Jean Clairambault: enseignement / teaching

  • Presentations in workshops and Winter/Summer schools: Cancer growth and therapy and the use of mathematical models (MSV Paris 2005; Mathematical Methods and Modelling of Biophysical Phenomena, Angra dos Reis 2006; Journées de l'équipe d'analyse appliquée de l'Université de Provence, Porquerolles 2007);
    Modelling circadian and pharmacological controls on the cell cycle and tumour growth (2nd Biosim Conference, Mallorca 2006; Journées de l'équipe d'analyse appliquée de l'Université de Provence, Porquerolles 2007; Mathematical Methods and Modeling of Biophysical Phenomena, Buzios 2007).

    Cell proliferation, circadian clocks and molecular pharmacokinetics-pharmacodynamics to optimise cancer treatments [1], Biomath summer school, Dundee 2010.
    Cell proliferation, circadian clocks and molecular pharmacokinetics-pharmacodynamics to optimise cancer treatments [2], Biomath summer school, Dundee 2010.
    Cell proliferation, circadian clocks and molecular pharmacokinetics-pharmacodynamics to optimise cancer treatments [3], Biomath summer school, Dundee 2010.

    Drug resistance in cancer I: An evolutionary perspective on cancer, with applications to drug resistance modelling (12.5 Mo), Non local aspects in mathematical biology, Bedlewo (Poland), January 2016.
    Drug resistance in cancer II: Perspectives in therapeutic control (2.5 Mo), Non local aspects in mathematical biology, Bedlewo (Poland), January 2016.

    Course on Heterogeneity, drug resistance and evolution in cancer (17.1 Mb), M2 "Stem Cell Biology", UPMC, Paris, September 2016.

    From single-cell molecular to cell-populational phenotypically structured models to optimise cancer therapeutics: I. Models of cancer growth and therapy, Winter School on "Mathematical Models of Tumour and Disease", Institute of Natural Sciences, Shanghai Jiaotong University, December 2016.
    From single-cell molecular to cell-populational phenotypically structured models to optimise cancer therapeutics: II. Controlling the cell division cycle using chronotherapeutics of anticancer drugs, Winter School on "Mathematical Models of Tumour and Disease", Institute of Natural Sciences, Shanghai Jiaotong University, December 2016.
    From single-cell molecular to cell-populational phenotypically structured models to optimise cancer therapeutics: III. An evolutionary perspective on cancer, with applications to drug resistance modelling, Winter School on "Mathematical Models of Tumour and Disease", Institute of Natural Sciences, Shanghai Jiaotong University, December 2016.
    From single-cell molecular to cell-populational phenotypically structured models to optimise cancer therapeutics: IV. Drug resistance in cancer, with perspectives in optimal control, Winter School on "Mathematical Models of Tumour and Disease", Institute of Natural Sciences, Shanghai Jiaotong University, December 2016.
    Heterogeneity and plasticity in phenotype-structured models for cancer cell population dynamics, International Summer school "Topology and Dynamical Systems in Action", Gdańsk University of Technology, June 2023.


  • Chargé d'un cours: "Modélisation de la croissance cellulaire et tissulaire". Cours à option en troisième année à l'École Centrale de Paris, Châtenay-Malabry, 2007. Support de cours.

  • Chargé d'un cours: "Introduction à la biologie mathématique" dans le cadre "Appli 4 : Biotechnologies, module Modélisation et simulation" en deuxième année à l'École Centrale de Paris, Châtenay-Malabry, 2007-2011. Support de cours, sujet d'examen 2008 avec son corrigé, sujet 2009, sujet 2010 et sujet 2011 (sans corrigés).

  • Participation à l'enseignement dans la formation doctorale "Innovation thérapeutique", dans le M2 de pharmacologie, Paris XI, 2003-2012 : Cours : "Modélisation chronothérapeutique du schéma d'administration des médicaments" et "Bases de modélisation pour la synchronisation des horloges circadiennes", dans le M2 de pharmacologie, Rennes I, 2009-2012, ainsi que dans le DU de chronobiologie, Paris VI, 2003- 2007 : Cours : "Traitement des données en chronobiologie".

  • Course: Biologic rhythms and PK-PD: Toxicity and anti-tumour efficacy of oxaliplatin on Glasgow osteosarcoma in mice: a mathematical model for chronotherapeutics. Participation in the international ULLA pharmacy school, Châtenay-Malabry, 2003.

  • Enseignement des mathématiques en premier et deuxième cycle de mathématiques à l'Université Paris VIII (St. Denis) de 1996 à 2006. Sujets d'examen donnés aux niveaux L1 à L3.

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