PolySia: Eine neue bioidentische Gerüstsubstanz  
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     ::  GESAMTPROJEKT      
 
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LITERATUR

Organische Modifizierung


  • Assmann,U., Szentivanyi,A., Stark,Y., Scheper,T., Berski,S., Dräger,G., Schuster,R.H. (2010). Journal of Materials Science: Materials in Medicine 21, 2115-2124.

  • Haastert-Talini,K., Schaper-Rinkel,J., Schmitte,R., Bastian,R., Mühlenhoff,M., Schwarzer,D., Dräger,G., Su,Y., Scheper,T., Gerardy-Schahn,R., Grothe,C. (2010). In vivo evaluation of polysialic acid as part of tissue-engineered nerve transplants. Tissue Engineering - Part A, 16(10), 3085-3098.

  • Su, Y., Kasper, C., Kirschning, A., Dräger, G., Berski, S. (2010). Synthesis of new polysialic acid derivatives. Macromolecular Bioscience, 10(9),1028-1033.

  • Su,Y., Kasper,C. (2008). Synthesis and Biological Evaluation of a Polysialic Acid-Based Hydrogel as Enzymatically Degradable Scaffold Material for Tissue Engineering. Biomacromolecules, 9, 2353-2359.

  • Berski,S., van Bergeijk,J., Schwarzer,D., Stark,Y., Kasper,C., Scheper,T., Grothe,C., Gerardy-Schahn,R., Kirschning,A., and Dräger,G. (2008). Synthesis and Biological Evaluation of a Polysialic Acid-Based Hydrogel as Enzymatically Degradable Scaffold Material for Tissue Engineering. Biomacromolecules, 9, 2353-2359.

  • Hartlieb,S., Günzel,A., Gerardy-Schahn,R., Münster-Kühnel,A.K., Kirschning,A., and Dräger,G. (2008). Chemoenzymatic synthesis of CMP-N-acetyl-7-fluoro-7-deoxy-neuraminic acid. Carbohydr. Res., 343, 2075-2082.

  • Haile,Y., Berski,S., Dräger,G., Nobre,A., Stummeyer,K., Gerardy-Schahn,R., and Grothe,C. (2008). The effect of modified polysialic acid based hydrogels on the adhesion and viability of primary neurons and glial cells. Biomaterials, 29, 1880-1891.

  • Haile,Y., Haaster,K., Cesnulevicius,K., Stummeyer,K., Timmer,M., Berski,S., Dräger,G., Gerardy-Schahn,R., and Grothe,C. (2007). Culturing of glial and neuronal cells on polysialic acid. Biomaterials, 28, 1163-1173.



   













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