RT @mathoncbro: Fun pair of #MathOnc23 talks from Pedro Lowenstein and Sebastien Motsch, describing “oncostreams” in gliomas with agent bas…
RT @mathoncbro: Fun pair of #MathOnc23 talks from Pedro Lowenstein and Sebastien Motsch, describing “oncostreams” in gliomas with agent bas…
Fun pair of #MathOnc23 talks from Pedro Lowenstein and Sebastien Motsch, describing “oncostreams” in gliomas with agent based modeling. Their team also submitted some #MathOnco art a while back! https://t.co/htZkyx9CMG https://t.co/RJLJTgPcwL
RT @mathoncbro: Very nice #MathOnco here: a novel math model that can be defined on a single page model is simple to understand, difficul…
RT @mathoncbro: Very nice #MathOnco here: a novel math model that can be defined on a single page model is simple to understand, difficul…
RT @mathoncbro: Very nice #MathOnco here: a novel math model that can be defined on a single page model is simple to understand, difficul…
RT @mathoncbro: Very nice #MathOnco here: a novel math model that can be defined on a single page model is simple to understand, difficul…
RT @mathoncbro: Very nice #MathOnco here: a novel math model that can be defined on a single page model is simple to understand, difficul…
Very nice #MathOnco here: a novel math model that can be defined on a single page model is simple to understand, difficult to put into practice, & useful to apply Modeling paper (@PLOSCompBiol) https://t.co/Ha1ubLsGNp Application paper (@NatureComm
RT @castro2355_mg: The discovery of oncostreams in high grade gliomas & their mathematical modeling led to the discovery that these structu…
RT @castro2355_mg: The discovery of oncostreams in high grade gliomas & their mathematical modeling led to the discovery that these structu…
RT @castro2355_mg: The discovery of oncostreams in high grade gliomas & their mathematical modeling led to the discovery that these structu…
The discovery of oncostreams in high grade gliomas & their mathematical modeling led to the discovery that these structures correlate with median survival & tumor invasion. This will open novel therapeutic approaches for these devastating brain tum
RT @castro2355_mg: This project in Pedro Lowenstein’s Lab was 4 years in the making!This collaboration with Sebastien Motsch, a mathematica…
RT @castro2355_mg: This project in Pedro Lowenstein’s Lab was 4 years in the making!This collaboration with Sebastien Motsch, a mathematica…
New from Pedro Lowenstein & collaborators: "We establish a pathophysiological link between self-organization of glioma tumors and glioma malignancy. We propose the dismantling of oncostreams as a new therapeutic approach to the treatment of brain tumor
RT @castro2355_mg: This project in Pedro Lowenstein’s Lab was 4 years in the making!This collaboration with Sebastien Motsch, a mathematica…
RT @UMCDB: New Publication by #Pedro_Lowenstein "Self-organization in brain tumors: How cell morphology and cell density influence glioma p…
RT @castro2355_mg: This project in Pedro Lowenstein’s Lab was 4 years in the making!This collaboration with Sebastien Motsch, a mathematica…
RT @castro2355_mg: This project in Pedro Lowenstein’s Lab was 4 years in the making!This collaboration with Sebastien Motsch, a mathematica…
RT @UMCDB: New Publication by #Pedro_Lowenstein "Self-organization in brain tumors: How cell morphology and cell density influence glioma p…
RT @castro2355_mg: This project in Pedro Lowenstein’s Lab was 4 years in the making!This collaboration with Sebastien Motsch, a mathematica…
RT @castro2355_mg: This project in Pedro Lowenstein’s Lab was 4 years in the making!This collaboration with Sebastien Motsch, a mathematica…
RT @UMCDB: New Publication by #Pedro_Lowenstein "Self-organization in brain tumors: How cell morphology and cell density influence glioma p…
RT @UMCDB: New Publication by #Pedro_Lowenstein "Self-organization in brain tumors: How cell morphology and cell density influence glioma p…
This project in Pedro Lowenstein’s Lab was 4 years in the making!This collaboration with Sebastien Motsch, a mathematical modeler @UnivArizona uncovered a new entity in gliomas called oncostreams. These structures exhibit collective motion, self organizat
New Publication by #Pedro_Lowenstein "Self-organization in brain tumors: How cell morphology and cell density influence glioma pattern formation" was published in @PLOSCompBiol! https://t.co/Rnsk4au6Hc #CDB #UMICHCDB #Research #brain_tumors https://t.co/U2
Self-organization in brain tumors: How cell morphology and cell density influence glioma pattern formation. https://t.co/Xwgc48GF9M
#TBrecentpublication @PLOSCompBiol #PLOSCompBio: Self-organization in brain tumors: How cell morphology and cell density influence glioma patter ... https://t.co/jK2OXnikNp