Chan Jimmy J, Shepard Nicholas, Cho Woojin
Icahn School of Medicine at Mount Sinai, New York, NY, USA.
New York University Hospital for Joint Diseases, New York, NY, USA.
Global Spine J. 2019 Apr;9(2):210-218. doi: 10.1177/2192568218765995. Epub 2018 Apr 19.
Broad narrative review.
Translaminar screw (TLS) fixation was first described as a salvage technique for fixation of the axial spine. Better understanding of the spine anatomy allows for advancement in surgical techniques and expansion of TLS indications. The goal of this review is to discuss the anatomic feasibility of the TLS fixation in different region of the spine.
A review of the current literatures on the principles, biomechanics, and clinical application of the translaminar screw technique in the axial, subaxial, and thoracolumbar spine.
Anatomic feasibility and biomechanical studies have demonstrated that TLS is a safe and strong fixation methods for fusion beyond just the axial spine. However, not all spine segments have wide enough lamina to accept TLS. Preoperative computed tomography scan can help ensure the feasibility and safety of TLS insertion. Recent clinical reports have validated the application of TLS in subaxial spine, thoracic spine, hangman's fracture, and pediatric population.
TLS can be used beyond axial spine; however, TLS insertion is only warranted when the lamina is thick enough to avoid further complications such as breakage. Preoperative computed tomography scans can be used to determine feasibility of such fixation construct.
广泛的叙述性综述。
经椎板螺钉(TLS)固定最初被描述为一种用于轴向脊柱固定的挽救技术。对脊柱解剖结构的更好理解有助于手术技术的进步和TLS适应证的扩展。本综述的目的是讨论TLS固定在脊柱不同区域的解剖学可行性。
对当前关于经椎板螺钉技术在轴向、亚轴和胸腰椎脊柱的原理、生物力学及临床应用的文献进行综述。
解剖学可行性和生物力学研究表明,TLS不仅是轴向脊柱融合的一种安全且牢固的固定方法。然而,并非所有脊柱节段都有足够宽的椎板来接受TLS。术前计算机断层扫描有助于确保TLS置入的可行性和安全性。近期临床报告证实了TLS在亚轴脊柱、胸椎、绞刑架骨折和儿童人群中的应用。
TLS可用于轴向脊柱以外的情况;然而,只有当椎板足够厚以避免诸如断裂等进一步并发症时,才保证进行TLS置入。术前计算机断层扫描可用于确定这种固定结构的可行性。