Browsing by Author "Mahmuti, Ates"

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Does an infra pectineal plate alone provide adequate fixation in anterior column posterior hemitransverse acetabular fractures? A comparative biomechanical study
(2022) Simsek, Ekin Kaya; Haberal, Bahtiyar; Mahmuti, Ates; Balcik, Bedi Cenk; Demirors, Huseyin; 0000-0002-1668-6997; 35920432; W-9080-2019
BACKGROUND: The purpose of this study is to compare biomechanical properties of suprapectineal (SP) plate fixation, infrapectineal (IP) plate fixation, and both SP and IP plate fixation in anterior column posterior hemitransverse (ACPHT) fractures of the acetabulum using posterior and anterior column screws. METHODS: In 21 hard plastic left hemipelvis models, ACPHT fractures of the acetabulum were created, and in three different fixation groups, the methods were compared: Group 1: SP plating using a 3.5 mm reconstruction plate and cortical screw fixation, Group 2: Infrapectineal plating using 3.5 mm reconstruction plate and cortical screws combined with posterior and anterior column screws, and Group 3: Combined fixation with SP and IP plating using 3.5 mm reconstruction plates and cortical screws. Maximum load to failure (strength) of these three groups was compared between groups. RESULTS: The mean maximum load of failure for three groups was 2921 N, 2018 N, and 3658 N, respectively. When strength was compared considering the force that causing implant failure, it was determined that the strongest fixation was achieved when SP and IP fixation method were applied together, followed by SP only fixation and IP fixation supported by anterior and posterior column screws, respectively. CONCLUSIONS: The combined application of SP and IP fixation provides the most stable fixation of the ACPHT acetabular fractures, and IP fixation does not provide comparable biomechanical stability despite reinforcement with three-column screws placed away from the plate. Although IP fixation supported by anterior and posterior column screws with the limited combined approach is less invasive approach for patients, SP fixation should be included in the surgical treatment method to ensure adequate stability.
Outcomes for core decompression with multiple drilling of the osteonecrosis of the femoral head in patients with solid organ transplantation
(2018) Haberal, Bahtiyar; Sahin, Orcun; Simsek, Ekin Kaya; Mahmuti, Ates; Tuncay, Ismail Cengiz; 30376800
Objectives: This study aims to investigate the clinical and radiological outcomes of core decompression surgery performed with multiple drilling in solid organ transplantation patients with osteonecrosis of femoral head (ONFH) and evaluate the effectiveness of this procedure in regard to duration of corticosteroid use and stage of osteonecrosis. Patients and methods: A total of 22 solid organ transplantation (kidney, liver or heart) patients (14 males, 8 females; mean age 43.3 years; range. 23 to 67 years) who were scheduled to undergo core decompression surgery with multiple drilling for ONFH were evaluated. Patients' Harris hip scores (HHSs) and radiographic data including Association Research Circulation Osseous (ARCO) staging and Kerboul grading were retrospectively reviewed at pre- and postoperative controls. Results: Patients were followed-up for mean 34.3 months (range, 12 to 76 months). Two patients (9.09%) were performed total hip arthroplasty. These two patients' Kerboul grade was 3. There was no statistically significant relationship between preoperation and postoperative final control in terms of ARCO staging. There was no statistically significant difference between pre- and postoperative HHSs. Conclusion: Although multiple drilling is a safe and minimally invasive surgery, its effect is limited, particularly in solid organ transplantation patients with ONFH due to long-term corticosteroid use. Therefore, solid organ transplantation patients should be closely monitored in terms of ONFH development.
Treatment of Full-Thickness Cartilage Defects with Pedunculated and Free Synovial Grafts: A Comparative Study in an Animal Model
(2020) Haberal, Bahtiyar; Sahin, Orcun; Terzi, Aysen; Simsek, Ekin Kaya; Mahmuti, Ates; Tuncay, Ismail Cengiz; 0000-0002-6035-6258; 0000-0001-5856-8895; 0000-0002-1668-6997; 32850038; AAF-4032-2021; AAF-3988-2021; W-9080-2019
Aims and Objectives The purpose of this study was to compare the potential effects of pedunculated and free synovial grafts in the repair of full-thickness articular cartilage defects on an animal model with histological and immunohistochemical analysis. Materials and Methods A comparative study in an animal model was performed with 24 rabbits, divided into two groups. Full-thickness cartilage defects were created bilaterally on the knees of all rabbits. Pedunculated and free synovial grafts were applied to the right knees of Group 1 and Group 2, respectively. Left knees were left as the control group. Six rabbits from each group were randomly selected for euthanasia 4 and 8 weeks postoperatively. All samples were examined histologically with a cartilage scoring system. For immunohistochemical analysis, the degree of collagen 2 staining was determined using a staging system. All data were statistically compared between the study groups with Student's t-test or Mann-Whitney U-test. The correlations between categorical variables were analyzed with Fisher's exact test and Chi-square test. Results In Group 1, the mean defect size had significantly decreased at 8 weeks postsurgery. It was also significantly smaller than that of Group 2. Both pedunculated and free synovial grafts had significantly better histological and immunohistochemical outcomes compared with the controls. Contrastingly, the results of comparison between the study groups (Group 1 vs. 2) at the 4th and 8th week were not statistically significant with regard to histological scores and immunohistochemical staining. Conclusion Synovial tissue, whether pedunculated or free, provided much better cartilage recovery compared with the control. It can be used as a mesenchymal stem cell (MSC) source, and synovium-derived MSCs have the chondrogenic potential for the in vivo treatment of full-thickness cartilage defects.