Madrob Non-Resorbable Hydroxyapatite

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Properties

NON-RESORBABLE HYDROXYAPATITE / CONTROLLED RESORPTION.

Biostructured bone regeneration matrix with interconnected channels, similar to that of bone with an average pore size of 200-300 microns.

- Bioceramic
- Biostructured micro and macroporous sponge according to the pattern of human bone
- Granules
- Osteoconductive
- Biocompatible
- Osseointegrable
- Non-resorbable

Indications

IMPLASTIC HA NON-RESORBABLE bone regeneration matrix is used as a bone filling material when an increase in bone volume is required:

• Augmentation of atrophied alveolar ridge
• Maxillary sinus elevation
• Filling of bone defects
• Filling of nasolabial grooves
• Intraorbital filling

Presentation

Syringe x 1 cc
Syringe x 0.5 cc

Granules 600 - 900 microns

900 - 1200 microns

Sterile

Bibliography

• Jarcho, M. Calcium Phosphate ceramics as hard tissue prosthetic. Clin Orthop 157: 259-278, 1981.
• Van W JR. Phosphorus and its compounds, Interscience Publish Inc. New York 2: 14-29.
• Rodriguez, MD. Synthesis of Hydroxyapatite. Engineering and Research, Universidad Nacional de Colombia, Facultad de Ingeniería, Bogotá DC. Dec (41):63, 1998.
• Campos LA, Rodriguez MD. Dentistry. Reconstruction of alveolar ridges and stimulation of bone mineralization through the use of resorbable and non-resorbable hydroxyapatite. Year 11 (5): 19-22, 19967.
• Campos LA, Rodriguez MD. Study on bioresorption and biocompatibility of ceramic hydroxyapatite produced in Colombia. Dental Tribune, Bogotá D.C. 1995.
• Bonel G, Heughebeaert J.G., Heughebeaert M., et al. Apatitic Calcium orthophosphates and related compounds for biomaterials preparation. Annals of the New York Academy of Sciences. 523: 115-129, 1988.
• Driessens FCM. Physiology of hard tissues in comparison with the solubility of synthetic calcium phosphates. Annals of the New York Academy of Sciences. 523: 131-155.