Enhanced bone regeneration with a novel synthetic bone substitute in combination with a new natural cross-linked collagen membrane: radiographic and histomorphometric study

4Bone is a fully synthetic bioactive bone substitute composed of 60% hydroxyapatite (HA) and 40% beta-tricalcium phosphate (ß-TCP). This study aimed to investigate the effect of resorbable collagen membranes (RCM) on critical size defects in rabbit tibiae filled with this novel biphasic calcium phos...

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Bibliographic Details
Published in:Clinical oral implants research 2015-04, Vol.26 (4), p.454-464
Main Authors: Calvo-Guirado, José Luis, Ramírez-Fernández, Maria P., Maté-Sánchez, Jose E., Bruno, Negri, Velasquez, Pablo, de Aza, Piedad N.
Format: Article
Language:English
Subjects:
Absorbable Implants
Animals
Biocompatible Materials - pharmacology
Bone Regeneration - drug effects
bone substitute
Bone Substitutes - pharmacology
Calcium Phosphates - pharmacology
Collagen - pharmacology
collagen membrane
critical size defects
Dentistry
Durapatite - pharmacology
guided bone regeneration
hydroxyapatite
Hydroxyapatites - pharmacology
Membranes, Artificial
Osteogenesis - drug effects
Rabbits
Tibia - surgery
tricalcium phosphate
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Summary:4Bone is a fully synthetic bioactive bone substitute composed of 60% hydroxyapatite (HA) and 40% beta-tricalcium phosphate (ß-TCP). This study aimed to investigate the effect of resorbable collagen membranes (RCM) on critical size defects in rabbit tibiae filled with this novel biphasic calcium phosphate at 15, 30, 45, and 60 days by radiological and histomorphometric analysis. Three critical size defects of 6 mm diameter were created in both tibiae of 20 New Zealand rabbits and divided into three groups according to the filling material: Group A (4Bone), Group B (4Bone plus RCM), and Group C (unfilled control group). At each of the four study periods, five rabbits were sacrificed. Anteroposterior and lateral radiographs were taken. Samples were processed for observation under light microscopy. At the end of treatment, radiological analysis found that cortical defect closure was greater in Group B than Group A, and radiopacity was clearly lower and more heterogeneous in Group A cortical defects than in Group B. There was no cortical defect closure in Group C. Histomorphometric evaluation showed significant differences in newly formed bone and cortical closure in Group B compared with Groups A and C, with the presence of higher density newly formed bone in cortical and medullar zones. Biphasic calcium phosphate functioned well as a scaffolding material allowing bone ingrowth and mineralization. The addition of absorbable collagen membranes enhanced bone gain compared with non-membrane-treated sites. This rabbit study provides radiological and histological evidence confirming the suitability of this new material for guided tissue regeneration of critical defects.
ISSN:0905-7161
1600-0501
DOI:10.1111/clr.12399