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    Biomechanical Evaluation of Implant Osseointegration After Guided Bone Regeneration With Different Bone Grafts
    (Lippincott Williams & Wilkins, 2021) Gunes, Nedim; Gul, Mehmet; Dundar, Serkan; Tekin, Samet; Bozoglan, Alihan; Ozcan, Erhan Cahit; Karasu, Necmettin
    The aim of this study was to compare the biomechanical osseointegration of titanium implants after guided bone regeneration (GBR) with a hydroxyapatite graft, deproteinized bovine bone graft, human-derived allograft, and calcium sulfate bone graft. Thirty-two female Sprague Dawley rats were divided into four groups, each containing eight (n = 8) rats: hydroxyapatide (HA), deproteinized bovine bone graft (DPBB), allograft (ALG), and calcium sulfate. Bone defects were created in the tibia of the rats, which were grafted with HA, DPBB, ALG, or CP bone grafts for the purpose of GBR. Ninety days after surgery, machine-surfaced titanium implants were inserted into the area where GBR had been undertaken. After 90 days of the surgical insertion of the implants, the rats were sacrificed, the implants with surrounding bone tissue were removed, and biomechanical osseointegration (N/cm) analysis was performed. No statistically significant differences were found among the groups in osseointegration (N/cm) three months after the GBR procedures (P > 0.05). According to the biomechanical results, none of the grafts used in this study was distinctly superior to any of the others.
  • Küçük Resim
    Öğe
    Effects of local application of the ankaferd blood stopper on osseointegration in three different surface titanium implants
    (Elsevier B.V., 2021) Özcan, Erhan Cahit; Gül, Mehmet; Dündar, Serkan; Bozoğlan, Alihan; Karasu, Necmettin; Bal, Ali; Güneş, Nedim; Bingül, Muhammet Bahattin
    Abstract Objective Researchs of the effects of ankaferd blood stopper (ABS) on bone healing metabolism have revealed that it affects bone regeneration positively. The exact mechanism by which this positive effect on bone tissue metabolism is not known. The aim of this study is to biomechanic and biochemical analysis of the effects of the local ABS application on osseointegration of 3 different surfaced titanium implants. Material & Methods Spraque dawley rats were divided machined surfaced (MS) (n ​= ​10), sandblasted and large acid grid (SLA) (n ​= ​10) and resorbable blast material (RBM) (n ​= ​10) surfaced implants. ABS applied locally during the surgical application of the titanium implant before insertion in bone sockets. After 4 weeks experimental period the rats sacrificed and implants with surrounding bone tissues were removed to reverse torque analysis (Newton), blood samples collected to biochemical analysis (ALP, calcium, P) Results Biomechanic bone implant contact ratio detected higher in SLA surfaced implants compared with the RBM and controls (P ​< ​0,05). Phosphor levels detected lower in RBM implant group compared with the controls and SLA (P ​< ​0,05). Additionally; phosphor levels detected highly in controls compared with the RBM implants. Conclusion According the biomechanical parameters ABS may be more effective in SLA and RBM surfaced implants when locally applied.