Computed tomography-based morphometric measurements of the atlas (C1) posterior arc

• Main Authors: Yasar Karatas, Bulent Kaya, Mehmet Fatih Erdi, Fatih Keskin, Densel Arac, Emir Kaan Izci, Mehmet Uyar, Ali Sami Kıvrak, Erdal Kalkan
• Format: Article
• Language: English
• Published: London Academic Publishing 2020-03-01
• Series: Romanian Neurosurgery
• Subjects: computed tomography; morphometric measurements; atlas (C1) posterior arc
• Online Access: https://www.journals.lapub.co.uk/index.php/roneurosurgery/article/view/1347

Study design: Single-center retrospective study Objectives: This study is performed to determine the anatomic feasibility of the C1 posterior arc screw and help select an optimal screw trajectory in treating patients with craniovertebral junction pathologies. Material and Methods: We reported a single-centre retrospective study. Forty patients (20 male and 20 female) who underwent cervical computed tomography (CT) were chosen from the hospital records. Based on CT images, we measured left laminar length (LLL), right laminar length (RLL), left laminar angle (LLA), right laminar angle (RLA), left laminar axial thickness (LLAT), right laminar axial thickness (RLAT), left laminar coronal thickness (LLCT), right laminar coronal thickness (RLCT), and craniocaudal angle (CCA) of the C1 posterior arc. Results: The mean values and standard deviations (SD) for nine parameters at the C1 posterior arc were determined. LLL, RLL, LLCT, and RLCT were statistically longer in men than women. RLAT was bigger in men but there was no statistical difference. RLA was statistically wider in women than men. LLA and CCA were wider in women but there was no statistical difference, LLAT was bigger in women but there was no statistical difference. There was no statistical difference in measurements by age. Conclusion:  The results of this study are important to avoid neurovascular injury and pedicle breakage because of choosing large screw while performing C1 laminar screw fixation.