Novel bioresorbable and bioactive composites based on bioactive glass and polylactide foams for bone tissue engineering

[en] Bioresorbable and bioactive tissue engineering scaffolds based on bioactive glass (45S5 Bioglass®) particles and macroporous poly(DL-lactide) (PDLLA) foams were fabricated. A slurry dipping technique in conjunction with pretreatment in ethanol was used to achieve reproducible and well adhering bioactive glass coatings of uniform thickness on the internal and external surfaces of the foams. In vitro studies in simulated body fluid (SBF) demonstrated rapid hydroxyapatite (HA) formation on the surface of the composites, indicating their bioactivity. For comparison, composite foams containing Bioglass® particles as filler for the polymer matrix (in concentration of up to 40 wt%) were prepared by freeze-drying, enabling homogenous glass particle distribution in the polymer matrix. The formation of HA on the composite surfaces after immersion in phosphate buffer saline (PBS) was investigated to confirm the bioactivity of the composites. Human osteoblasts (HOBs) were seeded onto as-fabricated PDLLA foams and onto PDLLA foams coated with Bioglass® particles to determine early cell attachment and spreading. Cells were observed to attach and spread on all surfaces after the first 90 min in culture. The results of this study indicate that the fabricated composite materials have potential as scaffolds for guided bone regeneration. (C) 2002 Kluwer Academic Publishers.

Research center :

Center for Education and Research on Macromolecules (CERM)

Disciplines :

Chemistry
Materials science & engineering

Author, co-author :

Roether, J. A.; Imperial College, London, UK > Department of Materials > Centre for Composite Materials

Gough, J. E.; Imperial College, London, UK > Department of Materials

Boccaccini, Aldo R.; Imperial College, London, UK > Department of Materials > Centre for Composite Materials

Hench, L. L.; Imperial College, London, UK > Department of Materials

Maquet, Véronique; Université de Liège - ULiège > Department of Chemistry > Center for Education and Research on Macromolecules (CERM)

Jérôme, Robert ; Université de Liège - ULiège > Department of Chemistry > Center for Education and Research on Macromolecules (CERM)

Language :

English

Title :

Novel bioresorbable and bioactive composites based on bioactive glass and polylactide foams for bone tissue engineering

Publication date :

December 2002

Journal title :

Journal of Materials Science: Materials in Medicine

ISSN :

0957-4530

eISSN :

1573-4838

Publisher :

Kluwer Academic Publ, Dordrecht, Netherlands

Volume :

Issue :

Pages :

1207-1214

Peer reviewed :

Peer Reviewed verified by ORBi

Additional URL :

http://www.springerlink.com/content/r56x1n1688316620/fulltext.pdf

Funders :

EPSRC - Engineering and Physical Sciences Research Council [GB]
MRC - Medical Research Council [GB]
F.R.S.-FNRS - Fonds de la Recherche Scientifique [BE]
BELSPO - Politique scientifique fédérale [BE]

Commentary :

The original publication is available at http://www.springerlink.com/content/r56x1n1688316620/fulltext.pdf. The authors acknowledge Journal of Materials Science: Materials in Medicine(Kluwer Academic Press) for allowing them to archive this paper.

Available on ORBi :

