Ridge preservation using a self‐retaining block type bone substitute for extraction sockets with buccal dehiscence defects – A preclinical study

Abstract

AbstractObjectiveTo evaluate the effect of a self‐retaining block‐type bone substitute (srBB) on the dimensional stability of the horizontal ridge width at the coronal level in a buccal dehiscence model.Materials and MethodsFour box‐shaped bone defects with a buccal dehiscence were surgically prepared in the partially edentulous mandible (n = 6). Experimental biomaterials were randomly assigned to each site: (1) Control group: no treatment, (2) particle‐type bone substitute (PBS) group, (3) collagenated soft block bone substitute (csBB) group, and (4) self‐retaining synthetic block bone (srBB) group. In all grafted groups, a collagen membrane covered the biomaterials. At 16 weeks, clinical, histological, and radiographic analyses were performed.ResultsThree of the six blocks in the srBB group became exposed and fell out during the first week after surgery. Therefore, the remaining three specimens were renamed RsrBB group. The RsrBB group showed an increase horizontal ridge compared to the pristine bone width at 2–4 mm below the CEJ, while the other groups showed resorption (augmented width at 2 mm below: 4.2, 42.4, 36.2, and 110.1% in the control, PBS, csBB, and RsrBB groups, respectively). The mineralized bone area was largest in the RsrBB group (4.74, 3.44, 5.67, and 7.77 mm2 in the control, PBS, csBB, and RsrBB groups, respectively.).ConclusionsThe srBB group demonstrated the highest volume stability at the coronal level. These findings would potentially suggest that self‐retaining block bone substitute might be a good candidate for alveolar ridge preservation.