Biomedical Engineering Reference
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substitute: strength, fracture and fatigue behaviour,
J. Mater. Sci. Mater.
, 559-570.
403. Miyazaki, K., Horibe, T., Antonucci, J. M., Takagi, S., and Chow, L. C.
(1993) Polymeric calcium phosphate cements, analysis of reaction
products and properties,
Med
.,
8
, 41-45.
404. Miyazaki, K., Horibe, T., Antonucci, J. M., Takagi, S., and Chow, L. C.
(1993) Polymeric calcium phosphate cements: setting reaction
modifiers,
Dent. Mater
.,
9
, 46-50.
405. dos Santos, L. A., de Oliveira, L. C., Rigo, E. C. S., Carrodeguas, R. G.,
Boschi, A. O., and de Arruda, A. C. F. (1999) Influence of polymeric
additives on the mechanical properties of α-tricalcium phosphate
cement,
Dent. Mater
.,
9
, 99S-102S.
406. Mickiewicz, R. A., Mayes, A. M., and Knaack, D. (2002) Polymer-calcium
phosphate cement composites for bone substitutes,
Bone
,
25
J. Biomed. Mater.
, 581-592.
407. Fernández, E., Sarda, S., Hamcerencu, M., Vlad, M. D., Gel, M., Valls,
S., Torres, R., and López, J. (2005) High-strength apatitic cement by
modification with superplasticizers,
Res
.,
61
, 2289-2296.
408. Takahashi, T., Yamamoto, M., Ioku, K., and Goto, S. (1997) Relationship
between compressive strength and pore structure of hardened cement
pastes,
Biomaterials
,
26
, 25-30.
409. Costantino, P. D., Friedman, C. D., Jones, K., Chow, L. C., and Sisson, G.
A. (1992) Experimental hydroxyapatite cement cranioplasty,
Adv. Cement Res
.,
9
Plast.
, 174-185.
410. Chow, L. C., Hirayama, S., Takagi, S., and Parry, E. (2000) Diametral
tensile strength and compressive strength of a calcium phosphate
cement, effect of applied pressure,
Reconstr. Surg
.,
90
J. Biomed. Mater. Res
. (
Appl.
, 511-517.
411. Barralet, J. E., Gaunt, T., Wright, A. J., Gibson I. R., and Knowles, J. C.
(2002) Effect of porosity reduction by compaction on compressive
strength and microstructure of calcium phosphate cement,
Biomater
.),
53
J. Biomed.
, 1-9.
412. Zhang, Y., Xu, H. H. K., Takagi, S., and Chow, L. C. (2006)
Mater. Res
. (
Appl. Biomater
.),
63
In situ
hardening
hydroxyapatite-based scaffold for bone repair,
J. Mater. Sci. Mater. Med
.,
, 437-445.
413. Khairoun, I., LeGeros, R. Z., Daculsi, G., Bouler, J. M., Guicheux, J., and
Gauthier, O. (2008) Macroporous, resorbable and injectable calcium
phosphate-based cements (MCPC) for bone repair: augmentation,
regeneration and osteoporosis treatment. US patent No. 7351280.
April 1, 2008.
17
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