RESUMO
BACKGROUND: Regardless of the kind of biomaterial used for the graft, it is clear that, over time, the graft undergoes dimensional changes that could influence the final bone volume obtained, which could alter the stability of the installed implants. The aim of the present study was to compared and correlated the graft behavior with the amount (in grams) of xenogeneic and alloplastic biomaterials used in grafts for maxillary sinus lift. MATERIAL AND METHODS: This retrospective cohort study used 148 CBCT images of 74 grafts from 68 maxillary sinuses lift patients in a university, post-graduate clinic. The weights of biomaterials, categorized in intervals according to amount used, were correlated with the graft volumes at V1 (10 days) and V2 (180 days). Kruskal-Wallis test was used to evaluate the possible bias effect of weight on graft maintenance. RESULTS: Mean weights of biomaterials used were: Bio-Oss Small® (1.58g); Bio-Oss Large® (1.35g); Endobon® (0.72g); BoneCeramic®+Emdogaim® (0.96g); Cerasorb® (1.13g) and Osteogen® (2.70g). No significant differences (p>0.05). Were found for the influence of these mean amounts in graft maintenance: Bio-Oss Small® (18); Bio-Oss Large® (10); Endobon® (17); BoneCeramic®+Emdogaim® (10); Cerasorb® (11); and Osteogen® (08) at V1 and V2. However, when biomaterials were categorized by intervals, all Cerasorb® interval groups showed statistically significant differences (p<0.001) in graft volume at V2. CONCLUSIONS: The amounts of the biomaterials used could influence the final volume; depending on the biomaterial characteristics. Implant installation was possible with all studied grafts, although graft volume shrinkage should be considered when selecting biomaterial for sinus lift. Key words:Biocompatible materials; cone beam computed tomography; maxillary sinus; hydroxyapatites.
RESUMO
Dental anatomy is quite complex and diverse factors must be taken into account in its analysis. Teeth with anatomical variations present an increase in the rate of severity periodontal tissue destruction and therefore a higher risk of developing periodontal disease. In this context, this paper reviews the literature regarding enamel pearls and their implications in the development of severe localized periodontal disease as well as in the prognosis of periodontal therapy. Radiographic examination of a patient complaining of pain in the right side of the mandible revealed the presence of a radiopaque structure around the cervical region of lower right first premolar. Periodontal examination revealed extensive bone loss since probing depths ranged from 7.0 mm to 9.0 mm and additionally intense bleeding and suppuration. Surgical exploration detected the presence of an enamel pearl, which was removed. Assessment of the remaining supporting tissues led to the extraction of tooth 44. Local factors such as enamel pearls can lead to inadequate removal of the subgingival biofilm, thus favoring the establishment and progression of periodontal diseases.
RESUMO
O objetivo desta revisão foi abordar o comportamento de diferentes biomateriais à base de fosfato de cálcio e/ou HA, utilizados como enxerto para reparo ósseo, bem como as respostas teciduais obtidas em modelos experimentais animais. A comparação direta entre estudos realizados em condições experimentais diversas é de difícil análise pelas variáveis envolvidas (métodos cirúrgicos, modelos experimentais, sítios de implantação e espécies). Dependendo do sítio de implantação, a arquitetura óssea difere em relação aos ossos cortical e medular, o que pode gerar diferentes tipos de estresse biomecânico e diferentes taxas de formação e remodelação ósseas. As características físico-químicas dos diferentes biomateriais influenciam consideravelmente na capacidade de estimulação da neoformação óssea. Os estudos analisados comprovam a atividade osteocondutiva das cerâmicas de fosfato de cálcio em vários sítios e modelos animais. Em relação às cerâmicas de fosfato de cálcio bifásico (BCP), suas características físico-químicas influenciam diretamente o grau de formação óssea e de sua estabilidade, estando relacionados à dissolução das fases de tricálcio fosfato e hidroxiapatita. Diversos estudos apontam para a utilização promissora do BCP como substituto ósseo e como uma alternativa viável aos enxertos de osso autógeno.
The aim of this review is to highlight the behavior of different calcium phosphate/HA-related biomaterials used as graftings for bone repair, as well as their tissue responses in experimental animal models. The direct comparison among varied experimental conditions is complicated due to the existing variables (surgical methods, experimental models, implantation sites, and selected species). Depending on the local site composition (cortical/marrow bone), different biomechanical patterns arise along with bone formation/remodeling outcomes. The physicochemical characteristics of available biomaterials significantly influence on the ability to form the new bone tissue. The presented studies corroborate the osteoconductive performance of calcium phosphate ceramics in several sites and animal models. Regarding the biphasic calcium phosphate ceramics (BCP), its physical and chemical properties influence on the bone formation degree and stability, being these related to the HA and tricalcium phosphate crystal dissolution rates. Also, several studies point out to the successful use of BCP as bone substitute and a viable alternative to the autogenous bone grafts.
