Abstract
The purpose of the present study was to evaluate the histological and histomorphometric characteristics of post-extraction sites grafted with decellularized bovine compact bone from bovine femur, mixed and unmixed with leukocyte- and platelet-rich fibrin after four months of healing. This study was designed as a randomized controlled trial of parallel groups. Patients in need of a single, implant-supported restoration to replace a hopeless tooth were recruited for tooth extraction and implant placement four months after socket preservation procedure. After tooth extraction, patients were randomly allocated to receive decellularized bovine compact bone from bovine femur, mixed and unmixed with leukocyte- and platelet-rich fibrin. After four months of healing, tapered implants were inserted with an insertion torque between 35 and 45 Ncm. Two months later, implants were loaded with screw-retained definitive crowns. Outcome measures were implant (ISR) and prosthesis (PSR) survival rates, complications, histological and histomorphometric analyses, radiographic marginal bone-level changes, and patients’ satisfaction. Clinical data were collected up to one year after tooth extraction and socket preservation procedures. Thirty patients were consecutively enrolled in the trial (15 in each group). Unfortunately, due to the COVID-19 pandemic, bone samples were collected only in 19 patients. Two implants failed before definitive prosthesis delivery (ISR 93.3%). No prosthesis failed (PSR 100%). Three complications were experienced in the control group. The mean bone percentage was 40.64 ± 18.76 in the test group and 33.40 ± 22.38 in the control group. The difference was not statistically significant (p = 0.4846). The mean soft tissue percentage was 32.55 ± 19.45 in the test group and 55.23 ± 17.64 in the control group. The difference was statistically significant (p = 0.0235). The mean residual graft was 24.59 ± 18.39 in the test group and 11.37 ± 12.12 in the control group. The difference was not statistically significant (p = 0.0992). Mean marginal bone loss, as well as patient satisfaction, showed no differences between groups. With the limitations of the present study, socket preservation with L-PRF mixed with decellularized bovine compact bone demonstrated favorable results, comparing with decellularized bovine compact bone from bovine femur alone. Further studies with larger sample size and longer follow-up are needed to confirm these preliminary results.
Highlights
Bone resorption subsequent to the extraction of a tooth and undisturbed wound healing may lead to loss of ridge volume and change in ridge shape, which may affect the prognosis of the implant therapy [1,2]
Positive effects of PRF in dental sockets on promoting bone regeneration are still controversial [17,18]. The purpose of this randomized controlled trial was to evaluate the histological and histomorphometric characteristics of post-extraction sites grafted with decellularized bovine compact bone from bovine femur (RE-BONE® 0.5 g–0.25/1.0 mm granules, UBGEN Padova, Italy), mixed and unmixed with leukocyte- and platelet-rich fibrin after four months of healing
Due to the COVID-19 pandemic, the main deviations from the original research protocol were that the bone samples were not collected in 11 patients according to the prevention measures aimed to reduce the risk of virus transmission
Summary
Bone resorption subsequent to the extraction of a tooth and undisturbed wound healing may lead to loss of ridge volume and change in ridge shape, which may affect the prognosis of the implant therapy [1,2]. With the aim of reducing the need for guided bone regeneration after tooth extraction, socket preservation techniques have been developed. These techniques aim to minimize the shrinkage of hard and soft tissues during healing by grafting a bone substitute into the residual alveolar ridge, and a membrane to seal the socket [7,8]. Connective tissue graft, resorbable collagen-based matrices [2] and intentionally exposed not resorbable d-PTFE matrices were all used to seal the socket [11,12,13], reducing the microbiological contamination from the oral cavity [14]
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