji : Spreading depression : a review of the clinical relevance, Brain Research Reviews, (), .
[11] E. Grenier et al. : Spreading depression like phenomenum induced by repetitive firing.
[12] B. Grafstein : Mechanism of spreading cortical depression, J. Neurophysiol. (), .
[13] A.L. Hodgkin, A.F. Huxley : A quantitative description of membrane current and its application to conduction and excitation in nerve, J. Physiol, (), .
[14] A.A.P. Leao : Spreading depression of activity in the cerebral cortex, J. Neurophysiology, () , .
[15] MR Owen, HM Bryne, et al : Mathematical modelling of the use of macrophages as vehicles for drug delivery to hypoxic tumour sites, J. Theor Biol, () . | MR
[16] B.E. Shapiro : Osmotic forces, gap junctions, and spreading depressions : a computational model, PhD Thesis, U.C.L.A..
[17] KR Swanson, C. Bridge, et al. : Virtual and real brain tumors : using mathematical modeling to quantify glioma growth and invasion, J Neurol Sci () .
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