TIXXU Graft

substitut osseux synthétique 

TECHNOLOGIE MBCPTM

Natural Bone Vs TIXXU GRAFT

Le phosphate de calcium micro-macroporeux biphasique reproduit la structure des tissus osseux naturels.

Surface biomimétique
sure – biocompatible – synthétique

Fiche descriptive

Matériau

Synthétique 60 % hydroxyapatite (HA)
40 % ß-Tricalciumphosphate (ß-TCP)

INDICATION

Matériau de substitution osseuse

Variantes

Sous forme de granulés ou de Putty
(à base d’hydrogel)

TIXXU Craft Putty

Matériau

Synthétique 60 % hydroxyapatite (HA)
40 % ß-Tricalciumphosphate (ß-TCP)

INDICATION

Matériau de substitution osseuse

Variantes

Sous forme de granulés ou de Putty
(à base d’hydrogel)

Substitution osseuse idéale

Matrice entièrement perméable

Substitut osseux TIXXU GRAFT - Putty

TIXXU GRAFT n’est pas seulement disponible sous forme de granulés, mais aussi sous forme de gel (Putty).
TIXXU GRAFT Putty est un matériau de substitution osseuse synthétique malléable et injectable constitué de granulés de phosphate de calcium en deux phases (≥ 50 % HA/β-TCP) en connexion avec un hydrogel.

Précédent
Suivant

Applications

Bibliographie

1. Daculsi G, Laboux O, Malard O, Weiss P. Current state of the art of biphasic calcium phosphate bioceramics. J Mater Sci Mater Med. (2003) Mar;14(3):195-200
2. Daculsi G. , LeGeros R. Z, Grimandi G., Soueidan A., Aguado E., Goyenvalle E., LeGeros J., Effect of Sintering Process of HA/TCP Bioceramics on Microstructure, Dissolution, Cell Proliferation and Bone Ingrowth, Key Engineering materials Vols 361-363 (2008) pp1139-1142
3. Changseong K., Sung Cho K., Daculsi C., Seris E. , Daculsi G., Eight-Year Clinical Follow-Up of Sinus Grafts with Micro-Macroporous Biphasic Calcium Phosphate Granules, Key Engineering Materials Vol. 587 (2014) pp 321-324
4. Rodriguez C., Jean A., Daculsi G., Five Years Clinical Follow up Bone Regeneration with CaP Bioceramics, Key Engineering Materials Vols. 361-363 (2008) pp. 1339-1342
5. Daculsi G., Jegoux F. and Layrolle P., The micro macroporous biphasic calcium phosphate concept for bone reconstruction and tissue engineering. in Advanced Biomaterials: Fundamentals, Processing, and Applications book, Basu B. et al., Wiley J. and sons Inc., (2009) pp 101-141
6. Fellah B., Gauthier O., Weiss P., Chappard, D. Layrolle P., Osteogenicity of biphasic calcium phosphate ceramics and bone autograft in a goat model, Biomaterials 29 (2008) 1177-1188
7. Lee JH, Jung UW, Kim CS, Choi SH, Cho KS., Histologic and clinical evaluation for maxillary sinus augmentation using macroporous biphasic calcium phosphate in human, Clin Oral Implants Res. (2008) Aug;19(8):767-71.
8. Daculsi G., Layrolle P., Osteoinductive properties of Micro Macroporous biphasic calcium phosphate bioceramics., Key Engineering Materials (2004);254-256:1005-8.

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