par Petkantchin, Remy;Padmos, Raymond;Zouaoui Boudjeltia, Karim 
;Raynaud, Franck;Chopard, Bastien;INSIST investigators,
Référence Journal of biomechanics, 132, page (110902)
Publication Publié, 2022
;Raynaud, Franck;Chopard, Bastien;INSIST investigators, Référence Journal of biomechanics, 132, page (110902)
Publication Publié, 2022
Article révisé par les pairs
| Résumé : | This perspective paper considers thrombolysis in the context of ischemic strokes, intending to build eventually a numerical model capable of simulating the thrombolytic treatment and predicting patient outcomes. Numerical modeling is a scientific methodology based on an abstraction of a system but requires understanding their spatio-temporal interactions. However, although important, the current knowledge on thrombolysis is fragmented in contributions from which it is difficult to obtain a complete picture of the process, especially in a clinically relevant setup. This paper discusses, from a general point of view, how to develop a numerical model to describe the evolution of a patient clot under the action of a thrombolytic drug. We will present critical, yet fundamental, open questions that have emerged during this elaboration and discuss original experimental observations that challenge some of our current knowledge of thrombolysis. |
