Skip to main content
Top

2012 | OriginalPaper | Chapter

14. Models of Bioactive Glass Ceramics

Authors : Emad El-Meliegy, Richard van Noort

Published in: Glasses and Glass Ceramics for Medical Applications

Publisher: Springer New York

Activate our intelligent search to find suitable subject content or patents.

search-config
loading …

Abstract

It was shown very early on in the development of bioactive glasses that when a bioactive glass, with a composition suitable for a glass ceramic, is heat treated to create the crystalline phase, the material can retain its bioactivity. This was an important finding as bioactive glasses are brittle and lack strength and toughness. As a consequence, the handling and mechanical properties of bioactive glasses are not adequate for significant load bearing applications and the monophase bioactive glasses are generally restricted to clinical situations, which are nonload bearing.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

Literature
go back to reference Beall, G.H.: Chain silicate glass-ceramics. J. Non Cryst. Solids 129, 163–173 (1991)CrossRef Beall, G.H.: Chain silicate glass-ceramics. J. Non Cryst. Solids 129, 163–173 (1991)CrossRef
go back to reference Bhakta, S.: Assessment of modified potassium fluorrichterite compositions as load bearing biomaterials in the craniofacial skeleton. PhD thesis, University of Sheffield, UK, 2011 Bhakta, S.: Assessment of modified potassium fluorrichterite compositions as load bearing biomaterials in the craniofacial skeleton. PhD thesis, University of Sheffield, UK, 2011
go back to reference Bhakta, S., Miller, C.A., Brook, I., Van Noort, R., Hatton, P.V.: Prediction of osteoconductive activity of modified potassium fluorrichterite glass-ceramics by immersion in simulated body fluid. J. Mater. Sci Mater Med. 21, 2979–2988 (2010)CrossRef Bhakta, S., Miller, C.A., Brook, I., Van Noort, R., Hatton, P.V.: Prediction of osteoconductive activity of modified potassium fluorrichterite glass-ceramics by immersion in simulated body fluid. J. Mater. Sci Mater Med. 21, 2979–2988 (2010)CrossRef
go back to reference Cerruti, M., Greenspan, D., Powers, K.: Effect of pH and ionic strength on the reactivity of Bioglass 45 S5. Biomaterials 26, 1665–1674 (2005)CrossRef Cerruti, M., Greenspan, D., Powers, K.: Effect of pH and ionic strength on the reactivity of Bioglass 45 S5. Biomaterials 26, 1665–1674 (2005)CrossRef
go back to reference Denry, I., Holloway, J.A.: Effect of magnesium content on the microstructure and crystalline phases of fluoramphibole glass-ceramics. J. Biomed Mater Res (Appl Biomater) 53, 289–296 (2000)CrossRef Denry, I., Holloway, J.A.: Effect of magnesium content on the microstructure and crystalline phases of fluoramphibole glass-ceramics. J. Biomed Mater Res (Appl Biomater) 53, 289–296 (2000)CrossRef
go back to reference Denry, I., Holloway, J.A.: Effect of sodium on the crystallization behaviour of fluoramphibole glass-ceramics. J Biomed Mater Res Appl Biomater 63, 48–52 (2002)CrossRef Denry, I., Holloway, J.A.: Effect of sodium on the crystallization behaviour of fluoramphibole glass-ceramics. J Biomed Mater Res Appl Biomater 63, 48–52 (2002)CrossRef
go back to reference EL-Meliegy, E.M., El-Bassyouni, G.T.: Study of the bioactivity of fluorophlogopite- whitlockite ceramics. Ceram Int 34(6), 1527–1532 (2008)CrossRef EL-Meliegy, E.M., El-Bassyouni, G.T.: Study of the bioactivity of fluorophlogopite- whitlockite ceramics. Ceram Int 34(6), 1527–1532 (2008)CrossRef
