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2012 Journal Article The use of an electrostatic lens to enhance the efficiency of the electrospinning processVaquette, Cédryck and Cooper-White, Justin (2012). The use of an electrostatic lens to enhance the efficiency of the electrospinning process. Cell and Tissue Research, 347 (3), 815-826. doi: 10.1007/s00441-011-1318-z |
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2012 Journal Article Biomimetic tubular nanofiber mesh and platelet rich plasma-mediated delivery of BMP-7 for large bone defect regenerationBerner, A., Boerckel, J. D., Saifzadeh, S., Steck, R., Ren, J., Vaquette, C., Zhang, J. Qiyi, Nerlich, M., Guldberg, R. E., Hutmacher, D. W. and Woodruff, M. A. (2012). Biomimetic tubular nanofiber mesh and platelet rich plasma-mediated delivery of BMP-7 for large bone defect regeneration. Cell and Tissue Research, 347 (3), 603-612. doi: 10.1007/s00441-011-1298-z |
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2012 Conference Publication Polycaprolactone-based scaffold plus BMP-2 in a sheep thoracic spine fusion modelYong, M., Melchels, F., Vaquette, C., Hutmacher, D., Adam, C., Domingos, M. and Bartolo, P. (2012). Polycaprolactone-based scaffold plus BMP-2 in a sheep thoracic spine fusion model. 5th International Conference on Advanced Research in Virtual and Physical Prototyping, VR@P 2011, Leiria, Portugal, 28 September - 1 October 2011. Boca Raton, FL, United States: CRC Press. |
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2011 Journal Article Cross-linked poly(trimethylene carbonate-co-L-lactide) as a biodegradable, elastomeric scaffold for vascular engineering applicationsDargaville, Bronwin L., Vaquette, Cedryck, Peng, Hui, Rasoul, Firas, Chua, Yu Qian, Cooper-White, Justin J., Campbell, Julie H. and Whittaker, Andrew K. (2011). Cross-linked poly(trimethylene carbonate-co-L-lactide) as a biodegradable, elastomeric scaffold for vascular engineering applications. Biomacromolecules, 12 (11), 3856-3869. doi: 10.1021/bm201291e |
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2011 Journal Article Increasing electrospun scaffold pore size with tailored collectors for improved cell penetrationVaquette, Cedryck and Cooper-White, Justin John (2011). Increasing electrospun scaffold pore size with tailored collectors for improved cell penetration. Acta Biomaterialia, 7 (6), 2544-2557. doi: 10.1016/j.actbio.2011.02.036 |
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2010 Journal Article A poly(lactic-co-glycolic acid) knitted scaffold for tendon tissue engineering: An in vitro and in vivo studyVaquette, Cédryck, Slimani, Saïd, Kahn, Cyril J.F., Tran, Nguyen, Rahouadj, Rachid and Wang, Xiong (2010). A poly(lactic-co-glycolic acid) knitted scaffold for tendon tissue engineering: An in vitro and in vivo study. Journal of Biomaterials Science, Polymer Edition, 21 (13), 1737-1760. doi: 10.1163/092050609X12560455246676 |
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2010 Journal Article Aligned poly(L-lactic-co-e-caprolactone) electrospun microfibers and knitted structure: A novel composite scaffold for ligament tissue engineeringVaquette, C, Kahn, C, Frochot, C, Nouvel, C, Six, JL, De Isla, N, Luo, LH, Cooper-White, J, Rahouadj, R and Wang, XO (2010). Aligned poly(L-lactic-co-e-caprolactone) electrospun microfibers and knitted structure: A novel composite scaffold for ligament tissue engineering. Journal of Biomedical Materials Research Part A, 94A (4), 1270-1282. doi: 10.1002/jbm.a.32801 |
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2008 Journal Article An innovative method to obtain porous PLLA scaffolds with highly spherical and interconnected poresVaquette, Cédryck, Frochot, Céline, Rahouadj, Rachid and Wang, Xiong (2008). An innovative method to obtain porous PLLA scaffolds with highly spherical and interconnected pores. Journal of Biomedical Materials Research Part B: Applied Biomaterials, 86B (1), 9-17. doi: 10.1002/jbm.b.30982 |
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2008 Journal Article Zeta-potential and morphology of electrospun nano- and microfibers from biopolymers and their blends used as scaffolds in tissue engineeringVaquette, Cedryck, Babak, Valery G., Baros, Francis, Boulanouar, Omar, Dumas, Dominique, Fievet, Patrick, Kildeeva, Natalia R., Maincent, Philippe and Wang, Xiong (2008). Zeta-potential and morphology of electrospun nano- and microfibers from biopolymers and their blends used as scaffolds in tissue engineering. Mendeleev Communications, 18 (1), 38-41. doi: 10.1016/j.mencom.2008.01.015 |
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2008 Journal Article Mechanical and biological characterization of a porous poly-L-lactic acid-co-epsilon-caprolactone scaffold for tissue engineeringVaquette, Cédryck, Frochot, Céline, Rahouadj, Rachid, Muller, Sylvaine and Wang, Xiong (2008). Mechanical and biological characterization of a porous poly-L-lactic acid-co-epsilon-caprolactone scaffold for tissue engineering. Soft Materials, 6 (1), 25-33. doi: 10.1080/15394450801887109 |
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2008 Journal Article A novel bioreactor for ligament tissue engineeringKahn, Cyril J.F., Vaquette, Cédryck, Rahouadj, Rachid and Wang, Xiong (2008). A novel bioreactor for ligament tissue engineering. Bio-Medical Materials and Engineering, 18 (4-5), 283-287. doi: 10.3233/BME-2008-0538 |
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2006 Journal Article In vitro biocompatibility of different polyester membranesVaquette, C., Fawzi-Grancher, S., Lavalle, P., Frochot, C., Viriot, M.-L., Muller, S. and Wang, X. (2006). In vitro biocompatibility of different polyester membranes. Bio-Medical Materials and Engineering, 16 (4 Suppl.), S131-S136. |
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2004 Conference Publication Effect of mechanical and biochemical factors on the neogenesis of ligament tissueFawzi, S., Slimani, S., Vaquette, C., Wang, X. and Muller, S. (2004). Effect of mechanical and biochemical factors on the neogenesis of ligament tissue. |
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2004 Conference Publication Effect of biochemical factors on the neogenesis of ligament tissueFawzi-Grancher, S., Slimani, S., Vaquette, C., Wang, X. and Muller, S. (2004). Effect of biochemical factors on the neogenesis of ligament tissue. |
