Biomedical Engineering Reference
In-Depth Information
with others and thus be able to deal efficiently with the complexity
of the human organism. The physical chemistries of solids, solid
surfaces, polymer dispersion and solutions, as well as material-cell
interactions are among the phenomena to be tackled. Furthermore,
much work remains to be done on a long way from a laboratory
to clinics and the success depends on the effective co-operation
of clinicians, chemists, biologists, bioengineers and materials
scientists.
References and Notes
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3. Kaveh, K., Ibrahim, R., Bakar, M. Z. A., and Ibrahim, T. A. (2010) Bone
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4. Murugan, R., and Ramakrishna, S. (2005) Bioactive nanomaterials in
bone grafting and tissue engineering, in:
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Handbook of Nanostructured
Biomaterials and their Applications in Nanobiotechnology
, (ed. Nalwa,
H. S.), American Scientific Publishers, Stevenson Ranch, vol. 2, pp.
141-148.
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A., Arisue, M., and Shibata, T. (2010) Autograft of human tooth and
demineralized dentin matrices for bone augmentation,
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intramedullary bone graft versus iliac crest bone graft,
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7. Keller, E. E., and Triplett, W. W. (1987) Iliac crest bone grafting:
review of 160 consecutive cases,
Clinics of North America
,
41
, 11-14.
8. Laurie, S. W., Kaban, L. B., Mulliken, J. B., and Murraym, J. E. (1984)
Donor-site morbidity after harvesting rib and iliac bone,
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9. Younger, E. M., and Chapman, M. W. (1989) Morbidity at bone graft
sites,
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10. Neumann, M., and Epple, M. (2006) Composites of calcium phosphate
and polymers as bone substitution materials,
J. Orthop. Trauma
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