OBJECT: The object of this study was to describe an unusual fracture subtype within C-1 injuries with a propensity to result in late deformity and pain. Most patients with C-1 injuries are nonsurgically treated using external immobilization unless there is an injury of the transverse atlantal ligament. The authors describe an unusual variant involving a unilateral sagittal split with a high tendency to late deformity and pain. They also review the literature and treatment of C-1 fractures. METHODS: A retrospective review of 12,671 CT scans from a Level I trauma center over a 6-year period yielded 54 patients with C-1 fractures. Among these patients, 6 had an unusual unilateral lateral mass sagittal split, which resulted in a late cock-robin deformity in all survivors and thus a surgical deformity correction with occipital-cervical instrumented fusions. Patient charts and radiographs were reviewed, this fracture subtype is described, and its treatment discussed. RESULTS: Radiographic studies in 6 patients with C-1 fractures demonstrated a unilateral sagittal split of the lateral mass but an intact transverse atlantal ligament. In the 3 surviving patients, a late cock-robin deformity, significant loss of neck rotation, and severe neck pain developed. Vertebral artery occlusion, as revealed on CT angiography, occurred in 1 patient. All patients were placed in traction and underwent successful occipital-cervical fusion and deformity correction. At the final follow-up, all patients had satisfactory pain relief and improved head alignment. CONCLUSIONS: Patients with a unilateral sagittal split of the C-1 lateral mass have unstable injuries and must be carefully monitored, with a low threshold for surgical reconstruction or prolonged traction. Patients with late deformity can be successfully treated with occipital-cervical instrumented fusions.
OBJECT: The object of this study was to describe an unusual fracture subtype within C-1 injuries with a propensity to result in late deformity and pain. Most patients with C-1 injuries are nonsurgically treated using external immobilization unless there is an injury of the transverse atlantal ligament. The authors describe an unusual variant involving a unilateral sagittal split with a high tendency to late deformity and pain. They also review the literature and treatment of C-1fractures. METHODS: A retrospective review of 12,671 CT scans from a Level I trauma center over a 6-year period yielded 54 patients with C-1fractures. Among these patients, 6 had an unusual unilateral lateral mass sagittal split, which resulted in a late cock-robindeformity in all survivors and thus a surgical deformity correction with occipital-cervical instrumented fusions. Patient charts and radiographs were reviewed, this fracture subtype is described, and its treatment discussed. RESULTS: Radiographic studies in 6 patients with C-1fractures demonstrated a unilateral sagittal split of the lateral mass but an intact transverse atlantal ligament. In the 3 surviving patients, a late cock-robindeformity, significant loss of neck rotation, and severe neck pain developed. Vertebral artery occlusion, as revealed on CT angiography, occurred in 1 patient. All patients were placed in traction and underwent successful occipital-cervical fusion and deformity correction. At the final follow-up, all patients had satisfactory pain relief and improved head alignment. CONCLUSIONS:Patients with a unilateral sagittal split of the C-1 lateral mass have unstable injuries and must be carefully monitored, with a low threshold for surgical reconstruction or prolonged traction. Patients with late deformity can be successfully treated with occipital-cervical instrumented fusions.
Authors: Heiko Koller; Herbert Resch; Mark Tauber; Juliane Zenner; Peter Augat; Rainer Penzkofer; Frank Acosta; Klaus Kolb; Anton Kathrein; Wolfgang Hitzl Journal: Eur Spine J Date: 2010-04-13 Impact factor: 3.134
Authors: Frank Kandziora; Matti Scholz; Andreas Pingel; Philipp Schleicher; Ulas Yildiz; Patrick Kluger; Matthias Pumberger; Andreas Korge; Klaus John Schnake Journal: Global Spine J Date: 2018-09-07