Items where Division is "03 Faculty of Medicine > Bereich Operative Fächer (Klinik) > Querschnittsbereich Forschung > Tissue Engineering (Martin)
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Asnaghi, Adelaide M. and Miot, Sylvie and Wixmerten, Anke and Martin, Ivan. (2016) Successes and hurdles in the translation of tissue engineered products for cartilage repair in clinical trials: focus on regulatory perspectives. European cells & materials, 31 (Suppl. 1). p. 172.
Bersini, Simone and Arrigoni, Chiara and Lopa, Silvia and Bongio, Matilde and Martin, Ivan and Moretti, Matteo. (2016) Engineered miniaturized models of musculoskeletal diseases. Drug Discovery Today, 21 (9). pp. 1429-1436.
Blache, Ulrich and Metzger, Stéphanie and Vallmajo-Martin, Queralt and Martin, Ivan and Djonov, Valentin and Ehrbar, Martin. (2016) Dual Role of Mesenchymal Stem Cells Allows for Microvascularized Bone Tissue-Like Environments in PEG Hydrogels. Advanced Healthcare Materials, 5 (4). pp. 489-498.
Boccardo, Stefano and Gaudiello, Emanuele and Melly, Ludovic and Cerino, Giulia and Ricci, Davide and Martin, Ivan and Eckstein, Friedrich and Banfi, Andrea and Marsano, Anna. (2016) Engineered mesenchymal cell-based patches as controlled VEGF delivery systems to induce extrinsic angiogenesis. Acta Biomaterialia, 42. pp. 127-135.
Cerino, Giulia and Gaudiello, Emanuele and Grussenmeyer, Thomas and Melly, Ludovic and Massai, Diana and Banfi, Andrea and Martin, Ivan and Eckstein, Friedrich and Grapow, Martin and Marsano, Anna. (2016) Three dimensional multi-cellular muscle-like tissue engineering in perfusion-based bioreactors. Biotechnology and Bioengineering, 113 (1). pp. 226-236.
Galipeau, Jacques and Krampera, Mauro and Barrett, John and Dazzi, Francesco and Deans, Robert J. and DeBruijn, Joost and Dominici, Massimo and Fibbe, Willem E. and Gee, Adrian P. and Gimble, Jeffery M. and Hematti, Peiman and Koh, Mickey B. C. and LeBlanc, Katarina and Martin, Ivan and McNiece, Ian K. and Mendicino, Michael and Oh, Steve and Ortiz, Luis and Phinney, Donald G. and Planat, Valerie and Shi, Yufang and Stroncek, David F. and Viswanathan, Sowmya and Weiss, Daniel J. and Sensebe, Luc. (2016) International Society for Cellular Therapy perspective on immune functional assays for mesenchymal stromal cells as potency release criterion for advanced phase clinical trials. Cytotherapy, 18 (2). pp. 151-159.
Klar, Agnes S. and Güven, Sinan and Zimoch, Jakub and Zapiórkowska, Natalia A. and Biedermann, Thomas and Böttcher-Haberzeth, Sophie and Meuli-Simmen, Claudia and Martin, Ivan and Scherberich, Arnaud and Reichmann, Ernst and Meuli, Martin. (2016) Characterization of vasculogenic potential of human adipose-derived endothelial cells in a three-dimensional vascularized skin substitute. Pediatric surgery international, 32 (1). pp. 17-27.
Marsano, Anna and Medeiros da Cunha, Carolina M. and Ghanaati, Shahram and Gueven, Sinan and Centola, Matteo and Tsaryk, Roman and Barbeck, Mike and Stuedle, Chiara and Barbero, Andrea and Helmrich, Uta and Schaeren, Stefan and Kirkpatrick, James C. and Banfi, Andrea and Martin, Ivan. (2016) Spontaneous In Vivo Chondrogenesis of Bone Marrow-Derived Mesenchymal Progenitor Cells by Blocking Vascular Endothelial Growth Factor Signaling. Stem cells translational medicine, 5 (12). pp. 1730-1738.
