Abstract: A method for in vitro predicting survival and/or metastatic outcome of gastrointestinal stromal tumors (GISTs), characterized in that it comprises the measure of the level, in a patient-derived biological sample of GIST, of a pool of polypeptides or polynucleotides consisting in Aurora kinase A (AURKA); a kit for the in vitro prediction of the survival outcome of a patient suffering from GIST, and/or the development of metastases in a patient treated for or suffering from GIST, and/or the prediction of the efficacy of a treatment for GIST, characterized in that it comprises means for detecting and/or quantify, in a sample, AURKA expression or level, and means for the calculation of the GI; and a method for screening for compounds for the use in the treatment of GISTs and to an AURKA inhibitor for its use in the treatment of GISTs.

Abstract: A method for treating the surface of a polymerio substrate, including the following steps: providing a first polymeric substrate; contracting at least one part of one face of the first substrate with some liquid solvent system, the liquid solvent system containing at least a first volatile compound and at least a second compound having a low molecular weight and able to swell and/or soften the polymeric material forming the face; letting at least the volatile compound to evaporate from the face of the first substrate and; contracting the so-treated face of first substrate with a third material.

Abstract: The present invention relates to a method for treating at least a surface of a substrate containing labile hydrogen atoms to confer to it cytotoxic properties or cell-adhesion properties, characterized in that it comprises at least a step consisting of exposing, within a liquid medium, said substrate or a surface thereof with at least a copolymer, said copolymer containing at least a monomer unit of type A including at least a reactive site able to attach to said substrate or said surface by covalent bonds and at least a monomer unit of type B including at least one molecule able to confer antimicrobial, antiviricidal and/or antifungicidal or cell-adhesion properties to said substrate or said surface, said step being carried out in efficient conditions to promote the covalent grafting of said copolymer to said substrate or a surface thereof.