Journal of spinal disorders
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The purpose of this in vitro experimental study was to determine the role of alar ligaments in providing flexion, extension, and lateral bending stability to the upper cervical spine. Ten fresh human cadaver specimens occiput-C3 were studied in a complete unconstrained and three-dimensional manner, first intact and then after sequential cutting of the left and right alar ligaments. At the C0-C1 joint, there were increases in flexion motion with sequential cutting of the alar ligaments but none in extension. ⋯ At the C1-C2 joint, there were significant increases both in flexion and extension due to cutting of the left alar ligament, but subsequent cutting of the right alar ligament resulted in a small increase for flexion only. At this joint, right lateral bending increased due to cutting of the left alar ligament, but the same was not true for the left lateral bending. Subsequent cutting of the right alar ligament resulted in significant increases for both the right and left lateral bending.
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Twenty-five consecutive adult women with nonparalytic spinal deformity were treated with fusion to the sacrum. Two patients were lost to follow-up and one patient died, leaving 22 patients for review. All patients underwent a first-stage anterior spinal fusion without instrumentation followed by a second-stage posterior spinal fusion with Luque-Galveston instrumentation. ⋯ Previous surgery and additional procedures such as vertebrectomies or osteotomies did not adversely affect the outcome. There were no permanent neurologic deficits related to the instrumentation or the passage of sublaminar wires. The Luque-Galveston method provided correction of sagittal plane deformities and flatback syndrome.