Horizontal Augmentation of Chronic Mandibular Defects by the Guided Bone Regeneration Approach: A Randomized Study in Dogs
Autor: | Friedmann, Anton, Fickl, Stefan, Fischer, Kai R, Dalloul, Milad, Goetz, Werner, Kauffmann, Frederic |
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Přispěvatelé: | University of Zurich, Friedmann, Anton |
Jazyk: | angličtina |
Rok vydání: | 2022 |
Předmět: |
Technology
Microscopy QC120-168.85 3104 Condensed Matter Physics bone substitutes collagen membranes QH201-278.5 610 Medicine & health animal study Engineering (General). Civil engineering (General) histomorphometry 2500 General Materials Science Article TK1-9971 guided bone regeneration (GBR) degradation profile Descriptive and experimental mechanics lateral augmentation 10066 Clinic of Conservative and Preventive Dentistry General Materials Science ddc:610 Electrical engineering. Electronics. Nuclear engineering TA1-2040 |
Zdroj: | Materials, Vol 15, Iss 238, p 238 (2022) Materials Materials; Volume 15; Issue 1; Pages: 238 |
ISSN: | 1996-1944 |
Popis: | Various biomaterial combinations have been studied focusing on their ability to stabilize blood clots and maintain space under soft tissue to support new bone formation. A popular combination is Deproteinized Bovine Bone Mineral (DBBM) placed with a native collagen membrane (NCM) tacked to native bone. In this study, we compared the outcome of this treatment option to those achieved with three different graft/membrane combinations with respect to total newly occupied area and the mineralized compound inside. After bi-lateral extraction of two mandibular premolars in five adult beagles L-shaped alveolar defects were created. A total of 20 defects healed for 6 weeks resulting in chronic type bone defects. At baseline, four options were randomly allocated to five defects each: a. DBBM + NCM with a four-pin fixation across the ridge; b. DBBM + RCLC (ribose cross-linked collagen membrane); c. DBBM + NPPM (native porcine pericardium membrane); and d. Ca-sulfate (CS) + RCLC membrane. Membranes in b/c/d were not fixed; complete tensionless wound closure was achieved by CAF. Termination after 3 months and sampling followed, and non-decalcified processing and toluidine blue staining were applied. Microscopic images obtained at standardized magnification were histomorphometrically assessed by ImageJ software (NIH). An ANOVA post hoc test was applied; histomorphometric data are presented in this paper as medians and interquartile ranges (IRs). All sites healed uneventfully, all sites were sampled and block separation followed before Technovit embedding. Two central sections per block for each group were included. Two of five specimen were lost due to processing error and were excluded from group b. New bone area was significantly greater for option b. compared to a. (p = 0.001), c. (p = 0.002), and d. (p = 0.046). Residual non-bone graft area was significantly less for option d. compared to a. (p = 0.026) or c. (p = 0.021). We conclude that collagen membranes with a prolonged resorption/barrier profile combined with bone substitutes featuring different degradation profiles sufficiently support new bone formation. Tacking strategy/membrane fixation appears redundant when using these biomaterials. |
Databáze: | OpenAIRE |
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