Martin, Ivan and De Boer, Jan and Sensebe, Luc and Committee of the International Society for Cellular Therapy, M. S. C.. (2016) A relativity concept in mesenchymal stromal cell manufacturing. Cytotherapy, 18 (5). pp. 613-620.
Martin, Ivan and Duhr, Ralph. (2016) Future of cellular therapies in orthopaedics: Different views, one common challenge. Journal of Orthopaedic Research, 34 (1). pp. 10-11.
Martin, Ivan and Ireland, Hilary and Baldomero, Helen and Dominici, Massimo and Saris, Daniël B. and Passweg, Jakob. (2016) The Survey on Cellular and Engineered Tissue Therapies in Europe in 2013. Tissue Engineering, 22 (1-2). pp. 5-16.
Mumme, Marcus and Barbero, Andrea and Miot, Sylvie and Wixmerten, Anke and Feliciano, Sandra and Wolf, Francine and Asnaghi, Adelaide M. and Baumhoer, Daniel and Bieri, Oliver and Kretzschmar, Martin and Pagenstert, Geert and Haug, Martin and Schaefer, Dirk J. and Martin, Ivan and Jakob, Marcel. (2016) Nasal chondrocyte-based engineered autologous cartilage tissue for repair of articular cartilage defects: an observational first-in-human trial. Lancet, 388 (10055). pp. 1985-1994.
Mumme, Marcus and Steinitz, Amir and Nuss, Katja M. and Klein, Karina and Feliciano, Sandra and Kronen, Peter and Jakob, Marcel and von Rechenberg, Brigitte and Martin, Ivan and Barbero, Andrea and Pelttari, Karoliina. (2016) Regenerative Potential of Tissue-Engineered Nasal Chondrocytes in Goat Articular Cartilage Defects. Tissue Engineering, 22 (21-22). pp. 1286-1295.
Müller, Sebastian and Acevedo, Lina and Wang, Xiaomei and Karim, M. Zia and Matta, Ajay and Mehrkens, Arne and Schaeren, Stefan and Feliciano, Sandra and Jakob, Marcel and Martin, Ivan and Barbero, Andrea and Erwin, W. Mark. (2016) Notochordal cell conditioned medium (NCCM) regenerates end-stage human osteoarthritic articular chondrocytes and promotes a healthy phenotype. Arthritis Research and Therapy, 18 (1). p. 125.
Occhetta, Paola and Stüdle, Chiara and Barbero, Andrea and Martin, Ivan. (2016) Learn, simplify and implement: developmental re-engineering strategies for cartilage repair. Swiss medical weekly, 146. w14346.
Osinga, Rik and Di Maggio, Nunzia and Todorov, Atanas and Allafi, Nima and Barbero, Andrea and Laurent, Frédéric and Schaefer, Dirk Johannes and Martin, Ivan and Scherberich, Arnaud. (2016) Generation of a Bone Organ by Human Adipose-Derived Stromal Cells Through Endochondral Ossification. Stem cells translational medicine, 5 (8). pp. 1090-1097.
Rossi, Eleonora and Gerges, Irini and Tocchio, Alessandro and Tamplenizza, Margherita and Aprile, Paola and Recordati, Camilla and Martello, Federico and Martin, Ivan and Milani, Paolo and Lenardi, Cristina. (2016) Biologically and mechanically driven design of an RGD-mimetic macroporous foam for adipose tissue engineering applications. Biomaterials, 104. pp. 65-77.
Saxer, Franziska and Scherberich, Arnaud and Todorov, Atanas and Studer, Patrick and Miot, Sylvie and Schreiner, Simone and Güven, Sinan and Tchang, Laurent A. H. and Haug, Martin and Heberer, Michael and Schaefer, Dirk J. and Rikli, Daniel and Martin, Ivan and Jakob, Marcel. (2016) Implantation of Stromal Vascular Fraction Progenitors at Bone Fracture Sites: From a Rat Model to a First-in-Man Study. Stem Cells, 34 (12). pp. 2956-2966.
