A microphysiological model designed for the research ofangiogenic sprouting in an extracellular matrix
- Autores: A. Noguera, J. Ferré, Adrián López Canosa, A. Vilches, P. Barceló
- Localización: CASEIB 2023. Libro de Actas del XLI Congreso Anual de la Sociedad Española de Ingeniería Biomédica: Contribuyendo a la salud basada en valor / coord. por Joaquín Roca González, Dolores Ojados González, Juan Suardíaz Muro, 2023, ISBN 978-84-17853-76-1, págs. 630-633
- Idioma: español
- Enlaces
-
Resumen
Angiogenesis is an important biological process for vascular development, as well as being involved in different health problems such as cancer, inflammatory processes, infections, and some autoimmune diseases, among others. In recent years, microphysiological devices have been proposed to study angiogenesis due to their ability to accurately recreate in vivo microenvironmental conditions. This study presents a platform to study the early stages of angiogenesis together with an in-silico model, presenting an innovative approach that allows us to better analyze the dynamics of angiogenesis. The presented platform allows the formation of an angiogenic gradient through a porous hydrogel, thus provoking the angiogenic response of endothelial cells and therefore studying the process under the desired conditions. In addition, the use of the two-photon polymerization technique has allowed us to print 3D hydrogels with the desired structure within microfluidic ...
