Reimplantation of cultivated human bone cells from the posterior maxilla for sinus floor augmentation. Histological results from a randomized controlled clinical trial.
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OBJECTIVES:
The aim of the present randomized clinical study was to evaluate histologically whether the addition of cultivated, autogenous bone cells to a composite graft of deproteinized bovine bone mineral (DBBM) and autogenous bone (AB) for sinus floor augmentation (SFA) enhance bone formation compared with what achieved after SFA with DBBM + AB alone.
MATERIAL AND METHODS:
Twenty patients with remaining posterior maxillary alveolar crest height of less than 3 mm received SFA after randomization either with an DBBM and AB composite in a 1 : 1 ratio or with DBBM + AB supplemented with autogenous bone cells, which were cultivated from a bone biopsy harvested earlier from the tuberosity area. Four months after SFA, two cylindrical biopsies were taken from the augmented sinuses concomitantly with the implant site preparation by means of a trephine bur. An additional biopsy was taken from the tuberosity area. Bone density at the augmented sinus and the tuberosity area and the height of augmentation were estimated on non-decalcified histological sections prepared from the biopsies. A relative bone density index (RBD) was also calculated by dividing bone density at the augmented sinus with bone density at the tuberosity area.
RESULTS:
All patients but one could receive two implants after SFA; in one patient, only one implant could be placed. All implants were osseointegrated and could be loaded. Median bone density in the sinus was 30% and 25% in the cell seeded and no-cells added DBBM + AB groups, respectively. Bone augmentation height averaged 6.0 and 5.4 mm and RBD averaged 0.48 and 0.73 in the cell seeded and no-cells added DBBM + AB groups, respectively. None of the differences between groups was statistically significant.
CONCLUSIONS:
Cultivated autogenous bone cell seeded to a DBBM + AB composite did not significantly improve bone formation (density and height) after SFA, compared with what was achieved with DBBM + AB alone. Both approaches resulted into enough bone to support implant placement and osseointegration.
The aim of the present randomized clinical study was to evaluate histologically whether the addition of cultivated, autogenous bone cells to a composite graft of deproteinized bovine bone mineral (DBBM) and autogenous bone (AB) for sinus floor augmentation (SFA) enhance bone formation compared with what achieved after SFA with DBBM + AB alone.
MATERIAL AND METHODS:
Twenty patients with remaining posterior maxillary alveolar crest height of less than 3 mm received SFA after randomization either with an DBBM and AB composite in a 1 : 1 ratio or with DBBM + AB supplemented with autogenous bone cells, which were cultivated from a bone biopsy harvested earlier from the tuberosity area. Four months after SFA, two cylindrical biopsies were taken from the augmented sinuses concomitantly with the implant site preparation by means of a trephine bur. An additional biopsy was taken from the tuberosity area. Bone density at the augmented sinus and the tuberosity area and the height of augmentation were estimated on non-decalcified histological sections prepared from the biopsies. A relative bone density index (RBD) was also calculated by dividing bone density at the augmented sinus with bone density at the tuberosity area.
RESULTS:
All patients but one could receive two implants after SFA; in one patient, only one implant could be placed. All implants were osseointegrated and could be loaded. Median bone density in the sinus was 30% and 25% in the cell seeded and no-cells added DBBM + AB groups, respectively. Bone augmentation height averaged 6.0 and 5.4 mm and RBD averaged 0.48 and 0.73 in the cell seeded and no-cells added DBBM + AB groups, respectively. None of the differences between groups was statistically significant.
CONCLUSIONS:
Cultivated autogenous bone cell seeded to a DBBM + AB composite did not significantly improve bone formation (density and height) after SFA, compared with what was achieved with DBBM + AB alone. Both approaches resulted into enough bone to support implant placement and osseointegration.
| Original language | English |
|---|---|
| Journal | Clinical Oral Implants Research |
| Volume | 23 |
| Issue number | 9 |
| Pages (from-to) | 1031-1037 |
| Number of pages | 7 |
| ISSN | 0905-7161 |
| DOIs | |
| Publication status | Published - 2012 |
ID: 36077971