teste de citotoxidade em scaffolds de celulose bacteriana

teste de citotoxidade em scaffolds de celulose bacteriana

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1. Record, R.D. and Hillegonds, D. (2001). In Vivo Degradation of 14C-labeled

Small Intestinal Submucosa (SIS) When Used for Urinary Bladder Repair, Biomaterials, 2: 2653–2659.

12. Gilbert, T.W. and Stewart-Akers, A.M. (2007). A Quantitative Method for

Evaluating the Degradation of Biologic Scaffold Materials, Biomaterials, 28: 147–150.

13. Nel, A. and Xia, T. (2006). Toxic Potential of Materials at the Nanolevel, Science, 311: 622.

14. Report (2005). Environmentalists and Industry Insiders Alike Urge Major

Investments to Maintain the Emerging Technology’s Spotless Safety Record. Calls Rise for More Research on Toxicology of Nanomaterials, Science, 310: 1609.

15. Wu, G.P. and Yang, K. (2005). Cytotoxicity Study of Hydroxyapatite– Silicone Composite, J. Plast. Reconstr. Surg., 2(4): 228-232.

16. Yue, J. and Lei, D.L. (2005). Material Science of a Scaffold for Tissue

Engineered Bone: Cytotoxicity of Short Rod-shaped Nano-hydroxyapatite, Chin. J. Clin. Rehabil., 9(2): 32–3.

17. Woo, K.M. and Jun, J.H. (2007). Nano-fibrous Scaffolding Promotes Osteoblast Differentiation andBiomineralization, Biomaterials,28:335–343.

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