BACKGROUND CONTEXT Several surgical techniques for atlantoaxial fixation and arthrodesis have been proposed over the years to treat patients with atlantoaxial instability with the goal of achieving C1-2 fusion. PURPOSE We report a novel C1-2 fixation technique for treating patients with atlantoaxial instability using a loop-suture technique without the use of cables or wires. We propose a safer alternative to securing structural bone graft between C1-2. STUDY DESIGN/SETTING A retrospective review of a prospective database was performed using this technique from 2013-2018 for patients with atlantoaxial instability related to trauma, degeneration, and inflammatory arthropathy. Primary bone and metastatic cancer were excluded. The technique entails anchoring a structural iliac crest autograft or allograft between C1 and C2 for interlaminar arthrodesis in addition to C1 lateral mass and C2 pars/pedicle screw placement. The bone graft is secured using a 0-Prolene suture which is looped under the C1 lamina with the blunt end of the needle first. The needle is then passed through the graft, through the C2-3 interspinous ligaments, and then tied over the graft. We report the utility, safety, durability, and effectiveness of this approach in 32 consecutive patients METHODS A retrospective review of a prospective database was performed using this technique from 2013-2018 for patients with atlantoaxial instability related to trauma, degeneration, and inflammatory arthropathy. Primary bone and metastatic cancer were excluded. The technique entails anchoring a structural iliac crest autograft or allograft between C1 and C2 for interlaminar arthrodesis in addition to C1 lateral mass and C2 pars/pedicle screw placement. The bone graft is secured using a 0-Prolene suture which is looped under the C1 lamina with the blunt end of the needle first. The needle is then passed through the graft, through the C2-3 interspinous ligaments, and then tied over the graft. We report the utility, safety, durability, and effectiveness of this approach in 32 consecutive patients. RESULTS A total of 32 patients were identified who met criteria for atlantoaxial instability due to traumatic dislocation or ligamentous injury (60.0%), cervical spine degeneration (34.5%), deformity (5.25%) or combination of trauma and degeneration (5.25%). The follow-up period ranged from 6 to 24 months (mean 7.8 months). All patients had improvement in their pain by VAS and NDI (85% and 60% improvement respectively, p CONCLUSIONS We demonstrate a novel approach for C1-2 arthrodesis that utilizes a safe technique for securing bone graft without the use of wires or cables, allowing for less sublaminar dissection and potential dural and neurologic injury as well as improved clinical outcomes. FDA DEVICE/DRUG STATUS This abstract does not discuss or include any applicable devices or drugs.