Scotti, Celeste and Gobbi, Alberto and Karnatzikos, Georgios and Martin, Ivan and Shimomura, Kazunori and Lane, John G. and Peretti, Giuseppe Michele and Nakamura, Norimasa. (2016) Cartilage Repair in the Inflamed Joint: Considerations for Biological Augmentation Toward Tissue Regeneration. Tissue Engineering, 22 (2). pp. 149-159.
Scotti, Celeste and Tonnarelli, Beatrice and Papadimitropoulos, Adam and Piccinini, Elia and Todorov, Atanas and Centola, Matteo and Barbero, Andrea and Martin, Ivan. (2016) Engineering Small-Scale and Scaffold-Based Bone Organs via Endochondral Ossification Using Adult Progenitor Cells. Methods in Molecular Biology, 1416. pp. 413-424.
Todorov, Atanas and Kreutz, Matthias and Haumer, Alexander and Scotti, Celeste and Barbero, Andrea and Bourgine, Paul E. and Scherberich, Arnaud and Jaquiery, Claude and Martin, Ivan. (2016) Fat-Derived Stromal Vascular Fraction Cells Enhance the Bone-Forming Capacity of Devitalized Engineered Hypertrophic Cartilage Matrix. Stem cells translational medicine, 5 (12). pp. 1684-1694.
Loparic, M. and Wirz, D. and Daniels, A. U. and Raiteri, R. and Vanlandingham, M. R. and Guex, G. and Martin, I. and Aebi, U. and Stolz, M.. (2010) Micro- and nanomechanical analysis of articular cartilage by indentation-type atomic force microscopy: validation with a gel-microfiber composite. Biophysical journal, Vol. 98. pp. 2731-2740.
Vonwil, Daniel and Schuler, Martin and Barbero, Andrea and Ströbel, Simon and Wendt, David and Textor, Marcus and Aebi, Ueli and Martin, Ivan. (2010) An RGD-restricted substrate interface is sufficient for the adhesion, growth and cartilage forming capacity of human chondrocytes. European cells & materials, Vol. 20. pp. 316-328.
Schaeren, Stefan and Jaquiery, Claude and Heberer, Michael and Tolnay, Markus and Vercellotti, Tomaso and Martin, Ivan. (2008) Assessment of nerve damage using a novel ultrasonic device for bone cutting. Journal of oral and maxillofacial surgery, 66 (3). pp. 593-596.
Farhadi, J. and Jaquiery, C. and Haug, M. and Pierer, G. and Zeilhofer, H. F. and Martin, I.. (2006) Bone and cartilage tissue engineering for facial reconstructive surgery. IEEE engineering in medicine and biology magazine, Vol. 25, 1. pp. 106-109.
Duhr, Ralph. Modulation of growth and differentiation of mesenchymal cells for cartilage and bone tissue engineering. 2015, Doctoral Thesis, University of Basel, Faculty of Medicine.
Todorov, Atanas. Endochondral ossification - towards a clinical translation. 2015, Doctoral Thesis, University of Basel, Faculty of Science.
Piccinini, Elia. Engineered three-dimensional microenvironments as functional in vitro models of stromal tissues. 2014, Doctoral Thesis, University of Basel, Faculty of Science.
Bourgine, Paul. Combination of cell immortalization and apoptosis induction to engineer decellularized matrices as bone graft materials. 2013, Doctoral Thesis, University of Basel, Faculty of Science.
Müller, Andreas Albert. Complementing surgical with biomedical and engineering methods to evolve lip and nose reconstruction. 2013, Doctoral Thesis, University of Basel, Faculty of Medicine.
Santoro, Rosaria. Introducing monitoring and automation in cartilage tissue engineering, toward controlled clinical translation. 2011, Doctoral Thesis, University of Basel, Faculty of Medicine.
Di Maggio, Nunzia. Bone marrow mesenchymal stem cell niches and regenerative medicine. 2010, Doctoral Thesis, University of Basel, Faculty of Science.
Francioli, Silvia. Influence of chondrocytes differentiation stage on the capacity to generate cartilaginous tissue in vitro. 2010, Doctoral Thesis, University of Basel, Faculty of Science.