go back to reference EL-Meliegy, E., Hamzawy, E., Elkady, A., El-Rashedi, A.: Development and bioactivity evaluation of bioglasses with low Na2O content based on the system SiO2- Na2O-CaO- MgO- P2O5. Under preparation, 2011 EL-Meliegy, E., Hamzawy, E., Elkady, A., El-Rashedi, A.: Development and bioactivity evaluation of bioglasses with low Na2O content based on the system SiO2- Na2O-CaO- MgO- P2O5. Under preparation, 2011
go back to reference Fathi, H., Johnson, A., Van Noort, R., Ward, J.M.: The influence of calcium fluoride on biaxial flexural strength of apatite-mullite glass ceramic materials. Dent Mater. 21(9), 846–51 (2005)CrossRef Fathi, H., Johnson, A., Van Noort, R., Ward, J.M.: The influence of calcium fluoride on biaxial flexural strength of apatite-mullite glass ceramic materials. Dent Mater. 21(9), 846–51 (2005)CrossRef
go back to reference Fini, M.: Biomaterials for orthopedic surgery in osteoporotic bone. Int. J. Artif. Org. 20(5), 291–7 (1997) Fini, M.: Biomaterials for orthopedic surgery in osteoporotic bone. Int. J. Artif. Org. 20(5), 291–7 (1997)
go back to reference Franks, K., Abrahams, I., Knowles, J.C.: Development of soluble glasses for biomedical use. Part I: In vitro solubility measurement. J Mater Sci Mater Med. 11(10), 609–614 (2000) Franks, K., Abrahams, I., Knowles, J.C.: Development of soluble glasses for biomedical use. Part I: In vitro solubility measurement. J Mater Sci Mater Med. 11(10), 609–614 (2000)
go back to reference Freeman, C.O., Brook, I.M., Johnson, A., Hatton, P.V., Hill, R.G., Stanton, K.T.: Crystallization modifies osteoconductivity in an Apatite-Mullite glass-ceramic. J. Mater. Sci Mater. Med. 14, 985–990 (2003)CrossRef Freeman, C.O., Brook, I.M., Johnson, A., Hatton, P.V., Hill, R.G., Stanton, K.T.: Crystallization modifies osteoconductivity in an Apatite-Mullite glass-ceramic. J. Mater. Sci Mater. Med. 14, 985–990 (2003)CrossRef
go back to reference Ghosh, B.S., Faria, P.E., Johnson, A., Reaney, I.M., Salata, L.A., Brook, I.M., Hatton, P.V.: Osteoconductivity of modified fluorocanasite glassceramics for bone tissue augmentation and repair. J. Biomed. Mater. Res. A 94(3), 760–768 (2010) Ghosh, B.S., Faria, P.E., Johnson, A., Reaney, I.M., Salata, L.A., Brook, I.M., Hatton, P.V.: Osteoconductivity of modified fluorocanasite glassceramics for bone tissue augmentation and repair. J. Biomed. Mater. Res. A 94(3), 760–768 (2010)
go back to reference Goodridge, R.D., Wood, D.J., Ohtsuki, C., Dalgarno, K.W.: Biological evaluation of an apatite-mullite glass-ceramic produced via selective laser sintering. Acta Biomater. 3(2), 221–31 (2007)CrossRef Goodridge, R.D., Wood, D.J., Ohtsuki, C., Dalgarno, K.W.: Biological evaluation of an apatite-mullite glass-ceramic produced via selective laser sintering. Acta Biomater. 3(2), 221–31 (2007)CrossRef
go back to reference Hench, L.L.: Bioceramics: from concept to clinic. J Am Ceram Soc 74, 1487 (1991)CrossRef Hench, L.L.: Bioceramics: from concept to clinic. J Am Ceram Soc 74, 1487 (1991)CrossRef
go back to reference Hench, L.L.: The story of bioglass. J Mater Sci Mater Med 17, 967–978 (2006)CrossRef Hench, L.L.: The story of bioglass. J Mater Sci Mater Med 17, 967–978 (2006)CrossRef
go back to reference Hench, L.L., Clark Jr., A.E., Schaake, H.F.: Int J Non Cryst Sol 8–10, 837 (1972)CrossRef Hench, L.L., Clark Jr., A.E., Schaake, H.F.: Int J Non Cryst Sol 8–10, 837 (1972)CrossRef
