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Yayın Comparison of Bone Prefabrication with Vascularized Periosteal Flaps, Hydroxyapatite, and Bioactive Glass in Rats(THIEME MEDICAL PUBL INC, 2015) Ersoy, Burak; Bayramicli, Mehmet; Ercan, Feriha; Sirinoglu, Hakan; Turan, Pinar; Numanoglu, AyhanBackground Periosteal flaps possess osteoprogenitor cells and an osteoinductive potential that can be further augmented by combination with a biodegradable scaffold; therefore, various osteoconductive and osteostimulative biomaterials are frequently combined with periosteal flaps in studies of bone prefabrication. An experimental study was designed to determine and compare the contribution of bioactive glass and hydroxyapatite to osteoneogenesis in rats when combined with a periosteal flap. Materials and Methods In 60 Sprague Dawley rats, saphenous artery periosto-fasciocutaneous island flaps were transposed to abdomen. In group 1, the flap was left alone, in group 2, an empty artificial pocket made of Gore-Tex (W. L. Gore & Associates, Inc.; Flagstaff, AZ) was sutured onto the periosteal layer, and in groups 3 and 4, the pocket was filled with bioactive glass and hydroxyapatite, respectively. Following sampling for histological analysis, a 4-point scoring system was used to grade inflammatory cell infiltration, osteogenesis, angiogenesis, and cell migration into the bioactive material. Results The combination of the periosteal flap with any of the bioactive materials resulted in significantly higher percentages of animals exhibiting osteogenesis (80% in hydroxyapatite group and 93.3% in the bioactive glass group; p = 0.0000528) and angiogenesis. Comparison of the bioactive material groups revealed that a significantly higher proportion of animals in the bioactive glass group exhibited moderate or severe inflammation (80 vs. 20%; p = 0.002814). Conclusion Periosteal flaps prefabricated with hydroxyapatite or bioactive glass in rats exhibit osteogenic capacities that are not dependent on direct bone contact or proximity to vascular bony tissue. The innate capacity of the periosteal flap when utilized alone for osteoneogenesis was found to be rather insufficient.Yayın A New Perspective for Spreader Graft Use in Severely Deviated Septum: Is Septal Continuity an Obligation for a Stable and Straight Nasal Septum?(THIEME MEDICAL PUBL INC, 2016) Sirinoglu, Hakan; Yesiloglu, Nebil; Ersoy, BurakSevere septal deviation is a challenging deformity usually treated using aggressive surgical methods, and extracorporeal septoplasty (ECS) is a commonly used method for this issue. However, this method has severe risks and complications such as the recurrent deformity or nasal saddling. In this article, we present an alternative solution to ECS procedure for the correction of severe septal deviation. Sixteen patients with severe c- or s-shaped septal deviation with a mean age of 26.5 years were included in the study. The entire deviated part of the septal cartilage was resected as a vertical block creating a full-thickness defect between the most cranial and caudal parts of the septal cartilage. After that, two spreader grafts were placed bilaterally facilitating the septal integrity and leaving the full-thickness septal defect unchanged. The surgical results were evaluated using the preoperative and postoperative facial photographs and patient satisfaction was determined using nine relevant questions of DAS-59 scale. The only complication observed in the follow-up period of 19 months was hanging columella deformity which was corrected at the postoperative first year. The mean length of the resected septal segment was 12.4 mm. The mean length of the resultant septal cartilage defect after the vertical resection was 5.9 mm. The mean length of the placed spreader grafts was 25.6 mm. The comparison of the preoperative and postoperative photographs showed significant improvement of the nasal contour and considerable correction of the septal deviation. The statistical evaluation of the answers given to the questions of the DAS-59 scale clearly demonstrates that a significant degree of patient satisfaction was achieved. Severe septal deviation may be successfully corrected by full-thickness resection of the deviated part and reconstruction with bilateral spreader grafts with a low risk of postoperative complications.