Abstract:
Introduction: In daily practice doctors encounter clinical situations in which pacients suffer from
insufficient hard and soft tissue volume and quality, caused either by edentation or by different postraumatic, postoperative defects, congenital malformations, etc. In order to satisfy the ideal goals of
dentistry, especially of the implant-prosthetic rehabilitation,bone regeneration procedures are performed.
Any implanted material that alone or in combination with other materials promotes a bone healing
response by providing oteogenic, osteoinductive or osteoconductive properties is called a bone graft.
Purpose and objectives: Enhancing the efficiency of rehabilitation of the patients suffering
from maxillary bone loss, on behalf of literature and histological analysis and dynamic evaluation.
Materials and methods: The study is based on 52 clinical cases, in which patients suffer
from different degrees of maxillary atrophies, defects and deformations. The patients were treated
using different procedures: autogenous, synthetic orcombined autogenous/synthetic bone grafting.
Bone samples were taken from 4 of the patientsinvolved in the study, for histological analysis.
Results: The study looked for the analysis of the resorbtion rate for each of the two grafts. We
were able to evaluate only the resorbtion rate of the augmented autogenous bone. Dynamic clinical
evaluation associated with mathematic calculus was made, coming to a result that resorbtion can grow
up till 50% of the total volume of the reconstructed site. The resorbtion rate of the augmented alloplastic
grafts, clinically was impossible to evaluate, because of the changes in volume that occur once the grafts
are being placed in the receiving site. As an alternative analysis of the question above, bone samples
were taken from patients, for further histological analysis. The histological results - microscopic images
at the operational site in a time frame of 4 months, 7 months and 7 years show structures composed of
synthetized new bone, medullary spaces and residual alloplastic biomaterial in a different quantity,
depending on the range of time elapsed since the surgical procedure was performed.
Conclusion: In order to delimit the ideal bone substitute for each situation, the bone substitute
must be selected based on factors like: systemic health of patients, the elected surgical procedure,
the osteogenic potential of the host residual bone, the morphology of the defects, etc.
Description:
Department of oral and
maxillofacial surgery and oral implantology„Arsenie Guţan“, State Medical and Pharmaceutical
University “Nicolae Testemiţanu”, Chişinău, Republic of Moldova