Octacalcium phosphate collagen composite for periodontal regeneration in a canine one-wall intrabony defect.

OBJECTIVE: This study aimed to evaluate the regenerative capacities of octacalcium phosphate collagen composite (OCP/Col) in one-wall intrabony defects in dogs. The background data discuss the present state of the field: No study has assessed the efficacy of OCP/Col for periodontal regeneration therapy despite the fact that OCP/Col has proved to be efficient for bone regeneration. METHODS: In six beagle dogs, the mandibular left third premolars were extracted 12 weeks before the experimental surgery. Standardized bone defects (5 mm in height and 4 mm in width) were simulated on the distal surface of the second premolars and mesially on the fourth premolars. The defect was filled with either OCP/Col (experimental group) or left empty (control group). Histological and histomorphometric characteristics were compared 8 weeks after surgery. RESULTS: No infectious or ankylotic complications were detected at any of the tested sites. The experimental group exhibited a significantly greater volume, height, and area of newly formed bone than the control group. The former also showed a greater height of the newly formed cementum than the latter, although the results were not statistically significant. The newly formed periodontal ligaments were inserted into newly formed bone and cementum in the experimental group. CONCLUSION: OCP/Col demonstrated high efficacy for bone and periodontal tissue regeneration that can be successfully applied for one-wall intrabony defects.

Preclinical Evaluation of a Poly (Lactic Acid/Caprolactone) Bilayer Membrane and a Carbonate Apatite for Periodontal Regeneration: A Canine One-Wall Intrabony Defect Model.

AIMS: This preclinical study aimed to evaluate the periodontal tissue regenerative capacities of poly (lactic acid/caprolactone) (PLCL) bilayer membrane in one-wall intrabony defects in dogs. No study has assessed the efficacy of PLCL bilayer membrane for periodontal regeneration therapy despite the fact that PLCL bilayer membrane has proved efficient for bone regeneration. METHODS: In five beagle dogs, the bilateral mandibular second and fourth premolars were extracted 8 weeks before the experimental surgery. Standardized bone defects (5 mm in height and 6 mm in width) were surgically created on the mesial and distal roots of the bilateral third premolars in the mandible. The test groups were set up as follows: (i) carbonate apatite (CO3Ap) + PLCL, (ii) CO3Ap, (iii) xenograft (DBBM) + collagen membrane (CM), and (iv) DBBM. The control group was left empty. Radiological, histologic and histomorphometric characteristics were compared 8 weeks after surgery. RESULTS: No infectious complications were detected at any of the tested sites. The test groups exhibited a greater height and volume of the newly formed bone than the control group. They also showed a greater height of the newly formed cementum than the control group. However, the results were not statistically significant. The newly formed periodontal ligaments were inserted into newly formed bone and cementum in the test groups. CONCLUSION: The combined use of PLCL bilayer membrane and CO3Ap demonstrated comparable performance for periodontal tissue regeneration in one-wall intrabony defects compared to conventional therapies.

Clinical outcomes of guided tissue regeneration with carbonate apatite granules and poly(lactic acid/caprolactone) membrane for the treatment of intrabony defects and mandibular Class II furcation involvements: A 12-month prospective pilot clinical study.

Introduction: For deep intrabony defects or Class II furcation involvements (FI), periodontal tissue regenerative therapy combined with bone graft materials and a barrier membrane is recommended. The objective of this study was to assess the safety and efficacy of using carbonate apatite (CO3Ap) granules and absorbable poly(lactic acid/caprolactone) (PLCL) membranes for periodontal regeneration in the treatment of intrabony defects and mandibular Class II FI. Methods: This prospective pilot clinical study, conducted at a single center with a single-arm design, aimed to assess the safety and efficacy of CO3Ap and PLCL membranes in patients with periodontitis. A total of 9 patients with 10 teeth, including seven deep intrabony defects and three Class II FI, were treated with CO3Ap granules and PLCL membranes. Clinical parameters such as probing pocket depth (PPD), clinical attachment level (CAL), bleeding on probing (BOP), tooth mobility (Mo), Plaque Index (PI), and Gingival Index (GI) were assessed at baseline, 6 and 12 months post-surgery. Radiographic analysis was performed using dental X-rays and cone beam computed tomography (CBCT) images taken at baseline, 6, and 12 months post-surgery. Results: Postoperative healing was uneventful in most of the cases. In some cases, membrane exposures were observed. However, there were no signs of inflammation, such as abnormal bleeding, pain, swelling, or pus. These exposures eventually healed well in the end. The mean reductions in PPD at 6 and 12 months were 4.5 ± 1.6 mm and 4.9 ± 1.4 mm, respectively, while the mean gains in CAL were 4.4 ± 1.7 mm at 6 months and 4.6 ± 1.2 mm at 12 months. Radiographic analysis showed improvements in linear bone height within intrabony defects and in the vertical subclassification of FI in Class II FI. Conclusions: Despite the limitations of this study, periodontal regenerative therapy using CO3Ap granules and a PLCL membrane demonstrated promising clinical safety and efficacy for treating intrabony defects and mandibular Class II furcation involvement.

Preclinical evaluation of the effect of periodontal regeneration by carbonate apatite in a canine one-wall intrabony defect model.

Objective: This study aimed to histologically compare periodontal regeneration of one-wall intrabony defects treated with open flap debridement, ß-tricalcium phosphate (ß-TCP), and carbonate apatite (CO3Ap) in dogs. Methods: The mandibular third premolars of four beagle dogs were extracted. Twelve weeks after the extraction, a one-wall bone defect of 4 mm × 5 mm (mesio-distal width × depth) was created on the distal side of the mandibular second premolar and mesial side of the fourth premolar. Each defect was randomly allocated to open flap debridement (control group), periodontal regeneration utilizing ß-TCP, or CO3Ap. Eight weeks after the surgery, histologic and histometric analyses were performed. Results: No ankylosis, infection, or acute inflammation was observed at any of the experimental sites. Newly formed bone and cementum were observed in all experimental groups. The mineral apposition rate of the alveolar bone crest was higher in the CO3Ap group than in the control and ß-TCP groups. The ratio of the new bone area was significantly higher in the CO3Ap group than in the control group (P < 0.05). The bone contact percentage of the residual granules was significantly higher in the CO3Ap group than in the ß-TCP group (P < 0.05). Conclusion: Although this study has limitations, the findings revealed the safety and efficacy of CO3Ap for periodontal regeneration in one-wall intrabony defects in dogs, and CO3Ap has a better ability to integrate with bone than ß-TCP.