References of "Pilet, Paul"
     in
Bookmark and Share    
Full Text
Peer Reviewed
See detailThe effect of collagenated space filling materials in sinus bone augmentation: a study in rabbits
LAMBERT, France ULg; Léonard, Angélique ULg; Drion, Pierre ULg et al

in Clinical Oral Implants Research (2013), 24(5),

Aim: The inclusion of biomaterial particles used for alveolar bone regeneration in a carrier or in binding agents such as collagen gel or fibers is of interest as a means to help with surgical handling ... [more ▼]

Aim: The inclusion of biomaterial particles used for alveolar bone regeneration in a carrier or in binding agents such as collagen gel or fibers is of interest as a means to help with surgical handling. However, the possible influence of collagen on bone tissue response to biomaterials is poorly studied. The objective of the present study was to investigate, in a sub-sinus bone augmentation model in rabbits, the effect of collagen at different stages of the osteogenesis process. Histologic, histomorphometric and volumetric analyses were performed. Materials and methods: Rabbits underwent a double sinus lift procedure using bovine hydroxyapatite (BHA), collagenated bovine hydroxyapatite (BHAColl), and prehydrated and collagenated porcine hydroxyapatite (PHAColl). Animals were sacrificed at 1 week, 5 weeks or 6 months. Samples were subjected to X-ray micro-tomography and histology. Qualitative analysis was performed on the non-decalcified sections and quantitative histomorphometric analyses were conducted using scanning electron microscopy (SEM). Volume variations of bone augmentations were calculated at different time points. Results: The three biomaterials allowed an optimal bone formation and were able to equally withstand sinusal reexpansion. A comparable percentage of new bone, as well as 3D volume stability, was found between the groups at each time point. However, the PHAColl resorption rate was significantly higher than the rates in other groups (P = 0.0003), with only 3.6% of the particles remaining at 6 months. At 1 week, both collagenated groups displayed the presence of inflammatory cells although BHA did not show any sign of inflammation. At 5 weeks and 6 months, the inflammatory process had disappeared completely in the BHAColl groups, whereas some inflammatory-like cells could still be observed around the remaining particles of PHAColl. Conclusions and clinical implications: Within the limitations of this study in rabbits, the findings showed the presence of inflammatory-like cells at the early stage of bone regeneration when collagenated xenogenic biomaterials were used compared to xenogenic granules alone. Nevertheless, similar bone formation occurred and comparable 3D volumes were found at 6 months in the different groups. [less ▲]

Detailed reference viewed: 31 (7 ULg)
Full Text
Peer Reviewed
See detailA comparison of three calcium phosphate based space fillers in sinus elevation: a study in rabbits
LAMBERT, France ULg; Léonard, Angélique ULg; LECLOUX, Geoffrey ULg et al

in The international Journal of Oral and Maxillofacial Implants (2013), 28(2), 393-402

Aim: Sub-sinusal bone regeneration procedures are reliable procedures that are known to be efficient with the use of biomaterials alone. Nevertheless, many types of biomaterials are available, and their ... [more ▼]

Aim: Sub-sinusal bone regeneration procedures are reliable procedures that are known to be efficient with the use of biomaterials alone. Nevertheless, many types of biomaterials are available, and their efficacy in terms of bone formation and resorption rate have rarely been compared. This study aimed to compare the bone formation, resorption rate, osteoconductivity and 3D volume changes of three biomaterials often used for alveolar ridge augmentation. Materials and Methods: Rabbits underwent a double sinus lift procedure using three different types of space fillers: bovine hydroxyapatite (BHA), beta calcium phosphate (ß-TCP) and biphasic calcium phosphate (BCP). Animals were sacrificed at 1 week, 5 weeks and 6 months. Samples were subjected to X-ray microtomography and histology. Qualitative analysis was performed on non-decalcified sections, and quantitative histomorphometric analysis was conducted using SEM. Volume variations of bone augmentations were calculated at different time points. Results: All three particulated biomaterials proved to be effective in promoting osteogenesis. At 6 months, biomaterial resorption rates were significantly different across the 3 groups (p<0.0001). The highest resorption rate was found with β-TCP, in which only 6.7% of the baseline particle surface remained. At 6 months, bone was in close contact with the BHA particles, constituting a composite network; in contrast, BCP particles were often surrounded by soft tissues. In each group, no significant difference in volume variations were found at the different time point. Conclusions and clinical implications: Despite the limitations of the study, the three particulated space-filling biomaterials proved to be efficient to promote osteogenesis. High resorption rates and complete replacement of the biomaterials by bone seemed to withstand intrasinusal pressure. Further investigations in humans should consider longer follow-up periods. [less ▲]

Detailed reference viewed: 38 (7 ULg)