since 18 March 2009

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Bibliography

Thompson, I., Hench, L.L., (2000) Comprehensive Composite Materials, 6, pp. 727-753. , edited by A. Kelly and C. Zweben Elsevier Science, Amsterdam
Ramakrishna, S., Mayer, J., Wintermantel, E., Leong, K.W., (2001) Composites Science and Technology, 61, p. 1189
Hence, L.L., Polak, J.M., (2002) Science, 295, p. 1014
Vacanti, C.A., Vacanti, J.P., (1997) Principles of Tissue Engineering, pp. 619-631. , edited by R. P. Lanza, R. Langer and W. L. Chick R. G. Landes Company, Texas, USA
Hutmacher, D.W., (2001) Biomaterials, 21, p. 2529
Piskin, E., (1997) Materials Science Forum, 250, p. 1
Zhang, Y., Zhang, M., (2001) J. Biomed. Mater. Res., 55, p. 304
Maquet, V., Jerome, R., (1997) Mat. Sci. Forum, 250, p. 15
Mikos, A.G., Temenoff, J.S., (2000) EJB Electronic Journal of Biotechnology, 3 (2), p. 1
Agrawal, C.M., Athanasiou, K.A., Heckman, J.D., (1997) Mat. Sci. Forum, 250, p. 115
Schugens, C., Maquet, V., Grandfils, C., Jerome, R., Teyssie, P., (1996) Polymer, 37, p. 1027
Schugens, C., Maquet, V., Grandfils, C., Jerome, R., Teyssie, P., (1996) J. Biomed. Mater. Res., 30, p. 449
Griffith, L.G., (2000) Acts Mater., 48, p. 263
Agrawal, C.M., Ray, R.B., (2001) J. Biomed. Mater. Res., 55, p. 141
Schliephake, H., Neukam, F.W., Hutmacher, D., Becker, J., (1994) J. Oral Maxillofac. Surg., 52, p. 57
Hench, L.L., (1998) J. Am. Ceram. Soc., 81, p. 1705
Boccaccini, A.R., Roether, J.A., Hench, L.L., Maquet, V., Jerome, R., (2002) Ceram. Eng. Sci. Proc., , in press
Verheyen, C.C.P.M., De Wijn, J.R., Van Blitterswijk, C.A., De Groot, K., Rozing, P.M., (1993) J. Biomed. Mat. Res., 27, p. 433
Linhart, W., Peters, F., Lehmann, W., Schwarz, C., Schilling, A., Amling, M., Rueger, J.M., Epple, M., (2001) J. Biomed. Mat. Res., 54, p. 162
Durucan, C., Brown, P.W., (2001) Adv. Eng. Mater., 3, p. 227
Ma, P.X., Zhang, R., Xiao, G., Franceschi, R., (2001) J. Biomed. Mater. Res., 54, p. 284
Thomson, R.C., Yaszemski, M.J., Powers, J.M., Mikos, A.G., (1998) Biomaterials, 18, p. 1935
Nazhat, S.N., Kellomäki, M., Törmälä, P., Tanner, K.E., Bonfield, W., (2001) J. Biomed. Mater. Res. (Appl. Biomater.), 58, p. 335
Ignjatović, N., Delijić, K., Vukcević, M., Uskoković, D., (2001) Z. Metallkd., 92 (2), p. 145
Deng, X., Hao, J., Yuan, M., (2001) J. Mater. Sc. Letters, 20, p. 281
Boyan, B.D., Niederauer, G., Kieswetter, K., Leatherbury, N.C., Greenspan, D.C., (1999), Biodegradable Implant Material Comprising Bioactive Ceramic, US Patent nr. 5,977,204. Novermber 2
Roether, J.A., Boccaccini, A.R., Hench, L.L., Maquet, V., Gautier, S., Jerome, R., (2002) Biomaterials, 23, pp. 3871-3878
Stamboulis, A., Hench, L.L., Boccaccini, A.R., (2002) J. Mat. Sci.: Mat. Med., 13, pp. 843-848
Stamboulis, A., Boccaccini, A.R., Hench, L.L., (2002) Adv. Eng. Mat., 4, p. 105
Maquet, V., Boccaccini, A.R., Pravata, L., Nothinger, I., Jérôme, R., (2002) J. Biomed. Mat. Res., , in press
Mikos, A.G., Lyman, M.L., Freed, L.E., Langer, R., (1994) Biomaterials, 15 (1), p. 55
http://sung7.kuic.kyoto-u.ac.jp/others/SBF/SBF_E.html
Wergedal, J.E., Baylink, D.J., (1984) Proceedings of the Society for Experimental Biology and Medicine, 176, p. 60
Di-Silvio, L., (1995) A Novel Application of Two Biomaterials for the Delivery of Growth Hormone and its Effect on Osteoblasts, , PhD Thesis, Institute of Orthopaedics, University College London Medical School
Blakeslee, K.C., Condrate, R.A., (1971) J. Amer. Cer. Soc., 54, p. 559
Penel, G., Leroy, G., Rey, C., Bres, E., (1998) Calcif. Tissue Int., 63, p. 475
Qin, D., Kean, R.T., (1998) Appl. Spectrosc., 52 (2), p. 488
Kieswetter, K., Schwartz, Z., Hummert, T.W., Cochran, D.L., Simpson, J., Dean, D.D., Boyan, B.D., (1996) J. Biomed. Mater. Res., 32, p. 55
Anselme, K., Bigerelle, M., Noel, B., Dufresne, E., Judas, D., Iost, A., Hardouin, P., (2000) J. Biomed. Mater. Res., 49, p. 155
Heidman, W., Jeshkeit, S., Ruffieux, K., Fischer, J.H., Wagner, M., Krüger, G., Wintermantel, E., Gerlach, K.L., (2001) Biomaterials, 22, p. 2371
Bergsma, J.E., De Bruijn, W.C., Rozema, F.R., Bos, R.R.M., Boering, G., (1995) Biomaterials, 16, p. 25
Hench, L.L., Xynos, I.D., Edgar, A.J., Buttery, L.D.K., Polak, J.M., (2001) Proc. Int. Congr. Glass, Vol. 1, 1, p. 226. , Society of Glass Technology, Sheffield, UK