Aim: Evaluation of the long-term effectiveness of regenerative treatment of intra-bony defects in periodontal practice.
Material and methods: A total of 1,008 intra-bony defects in 176 patients were analysed after using collagen-added deproteinized bovine bone mineral (DBBMc) with or without collagen membrane (CM) or enamel matrix derivative (EMD). Defects were classified as one- and two-wall and as shallow (≤6 mm), moderate (>6 and <11 mm) and deep (≥11 mm). Radiographic bone level changes were evaluated after 1 year, 2 to 4 years and 5 to 10 years.
Results: Mean radiographic defect fill was 3.8 mm after 1 year and remained stable up to 10 years. Deep and moderate defects showed a higher degree of fill than shallow defects (53.3%, 49.2%, 42.9%). Tooth loss amounted to 2.6%, was dependent on initial defect size (1.2% shallow, 1.4% moderate, 5.7% deep defects) and occurred mainly due to endodontic reasons.
Conclusions: Within the limits of the retrospective study design, the findings indicate that periodontal treatment using DBBMc with or without CM or EMD can lead to long-term defect reduction and tooth survival for up to 10 years in the setting of a periodontal practice.
Keywords: bovine bone mineral; collagen; compliance; enamel matrix protein; long-term; membrane; radiographic bone level; regenerative periodontal therapy.
© 2017 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.