Comparison of CLIF and TLIF in treatment of degenerative lumbar spondylolisthesis combined with lumbar spinal stenosis_Chinese Journal of Reparative and Reconstructive Surgery

Authors：

ZHANG Di ^1,2 , ZHANG Wenming ² , ZHOU Xianwei ² ,  JIN Song ¹

1. Department of Orthopedics, the Eighth Affiliated Hospital of Sun Yat-sen University, Shenzhen Guangdong, 518033, P.R.China;
2. Department of Spine Surgery, Luoyang Orthopedic-Traumatological Hospital of Henan Province (Henan Provincial Orthopedic Hospital), Zhengzhou Henan, 450000, P.R.China;

Corresponding author：

JIN Song, Email: jingsosysu@tom.com

Keywords：

Degenerative lumbar spondylolisthesis; lumbar spinal stenosis; crenel lateral interbody fusion; transforaminal lumbar interbody fusion

DOI：

10.7507/1002-1892.202008092

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Objective To observe the difference between crenel lateral interbody fusion (CLIF) and transforaminal lumbar interbody fusion (TLIF) in the treatment of degenerative lumbar spondylolisthesis (DLS) combined with lumbar spinal stenosis (LSS).Methods The clinical data of DLS combined with LSS patients meeting the selection criteria admitted between May 2018 and May 2019 were retrospectively analyzed. According to different surgical methods, the patients were divided into CLIF group (33 cases) and TLIF group (32 cases). There were no significant differences (P>0.05) between the two groups in gender, age, disease duration, lesion segments, lumbar bone mineral density, degree of lumbar spondylolisthesis, and preoperative visual analogue scale (VAS) score, Oswestry disability index (ODI), intervertebral space height, intervertebral foramen height, lumbar lordosis (LL), and segmental lordosis (SL). The operation time, intraoperative blood loss, and perioperative complications were recorded and compared between the two groups. Lumbar CT scan was performed at last follow-up to compare the intervertebral fusion rate between the two groups. Intervertebral space height, intervertebral foramen height, LL, and SL were measured before operation, at 2 weeks, 3 months after operation, and at last follow-up. VAS score and ODI were used to evaluate the pain and improvement of the quality of life of the patients.Results There were no neurological and vascular complications in the two groups. The operation time and intraoperative blood loss in CLIF group were significantly less than those in TLIF group (P<0.05). Patients in both groups were followed up for a median time of 18 months. All the incisions healed by first intention except 1 incision in TLIF group because of poor blood glucose control. No complications such as bedsore, falling pneumonia, and deep venous thrombosis were found in both groups. At last follow-up, the intervertebral fusion rates in CLIF and TLIF group were 90.91% (30/33) and 93.75% (30/32), respectively, showing no significant difference (χ²=0.185, P=0.667). The VAS score, ODI, intervertebral space height, intervertebral foramen height, LL, and SL were significantly improved in both groups at each time point after operation (P<0.05). Except that VAS score in CLIF group was significantly lower than that in TLIF group at 2 weeks after operation (Z=−4.303, P=0.000), there were no significant differences in VAS score and ODI between the two groups at other time points (P>0.05). The intervertebral space height, intervertebral foramen height, LL, and SL in CLIF group were significantly higher than those in TLIF group at each time point after operation, and the differences were significant (P<0.05).Conclusion CLIF in the treatment of DLS combined with LSS can achieve the similar effectiveness with traditional TLIF, and has such advantages as minimal invasion and faster recovery.

Citation： ZHANG Di, ZHANG Wenming, ZHOU Xianwei, JIN Song. Comparison of CLIF and TLIF in treatment of degenerative lumbar spondylolisthesis combined with lumbar spinal stenosis. Chinese Journal of Reparative and Reconstructive Surgery, 2021, 35(2): 210-216. doi: 10.7507/1002-1892.202008092 Copy

