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University of Barcelona (UB)

2 ARTICLES PUBLISHED IN JoVE

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Bioengineering

Dendrimer-based Uneven Nanopatterns to Locally Control Surface Adhesiveness: A Method to Direct Chondrogenic Differentiation
Ignasi Casanellas 1,2, Anna Lagunas 3,1, Iro Tsintzou 1, Yolanda Vida 4,5, Daniel Collado 4,5, Ezequiel Pérez-Inestrosa 4,5, Cristina Rodríguez-Pereira 6, Joana Magalhaes 3,6, Pau Gorostiza 1,3,7, José A. Andrades 8,3, José Becerra 8,3,5, Josep Samitier 1,3,2
1Institute for Bioengineering of Catalonia (IBEC), The Barcelona Institute of Science and Technology (BIST), 2Department of Engineering Electronics, University of Barcelona (UB), 3Networking Biomedical Research Center (CIBER), 4Instituto de Investigacin Biomédica de Málaga (IBIMA), Department of Organic Chemistry, Universidad de Málaga (UMA), 5Andalusian Centre for Nanomedicine and Biotechnology-BIONAND, 6Unidad de Bioingeniería Tisular y Terapia Celular (GBTTC-CHUAC), Grupo de Reumatolog ía, Instituto de Investigación Biomèdica de A Coruña (INIBIC), Complexo Hospitalario Universitario de A Coruña (CHUAC), Sergas, Universidade da Coruña (UDC), 7Institució Catalana de Recerca i Estudis Avançats (ICREA), 8Instituto de Investigación Biomédica de Málaga (IBIMA), Department of Cell Biology, Genetics and Physiology, Universidad de Málaga (UMA)

A method to obtain dendrimer-based uneven nanopatterns that permit the nanoscale control of local arginine-glycine-aspartic acid (RGD) surface density is described and applied for the study of cell adhesion and chondrogenic differentiation.

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Medicine

Myocardial Infarction by Percutaneous Embolization Coil Deployment in a Swine Model
Daina Martínez-Falguera *1,2, Edgar Fadeuilhe *3, Albert Teis 3, Julia Aranyo 3, Raquel Adeliño 1,3, Felipe Bisbal 3,4, Oriol Rodriguez-Leor 3,4, Carolina Gálvez-Montón 1,3,4
1ICREC Research Program, Germans Trias i Pujol Health Research Institute (IGTP), 2Faculty of Medicine, University of Barcelona (UB), 3Heart Institute (iCOR), Germans Trias i Pujol University Hospital, 4CIBER Cardiovascular, Instituto de Salud Carlos III

Myocardial infarction (MI) animal models that emulate the natural process of the disease in humans are crucial to understanding pathophysiological mechanisms and testing the safety and efficacy of new emergent therapies. Here, we describe an MI swine model created by deploying a percutaneous embolization coil.

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