椎间笼前凸是否会影响微创腰椎融合术中实际获得的节段前凸?
Does interbody cage lordosis impact actual segmental lordosis achieved in minimally invasive lumbar spine fusion?
机构信息
1Hospital for Special Surgery, New York, New York.
2Weill Cornell Medicine-Qatar, Alsad, Doha, Qatar; and.
出版信息
Neurosurg Focus. 2020 Sep;49(3):E17. doi: 10.3171/2020.6.FOCUS20393.
OBJECTIVE
In an effort to prevent loss of segmental lordosis (SL) with minimally invasive interbody fusions, manufacturers have increased the amount of lordosis that is built into interbody cages. However, the relationship between cage lordotic angle and actual SL achieved intraoperatively remains unclear. The purpose of this study was to determine if the lordotic angle manufactured into an interbody cage impacts the change in SL during minimally invasive surgery (MIS) for lumbar interbody fusion (LIF) done for degenerative pathology.
METHODS
The authors performed a retrospective review of a single-surgeon database of adult patients who underwent primary LIF between April 2017 and December 2018. Procedures were performed for 1-2-level lumbar degenerative disease using contemporary MIS techniques, including transforaminal LIF (TLIF), lateral LIF (LLIF), and anterior LIF (ALIF). Surgical levels were classified on lateral radiographs based on the cage lordotic angle (6°-8°, 10°-12°, and 15°-20°) and the position of the cage in the disc space (anterior vs posterior). Change in SL was the primary outcome of interest. Subgroup analyses of the cage lordotic angle within each surgical approach were also conducted.
RESULTS
A total of 116 surgical levels in 98 patients were included. Surgical approaches included TLIF (56.1%), LLIF (32.7%), and ALIF (11.2%). There were no differences in SL gained by cage lordotic angle (2.7° SL gain with 6°-8° cages, 1.6° with 10°-12° cages, and 3.4° with 15°-20° cages, p = 0.581). Subgroup analysis of LLIF showed increased SL with 15° cages only (p = 0.002). The change in SL was highest after ALIF (average increase 9.8° in SL vs 1.8° in TLIF vs 1.8° in LLIF, p < 0.001). Anterior position of the cage in the disc space was also associated with a significantly greater gain in SL (4.2° vs -0.3°, p = 0.001), and was the only factor independently correlated with SL gain (p = 0.016).
CONCLUSIONS
Compared with cage lordotic angle, cage position and approach play larger roles in the generation of SL in 1-2-level MIS for lumbar degenerative disease.
目的
为了防止微创椎间融合术中节段性前凸丢失,制造商增加了内置在椎间笼中的前凸角度。然而,椎间笼前凸角度与术中实际获得的前凸角度之间的关系仍不清楚。本研究旨在确定用于退行性病变的微创腰椎椎间融合术(MIS-LIF)中,椎间笼的前凸角度是否会影响 SL 的变化。
方法
作者对 2017 年 4 月至 2018 年 12 月期间接受单名外科医生治疗的成人患者的数据库进行了回顾性分析,这些患者接受了原发性 LIF 手术。使用现代 MIS 技术进行 1-2 个节段的腰椎退行性疾病手术,包括经椎间孔腰椎间融合术(TLIF)、侧方腰椎间融合术(LLIF)和前路腰椎间融合术(ALIF)。根据 cage 在前柱上的位置(前后)和 cage 在上位椎体终板的位置(前后),在侧位片上对手术节段进行分类。SL 的变化是主要的观察结果。还对每种手术方法中 cage 前凸角度的亚组分析进行了分析。
结果
共纳入 98 例患者的 116 个手术节段。手术方法包括 TLIF(56.1%)、LLIF(32.7%)和 ALIF(11.2%)。 cage 前凸角度对 SL 的增加没有影响(6°-8° cage 增加 2.7° SL,10°-12° cage 增加 1.6° SL,15°-20° cage 增加 3.4° SL,p=0.581)。仅在 LLIF 亚组分析中发现 cage 前凸角度与 SL 增加呈正相关(p=0.002)。ALIF 后 SL 增加最大(平均增加 9.8° SL,TLIF 增加 1.8° SL,LLIF 增加 1.8° SL,p<0.001)。 cage 在椎间盘内的前位也与 SL 显著增加有关(4.2° vs. -0.3°,p=0.001),是唯一与 SL 增加相关的因素(p=0.016)。
结论
与 cage 前凸角度相比,在 1-2 级腰椎退行性疾病的 MIS 中,cage 位置和方法在产生 SL 方面起着更大的作用。
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