go back to reference Hill, R.G., Stevens, M.M.: Bioactive glass. US patent 0208428, 2009 Hill, R.G., Stevens, M.M.: Bioactive glass. US patent 0208428, 2009
go back to reference Kanchanarat, N., Bandyopadhyay-Ghosh, S., Reaney, I.M., Brook, I.M., Hatton, P.V.: Microstructure and mechanical properties of fluorocanasite glass-ceramics for biomedical applications. J Mater Sci 43(2), 759–765 (2007)CrossRef Kanchanarat, N., Bandyopadhyay-Ghosh, S., Reaney, I.M., Brook, I.M., Hatton, P.V.: Microstructure and mechanical properties of fluorocanasite glass-ceramics for biomedical applications. J Mater Sci 43(2), 759–765 (2007)CrossRef
go back to reference Knowles, J.C., Franks, K., Abrahams, I.: Investigation of the solubility and ion release in the glass system K2O-Na2O-CaO-P2O5. Biomaterials 22, 3091–3096 (2001)CrossRef Knowles, J.C., Franks, K., Abrahams, I.: Investigation of the solubility and ion release in the glass system K2O-Na2O-CaO-P2O5. Biomaterials 22, 3091–3096 (2001)CrossRef
go back to reference Kokubo, T., Takadama, H.: How useful is SBF in predicting in-vivo bone bioactivity. Biomaterials 27, 2907–2915 (2006)CrossRef Kokubo, T., Takadama, H.: How useful is SBF in predicting in-vivo bone bioactivity. Biomaterials 27, 2907–2915 (2006)CrossRef
go back to reference Likitvanichkul, S., Lacourse, W.C.: Effect of fluorine content on crystallization of canasite glass-ceramics. J Mater Sci 30(24), 6151–6155 (1995)CrossRef Likitvanichkul, S., Lacourse, W.C.: Effect of fluorine content on crystallization of canasite glass-ceramics. J Mater Sci 30(24), 6151–6155 (1995)CrossRef
go back to reference Marikani, A., Maheswaran, A., Premanathan, M., Amalraj, L.: Synthesis and characterization of calcium phosphate based bioactive quaternary P2O5 – CaO – Na2O–K2O glasses. J. Non Cryst. Solids 354, 3929–3934 (2008)CrossRef Marikani, A., Maheswaran, A., Premanathan, M., Amalraj, L.: Synthesis and characterization of calcium phosphate based bioactive quaternary P2O5 – CaO – Na2O–K2O glasses. J. Non Cryst. Solids 354, 3929–3934 (2008)CrossRef
go back to reference Miller, C.A., Kokubo, T., Reaney, I.M., Hatton, P.V., James, P.F.: Formation of apatite layers on modified canasite glass-ceramics in simulated body fluid. J. Biomed Mater Res 59(3), 473–80 (2002)CrossRef Miller, C.A., Kokubo, T., Reaney, I.M., Hatton, P.V., James, P.F.: Formation of apatite layers on modified canasite glass-ceramics in simulated body fluid. J. Biomed Mater Res 59(3), 473–80 (2002)CrossRef
go back to reference Miller, C.A.: Crystallisation of canasite/frankamenite based glass-ceramics for bone tissue repair and augmentation, PhD Thesis, University of Sheffield, 2004 (M008947SH) Miller, C.A.: Crystallisation of canasite/frankamenite based glass-ceramics for bone tissue repair and augmentation, PhD Thesis, University of Sheffield, 2004 (M008947SH)
go back to reference Mirsaneh, M., Reaney, I.M., James, P.F.: Phase evolution in K-fluorrichterite glass-ceramic. Phys. Chem. Glasses 43C, 317–320 (2002) Mirsaneh, M., Reaney, I.M., James, P.F.: Phase evolution in K-fluorrichterite glass-ceramic. Phys. Chem. Glasses 43C, 317–320 (2002)