1.	Lonstein JE. Spondylolisthesis in children. Cause, natural history, and management. Spine (Phila Pa 1976), 1999, 24(24): 2640-2648.
2.	翁峰标, 周建新, 杨立文, 等. 后路减压融合术后持续腰痛的发生率及危险因素. 中国矫形外科杂志, 2019, 27(21): 1921-1926.
3.	Allain J, Dufour T. Anterior lumbar fusion techniques: ALIF, OLIF, DLIF, LLIF, IXLIF. Orthop Traumatol Surg Res, 2020, 106(1S): S149-S157.
4.	李方财, 陈其昕, 陈维善. 改良侧方入路腰椎椎体间融合术及其临床应用. 中华骨科杂志, 2018, 38(4): 212-219.
5.	邵珂, 吉立新. 峡部裂性腰椎滑脱症的手术治疗进展. 中国骨伤, 2019, 32(3): 283-287.
6.	Ozgur BM, Aryan HE, Pimenta L, et al. Extreme Lateral Interbody Fusion (XLIF): a novel surgical technique for anterior lumbar interbody fusion. Spine J, 2006, 6(4): 435-443.
7.	Woods KR, Billys JB, Hynes RA. Technical description of oblique lateral interbody fusion at L₁-L₅ (OLIF25) and at L₅-S₁ (OLIF51) and evaluation of complication and fusion rates. Spine J, 2017, 17(4): 545-553.
8.	Silvestre C, Mac-Thiong JM, Hilmi R, et al. Complications and morbidities of mini-open anterior retroperitoneal lumbar interbody fusion: Oblique lumbar interbody fusion in 179 patients. Asian Spine J, 2012, 6(2): 89-97.
9.	Xu DS, Walker CT, Godzik J, et al. Minimally invasive anterior, lateral, and oblique lumbar interbody fusion: a literature review. Ann Transl Med, 2018, 6(6): 104.
10.	Keorochana G, Setrkraising K, Woratanarat P, et al. Clinical outcomes after minimally invasive transforaminal lumbar interbody fusion and lateral lumbar interbody fusion for treatment of degenerative lumbar disease: a systematic review and meta-analysis. Neurosurg Rev, 2018, 41(3): 755-770.
11.	Wu M, Li J, Zhang M, et al. Efficacy and radiographic analysis of oblique lumbar interbody fusion for degenerative lumbar spondyl olisthesis. J Orthop Surg Res, 2019, 14(1): 399.
12.	胡文, 赵检, 李博, 等. 退变性腰椎滑脱的脊柱-骨盆矢状位参数特征分析. 第二军医大学学报, 2019, 40(4): 381-385.
13.	孙欣, 曾荣, 李广盛, 等. 微创及开放椎间融合术治疗轻度峡部裂型腰椎滑脱症脊柱-骨盆矢状位参数变化及疗效的对比研究. 中国修复重建外科杂志, 2015, 29(12): 1504-1509.
14.	Saadeh YS, Joseph JR, Smith BW, et al. Comparison of segmental lordosis and global spinopelvic alignment after single-level lateral lumbar interbody fusion or transforaminal lumbar interbody fusion. World Neurosurg, 2019, 126: e1374-e1378.
15.	Palepu V, Helgeson M, Molyneaux-Francis M, et al. The effects of bone microstructure on subsidence risk for ALIF, LLIF, PLIF, and TLIF spine Cages. J Biomech Eng, 2018. doi: 10.1115/1.4042181.Onlineaheadofprint.
16.	He W, He D, Sun Y, et al. Quantitative analysis of paraspinal muscle atrophy after oblique lateral interbody fusion alone vs. combined with percutaneous pedicle screw fixation in patients with spondylolisthesis. BMC Musculoskelet Disord, 2020, 21(1): 30.
17.	Chen E, Xu J, Yang S, et al. Cage subsidence and fusion rate in extreme lateral interbody fusion with and without fixation. World Neurosurg, 2019, 122: e969-e977.
18.	Guo HZ, Tang YC, Guo DQ, et al. Stability evaluation of oblique lumbar interbody fusion constructs with various fixation options: A finite element analysis based on three-dimensional scanning models. World Neurosurgery, 2020, 138: e530-e538.

