Biomedical Engineering Reference
In-Depth Information
biomimetic system of high complexity,
ChemPhysChem
,
11
, 1851-
1853.
454. However, there are some reports about a lack of TCP biodegradation
after implantation in calvarial defects [455].
455. Handschel, J., Wiesmann, H. P., Stratmann, U., Kleinheinz, J., Meyer, U.,
and Joos, U. (2002) TCP is hardly resorbed and not osteoconductive
in a non-loading calvarial model,
, 1689-1695.
456. Kikuchi, M., Tanaka, J., Koyama, Y., and Takakuda, K. (1999) Cell
culture tests of TCP/CPLA composites,
Biomaterials
,
23
J. Biomed. Mater. Res
.,
48
,
108-110.
457. Yaszemski, M. J., Payne, R. G., Hayes, W. C., Langer, R., and Mikos, A.
G. (1996)
degradation of a poly(propylene fumarate)-based
composite material,
In vitro
, 2117-2130.
458. Wang, M., Wang, J., and Ni, J. (2000) Developing tricalcium phosphate/
polyhydroxybutyrate composite as a new biodegradable material for
clinical applications,
Biomaterials
,
17
, 741-744.
459. Kikuchi, M., Koyama, Y., Takakuda, K., Miyairi, H., Shirahama, N.,
and Tanaka, J. (2002)
Biomechanics
,
192
change n mechanical strength of
β-tricalcium phosphate/copolymerized poly-L-lactide composites
and their application for guided bone regeneration,
In vitro
J. Biomed. Mater.
, 265-272.
460. Ignatius, A. A., Augat, P., and Claes, L. E. (2001) Degradation behaviour
of composite pins made of tricalcium phosphate and poly(L, D,L-
lactide),
Res
.,
62
, 185-194.
461. Ignatius, A. A., Wolf, S., Augat, P., and Claes, L. E. (2001) Composites
made of rapidly resorbable ceramics and poly(lactide) show adequate
mechanical properties for use as bone substitute materials,
J. Biomater. Sci. Polym. Edn
.,
12
J. Biomed.
, 126-131.
462. Kikuchi, M., and Tanaka, J. (2000) Chemical interaction in β-tricalcium
phosphate/copolymerized poly-L-lactide composites,
Mater. Res
.,
57
J. Ceram. Soc.
, 642-645.
463. Aunoble, S., Clement, D., Frayssinet, P., Harmand, M. F., and le Huec,
J. C. (2006) Biological performance of a new β-TCP/PLLA composite
material for applications in spine surgery:
Jpn
.,
108
in vitro
and
in vivo
studies,
, 416-422.
464. Haaparanta, A. M., Haimi, S., Ellä, V., Hopper, N., Miettinen, S.,
Suuronen, R., and Kellomäki, M. (2010) Porous polylactide/β-
tricalcium phosphate composite scaffolds for tissue engineering
applications,
J. Biomed. Mater. Res. A
,
78A
J. Tiss. Eng. Regen. Med.
,
4
, 366-373.
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