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    Distance measurements and origin levels of the coeliac trunk, superior mesenteric artery, and inferior mesenteric artery by multiple-detector computed tomography angiography (Sep, 10.1007/s12565-020-00571-x, 2020)
    (Springer, 2021) Ekingen, Arzu; Hatipoglu, Eyup Savas; Hamidi, Cihad
    In the original publication of the article, the second sentence under the Materials and methods heading should read as We retrospectively reviewed images of 261 (115 female, 146 male) patients obtained by MDCTA technique between 2016 and 2017 in the Department of Radiology of the Medical Faculty, University of Dicle..
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    Evaluation of the Singh index and Femur Geometry in Osteoporotic Women
    (Sciendo, 2010) Karabulut, Ozlen; Tuncer, Mehmet Cudi; Karabulut, Zulfu; Hatipoglu, Eyup Savas; Nazaroglu, Hasan; Akkus, Zeki
    We aimed to compare the Singh index with bone mineral density (BMD) by dual-energy X-ray absorptiometry (DXA), body mass index (BMI) and femur geometry in the right proximal femur of osteoporotic women, using different statistical tests. Radiographs of each patient were assessed to determine the Singh index by five observers. The observers consisted of a consultant radiologist, physical therapist and anatomists who studied the series of radiographs. They were asked to apply the Singh index by comparing the trabecular bone pattern in the proximal right femur with the reference scale published by Singh et al. [1]. This has a six point scale from grade VI to grade I. We evaluated 47 osteoporotic women in this study. The subjects' mean age, weigth, and height were 63,21 +/- 10,106, 66,72 +/- 12.523, 154,94 +/- 7,026 respectively. We found a significant relationship between the Singh index and BMD. The Singh index correlated significantly with hip axis length, femoral neck diamater and trochanteric width. And, BMD correlated significantly with femoral head and neck diameter, femoral neck cortex width, medial calcar femoral cortex width and femoral shaft cortex width. The evaluation of the Singh index grades in its self, there was a significant relation among them.
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    An unusual variation of the omohyoid muscle and review of literature
    (Elsevier Gmbh, Urban & Fischer Verlag, 2006) Hatipoglu, Eyup Savas; Kervancioglu, Piraye; Tuncer, Mehmet Cudi
    The omohyoid muscle is important in radical neck dissection, as it is a landmark for this operation. Because it divides the anterior and posterior cervical triangles into smaller triangles and its particular relationship to the large cervical. vessels, the presence of an anatomical variation of the omohyoid muscle is important. An unfamiliar muscle was found in the left anterior cervical region of a 57-year-old male cadaver. It was attached at its caudal end to the clavicle and coursed upward to the hyoid bone and a normal omohyoid muscle with its intermediate tendon was lateral to this muscle. Both the muscles joined together near the hyoid bone and both muscles attached to the hyoid bone with the same tendon. According to its origin and insertion, the unfamiliar muscle was considered to be the cleido-hyoideus muscle. In our case report, a variant of infrahyoid muscles is presented. Such an association constitutes an exceedingly rare condition. (c) 2006 Elsevier GmbH. All rights reserved.
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    Variations in the vascular and biliary structures of the liver: a comprehensive anatomical study
    (Acta Medical Belgica, 2018) Ulger, Burak Veli; Hatipoglu, Eyup Savas; Ertugrul, Ozgur; Tuncer, Mehmet Cudi; Ozmen, Cihan Akgul; Gul, Mesut
    Purpose: Vascular structures of the liver and the bile ducts are crucial during liver transplantation or liver resection surgery. Here, we report on variations in the vascular structures and bile ducts of 200 patients. Materials and Methods: We reviewed magnetic resonance cholangiopancreatographic and multiple-detector computed tomographic data. Results: Michels type 1 was detected in 54% of the patients. The other most common variations were, respectively, Michels type 5 (13%) and type 2 (11%). Unclassified variations were defined as Michels type 11; 5% of patients were in this group. Type 1 variations in the hepatic portal vein were detected in 76% of our study group. Other common variations were type 2 (9%) and type 3 (8.5%). The left and intermediate hepatic veins united to become a single vein and then joined the inferior vena cava in 64% of the patients. The right, intermediate, and left hepatic veins joined the inferior vena cava separately in 36% of the patients. Type A, which represents the classic anatomy of the bile duct, was observed in 51.5% of our patients. Type C1 and type B were detected in 15% and 12% of patients, respectively. Conclusions: We describe vascular and biliary variations in the livers of our patients.