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Physiologically trained cardiac adipose tissue derived progenitor cells within fibrin scaffolds to improve cardiac function

Llucía, A.; Soler, C.; Gálvez, C.; Cristina Prat-Vidal; Roura, S.; Perea, I.; Sánchez, B.; Rosell, F.; Bragos, R.; Bayés-Genis, A.
Type of activity
Presentation of work at congresses
Name of edition
4th TERMIS World Congress
Date of publication
Presentation's date
Book of congress proceedings
Tissue Engineering: Part A: volume 21, supplement 1, 2015
First page
Last page
https://doi.org/10.1089/ten.tea.2015.5000.abstracts Open in new window
http://online.liebertpub.com/doi/pdfplus/10.1089/ten.tea.2015.5000.abstracts Open in new window
Cardiac cells are subjected to mechanical and electrical forces. Therefore, in vitro electromechanical stimuli could benefit further integration of therapeutic cells into the myocardium. Our goals: study the viability of a tissue engineered construct with cardiac adipose tissue-derived progenitor cells (cardiacATDPCs); and examine the effect of electromechanically stimulated cardiacATDPCs within a myocardial infarction model. CardiacATDPCs were electromechanically stimulated, harvested and label...
Group of research
CREB - Biomedical Engineering Research Centre
IEB - Electronic and Biomedical Instrumentation


  • Llucía Valldeperas, Aida  (author and speaker )
  • Soler Botija, Carolina  (author and speaker )
  • Gálvez Montón, Carolina  (author and speaker )
  • Prat Vidal, Cristina  (author and speaker )
  • Roura Ferrer, Santiago  (author and speaker )
  • Perea Gil, Isaac  (author and speaker )
  • Sánchez Terrones, Benjamin  (author and speaker )
  • Rosell Ferrer, Francisco Javier  (author and speaker )
  • Bragos Bardia, Ramon  (author and speaker )
  • Bayés Genis, Antoni  (author and speaker )