Although difficult, satisfactory reduction of complete lumbar fracture-dislocation can be achieved through pedicle instrumentation. Intraoperative traction is necessary for the reduction procedure. Preoperative duration should be not >3 weeks. For the patient who cannot receive spine surgery in a few days after injury, preoperative traction should be applied. Covering dura sac by autologous fat graft is recommended for all the patients.
Objective: Preoperative evaluation of vessels and nerves will help surgeons to understand and design the intermuscular approach individually. The aim of this study is to analyze the ability of computed tomography (CT) and magnetic resonance imaging (MRI) to display the vessels and nerves for paraspinal intermuscular approach to lumbar spine. Methods: A total of 18 healthy volunteers were examined by CT angiography (CTA) and MRI (sagittal, transverse T2WI and coronary nerve imaging) respectively. The vessels and nerve surrounding the paraspinal intermuscular space (Wiltse, Watkins and Weaver space) was observed. Results: In CTA, the blood supply of lumbar spine were originated from the lumbar artery. All the lumbar artery coursed between the upper and the lower pedicle of vertebral arch, and no vessels were found in the lateral sides of pedicle. In the lateral border of L1–S1, lumbar arteries sent branches into Wiltse space. All levels showed no obvious vessels into Weaver space. Slightly below the transverse process at L1–L3 levels, the lumbar arteries sent a branch into the Watkins space, and finally into the erector spinae. In the MR sagittal T2WI phase, lumbar artery were visible by the blank empty signal. The course of artery was similar with CT. Coronal nerve imaging can clearly show the ventral root and dorsal root, spinal ganglia, and spinal nerve. The relationship between spinal nerve and intermuscular space was failed to show. In the transverse T2WI, the vessel were visible in the Wiltse and Watkins space which similar with CT. Conclusion: Preoperative imaging analysis of vessels and nerves surrounding paraspinal muscle is beneficial to the design of paraspinal intermuscular approach to lumbar spine.
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