1. Lonstein JE. Spondylolisthesis in children. Cause, natural history, and management. Spine (Phila Pa 1976), 1999, 24(24): 2640-2648.
2. 翁峰标, 周建新, 杨立文, 等. 后路减压融合术后持续腰痛的发生率及危险因素. 中国矫形外科杂志, 2019, 27(21): 1921-1926.
3. Allain J, Dufour T. Anterior lumbar fusion techniques: ALIF, OLIF, DLIF, LLIF, IXLIF. Orthop Traumatol Surg Res, 2020, 106(1S): S149-S157.
4. 李方财, 陈其昕, 陈维善. 改良侧方入路腰椎椎体间融合术及其临床应用. 中华骨科杂志, 2018, 38(4): 212-219.
5. 邵珂, 吉立新. 峡部裂性腰椎滑脱症的手术治疗进展. 中国骨伤, 2019, 32(3): 283-287.
6. Ozgur BM, Aryan HE, Pimenta L, et al. Extreme Lateral Interbody Fusion (XLIF): a novel surgical technique for anterior lumbar interbody fusion. Spine J, 2006, 6(4): 435-443.
7. Woods KR, Billys JB, Hynes RA. Technical description of oblique lateral interbody fusion at L₁-L₅ (OLIF25) and at L₅-S₁ (OLIF51) and evaluation of complication and fusion rates. Spine J, 2017, 17(4): 545-553.
8. Silvestre C, Mac-Thiong JM, Hilmi R, et al. Complications and morbidities of mini-open anterior retroperitoneal lumbar interbody fusion: Oblique lumbar interbody fusion in 179 patients. Asian Spine J, 2012, 6(2): 89-97.
9. Xu DS, Walker CT, Godzik J, et al. Minimally invasive anterior, lateral, and oblique lumbar interbody fusion: a literature review. Ann Transl Med, 2018, 6(6): 104.
10. Keorochana G, Setrkraising K, Woratanarat P, et al. Clinical outcomes after minimally invasive transforaminal lumbar interbody fusion and lateral lumbar interbody fusion for treatment of degenerative lumbar disease: a systematic review and meta-analysis. Neurosurg Rev, 2018, 41(3): 755-770.
11. Wu M, Li J, Zhang M, et al. Efficacy and radiographic analysis of oblique lumbar interbody fusion for degenerative lumbar spondyl olisthesis. J Orthop Surg Res, 2019, 14(1): 399.
12. 胡文, 赵检, 李博, 等. 退变性腰椎滑脱的脊柱-骨盆矢状位参数特征分析. 第二军医大学学报, 2019, 40(4): 381-385.
13. 孙欣, 曾荣, 李广盛, 等. 微创及开放椎间融合术治疗轻度峡部裂型腰椎滑脱症脊柱-骨盆矢状位参数变化及疗效的对比研究. 中国修复重建外科杂志, 2015, 29(12): 1504-1509.
14. Saadeh YS, Joseph JR, Smith BW, et al. Comparison of segmental lordosis and global spinopelvic alignment after single-level lateral lumbar interbody fusion or transforaminal lumbar interbody fusion. World Neurosurg, 2019, 126: e1374-e1378.
15. Palepu V, Helgeson M, Molyneaux-Francis M, et al. The effects of bone microstructure on subsidence risk for ALIF, LLIF, PLIF, and TLIF spine Cages. J Biomech Eng, 2018. doi: 10.1115/1.4042181.Onlineaheadofprint.
16. He W, He D, Sun Y, et al. Quantitative analysis of paraspinal muscle atrophy after oblique lateral interbody fusion alone vs. combined with percutaneous pedicle screw fixation in patients with spondylolisthesis. BMC Musculoskelet Disord, 2020, 21(1): 30.
17. Chen E, Xu J, Yang S, et al. Cage subsidence and fusion rate in extreme lateral interbody fusion with and without fixation. World Neurosurg, 2019, 122: e969-e977.
18. Guo HZ, Tang YC, Guo DQ, et al. Stability evaluation of oblique lumbar interbody fusion constructs with various fixation options: A finite element analysis based on three-dimensional scanning models. World Neurosurgery, 2020, 138: e530-e538.

Chinese Journal of Reparative and Reconstructive Surgery

Comparison of CLIF and TLIF in treatment of degenerative lumbar spondylolisthesis combined with lumbar spinal stenosis

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