Impact of soft tissue graft on the preservation of compromised sockets / Impacto do enxerto de tecido mole na preservação de alvéolos comprometidos

ABSTRACT The aim of this pilot study was to evaluate the impact of the association of free gingival graft (FGG) or collagen-matrix xenograft (CMX) to deproteinized bovine bone graft (DBBG) on the preservation of post-extraction sockets with facial-wall defects. Sixteen patients who presented a maxillary tooth with a facial bone defect and indication of extraction were selected. After the surgical procedure, all the post-extraction sockets were filled with DBBG and covered with a collagen membrane. The cervical part of the socket was then sealed with either FGG or CMX. Clinical and tomographic analyses were performed at baseline and 4 months after the grafting procedure. The FGG sockets showed higher values for the width of the bone ridge than the CMX sockets at 4 months. There was no difference regarding biopsy composition. In conclusion, regardless of the type of soft tissue graft used, socket preservation with DBBG at sites presenting facial bone defects enabled implant placement without further guided bone regeneration, whether the sockets were sealed with FGG or CMX.

RESUMO

Evaluation of Biodegradation and Osteosynthesis in CaO-SiO2-B2O3 Glass-ceramics by Posterolateral Fusion of Rabbit Lumbar vertebrae / 대한정형외과학회잡지

PURPOSE: To compare the biodegradation and osteoconduction properties of CaO-SiO2-B2O3 glass-ceramics (CS10B), hydroxyapatite(HA), and tricalcium phosphate (TCP). MATERIALS AND METHODS: Porous CS10B implants were prepared by the polymer sponge method. Single-level posterolateral spinal fusions were performed on thirty rabbits. The animals were divided into three groups by implant material: HA, TCP and CS10B. Radiographs were performed every two weeks. All animals were sacrificed 12 weeks after surgery. The proportion of the area occupied by the ceramicsin the final over the initial radiographs was calculated. Uniaxial tensile strength was determined from 7 cases in each group. RESULTS: The proportion of the area occupied by HA (88.7+/-16.1%) was significantly higher than the others (p<0.05), and the proportion of the area occupied by CS10B (28.2+/-9.3%) was significantly lower than those of HA and TCP (37+/-9.6%) (p<0.05). The mean values of the tensile strengths of HA (191.4+/-33.5 N) and CS10B (182.7+/-19.9 N) were significantly higher (p<0.05) than those of TCP (141.1+/-28.2 N). CONCLUSION: CS10B had similar tensile strengths of the fusion masses as HA, however, it degraded more rapidly than HA or TCP. These findings suggest CS10B grafts as possible bone replacement materials.

Evaluation of Osseointegration in Dense Ceramics Using Rabbit's External Fixation Model / 대한정형외과연구학회지

PURPOSE: To evaluate the osseointegration of different dense ceramics. MATERIALS AND METHODS: Twenty-eight New Zealand white male rabbits were divided into 4 groups by implant materials: Cerabone(R)-AW, CaO-SiO2- B2O3 glass ceramics (CS10B), CaO-SiO2- B2O3 glass (CS5B glass) and Cerabone(R)- A W + A l2O3 glass ceramics. We implanted the dense ceramics into the tibia of rabbits with external fixator and checked the radiographs every 4 weeks. The union rate, histology and SEM were evaluated 8 weeks after surgery. RESULTS: The union rates were 85.7% (6 of 7) in Cerabone(R)-AW, 85.7% (6 of 7) in CS10B, 71.4% (5 of 7) in CS5B glass and 28.6% (2 of 7) in Cerabone(R)-AW+Al2O3 by simple radiographs. The union rates of Cerabone (R)-AW and CS10B were statistically higher than that of Cerabone(R)-AW+Al2O3 (p=0.031). Histologically, the Cerabone(R)-AW had fused with tibia without biodegradation, CS10B, CS5B glass had fused with tibia in some portion but resorbed in others. Cerabone(R)-AW+Al2O3 had not fused with bony tissue. CONCLUSION: We confirmed the osseointegration and insolubility of Cerabone(R)-AW. We also confirmed the osseointegration and partial solubility of CaO-SiO2-B2O3 glass ceramics. These findings suggest that Cerabone (R)-AW can be used as an insoluble artificial bone and CaO-SiO2-B2O3 glass ceramics as biodegradable bone replacement materials.