go back to reference Mirsaneh, M., Reaney, I.M., Hatton, P.V., Bhakta, S., James, P.F.: Effect of P2O5 on the early stage crystallization of K-fluorrichterite glass-ceramics. J. Non Cryst. Solids 354, 3362–3368 (2008)CrossRef Mirsaneh, M., Reaney, I.M., Hatton, P.V., Bhakta, S., James, P.F.: Effect of P2O5 on the early stage crystallization of K-fluorrichterite glass-ceramics. J. Non Cryst. Solids 354, 3362–3368 (2008)CrossRef
go back to reference Nakamura, T., Yamamuro, T., Higashi, S., Kokubo, T., Itoo, S.: J. Biomed. Mater. Res. 19, 685 (1985)CrossRef Nakamura, T., Yamamuro, T., Higashi, S., Kokubo, T., Itoo, S.: J. Biomed. Mater. Res. 19, 685 (1985)CrossRef
go back to reference Omar, A.A., EL-Shennawi, A.W.A., Hamzawi, E.M.: Effect of isomorphous substitutions on crystallisation of fluorrichterite glasses. Key Eng. Mater 132, 836–839 (1997)CrossRef Omar, A.A., EL-Shennawi, A.W.A., Hamzawi, E.M.: Effect of isomorphous substitutions on crystallisation of fluorrichterite glasses. Key Eng. Mater 132, 836–839 (1997)CrossRef
go back to reference Piotrowski, G., Hench, L.L., Allen, W.C., Miller, G.J.: J Biomed Mater Res Symp 9, 47 (1975)CrossRef Piotrowski, G., Hench, L.L., Allen, W.C., Miller, G.J.: J Biomed Mater Res Symp 9, 47 (1975)CrossRef
go back to reference Tirapelli, C., Panzeri, H., Soares, R.G., Peitl, O., Zanotto, E.D.: A novel bioactive glass-ceramic for treating dentin hypersensitivity. Braz Oral Res 24(4), 381–7 (2010)CrossRef Tirapelli, C., Panzeri, H., Soares, R.G., Peitl, O., Zanotto, E.D.: A novel bioactive glass-ceramic for treating dentin hypersensitivity. Braz Oral Res 24(4), 381–7 (2010)CrossRef
go back to reference Wolfram, H.: Biocompatible and bioactive glass-ceramics – state of the art and new directions. J Non Cryst Solids 219, 192–197 (1997)CrossRef Wolfram, H.: Biocompatible and bioactive glass-ceramics – state of the art and new directions. J Non Cryst Solids 219, 192–197 (1997)CrossRef
go back to reference Yamamuro, T.: A/W Glass-Ceramic: Clinical Applications. In: Hench, L.L., Wilson, J. (eds.) Handbook of Bioactive Ceramics: vol. 1: Bioactive Glass and Glass Ceramics. An Introduction to Bioceramics, p. 89. World Scientific, Singapore (1993) Yamamuro, T.: A/W Glass-Ceramic: Clinical Applications. In: Hench, L.L., Wilson, J. (eds.) Handbook of Bioactive Ceramics: vol. 1: Bioactive Glass and Glass Ceramics. An Introduction to Bioceramics, p. 89. World Scientific, Singapore (1993)
go back to reference Yoshii, S., Kakutani, Y., Yamamuro, T., Nakamura, T., Kitsugi, T., Oka, M., Kokubo, T., Takagi, M.: Strength of bonding between A-W glass-ceramic and the surface of bone cortex. J. Biomed. Mater. Res. 22A, 327 (1988)CrossRef Yoshii, S., Kakutani, Y., Yamamuro, T., Nakamura, T., Kitsugi, T., Oka, M., Kokubo, T., Takagi, M.: Strength of bonding between A-W glass-ceramic and the surface of bone cortex. J. Biomed. Mater. Res. 22A, 327 (1988)CrossRef
go back to reference Zanotto, E.D., Ravagnani, C., Peitl, O., Panzeri, H., Lara, E.H., inventors.: Process and compositions for preparing particulate, bioactive or resorbable Biosilicate for use in the treatment of oral ailments. Patent WO2004/074199, 2004 Zanotto, E.D., Ravagnani, C., Peitl, O., Panzeri, H., Lara, E.H., inventors.: Process and compositions for preparing particulate, bioactive or resorbable Biosilicate for use in the treatment of oral ailments. Patent WO2004/074199, 2004
Metadata
Title
Models of Bioactive Glass Ceramics
Authors
Emad El-Meliegy
Richard van Noort
Copyright Year
2012
Publisher
Springer New York
DOI
https://doi.org/10.1007/978-1-4614-1228-1_14

Premium Partners