Ruf Michael, Pitzen Tobias, Nennstiel Ivo, Volkheimer David, Drumm Jörg, Püschel Klaus, Wilke Hans-Joachim
Center for Spine Surgery, Orthopedics, and Traumatology, SRH Klinikum Karlsbad-Langensteinbach, Guttmannstrasse 1, 76307, Karlsbad, Germany.
Center for Orthopedic Surgery and Traumatology, SRH Central Hospital Suhl, Albert-Schweitzer-Strasse 2, 98527, Suhl, Germany.
Eur Spine J. 2022 Jan;31(1):28-36. doi: 10.1007/s00586-021-07034-5. Epub 2021 Nov 13.
Surgical treatment of thoracolumbar A3-fractures usually comprises posterior fixation-in neutral position or distraction-potentially followed by subsequent anterior support. We hypothesized that additional posterior compression in circumferential stabilization may increase stability by locking the facets, and better restore the sagittal profile.
Burst fractures Type A3 were created in six fresh frozen cadaver spine segments (T12-L2). Testing was performed in a custom-made spinal loading simulator. Loads were applied as pure bending moments of ± 3.75 Nm in all six movement axes. We checked range of motion, neutral zone and Cobb's angle over the injured/treated segment within the following conditions: Intact, fractured, instrumented in neutral alignment, instrumented in distraction, with cage left in posterior distraction, with cage with posterior compression.
We found that both types of instrumentation with cage stabilized the segment compared to the fractured state in all motion planes. For flexion/extension and lateral bending, flexibility was decreased even compared to the intact state, however, not in axial rotation, being the most critical movement axis. Additional posterior compression in the presence of a cage significantly decreased flexibility in axial rotation, thus achieving stability comparable to the intact state even in this movement axis. In addition, posterior compression with cage significantly increased lordosis compared to the distracted state.
Among different surgical modifications tested, circumferential fixation with final posterior compression as the last step resulted in superior stability and improved sagittal alignment. Thus, posterior compression as the last step is recommended in these pathologies.
胸腰椎A3型骨折的手术治疗通常包括在中立位或撑开位进行后路固定,随后可能需要前路支撑。我们推测,在环形稳定中增加后路加压可能通过锁定小关节来增加稳定性,并更好地恢复矢状面形态。
在6个新鲜冷冻的尸体脊柱节段(T12-L2)上制造A3型爆裂骨折。在定制的脊柱加载模拟器上进行测试。在所有六个运动轴上施加±3.75 Nm的纯弯矩载荷。我们在以下条件下检查损伤/治疗节段的活动范围、中性区和Cobb角:完整、骨折、中立位内固定、撑开位内固定、后路撑开时保留椎间融合器、后路加压时保留椎间融合器。
我们发现,与骨折状态相比,两种带椎间融合器的内固定方式在所有运动平面上均能稳定节段。对于屈伸和侧方弯曲,与完整状态相比灵活性降低,但在轴向旋转(最关键的运动轴)中并非如此。在有椎间融合器的情况下增加后路加压可显著降低轴向旋转的灵活性,从而即使在该运动轴上也能达到与完整状态相当的稳定性。此外,与撑开状态相比,带椎间融合器的后路加压显著增加了前凸。
在测试的不同手术方式中,以最后一步进行后路加压的环形固定具有更好的稳定性和矢状面排列改善。因此,对于这些病变,建议最后一步进行后路加压。
