Application of ultrasonic bone scalpel system for laminectomy and posterior longitudinal ligament ossification block release combined with dekyphosis orthopedic surgery in treatment of multisegmental thoracic ossification of posterior longitudinal ligament_Chinese Journal of Reparative and Reconstructive Surgery

Authors：

LI Yuwei , YAN Xiaoyun , PAN Chuanhong , CUI Wei ,  WANG Haijiao

Department of Orthopedics, Luohe Central Hospital, Luohe Henan, 462000, P. R. China;

Corresponding?author：

WANG Haijiao, Email: 460910316@qq.com

Keywords：

Thoracic ossification of posterior longitudinal ligament; spinal stenosis; ultrasonic bone scalpel

DOI：

10.7507/1002-1892.202404106

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Objective To explore the safety and effectiveness of multisegmental thoracic ossification of posterior longitudinal ligament (T-OPLL) treated by laminectomy, posterior longitudinal ligament ossification block release combined with dekyphosis orthopedic surgery using ultrasonic bone scalpel system. Methods The clinical data of 8 patients with multisegmental T-OPLL treated with laminectomy, posterior longitudinal ligament ossification block release combined with dekyphosis orthopedic surgery using ultrasonic bone scalpel system between January 2020 and April 2023 was retrospectively analyzed. There were 3 males and 5 females; the age ranged from 41 to 67 years, with a mean of 57.1 years. The disease duration ranged from 3 to 74 months, with a mean of 33.4 months. Symptoms were progressive numbness and weakness of both lower limbs, unsteady walking, chest and back pain in 3 cases, and urinary and bowel dysfunction in 5 cases; 7 cases showed increased muscle strength of the lower limbs, hyperreflexia of the tendons, and a positive Babinski sign, and 1 case showed decreased muscle strength of the lower limbs, decreased skin sensation, decreased knee and Achilles tendon reflexes, and a negative pathologic sign. Multisegmental posterior longitudinal ligament ossification of thoracic spine was found in 8 cases, with 4-8 segments of ossification, and in 5 cases with multisegmental ossification of the ligamentum flavum. The preoperative Japanese Orthopaedic Association (JOA) thoracic spinal function score was 4.3±0.9, the visual analogue scale (VAS) score was 6.9±1.0, and the the kyphotic Cobb angle of the stenosis segment was (34.62±10.76)°. The operation time, intraoperative blood loss, and complications were recorded. VAS score was used to evaluate the back pain, JOA score was used to evaluate the thoracic spinal cord function and the JOA improvement rate was calculated, and the kyphotic Cobb angle of the stenosis segment was measured and the Cobb angle improvement rate was calculated. Results The operation time ranged from 210 to 340 minutes, with a mean of 271.62 minutes; intraoperative blood loss ranged from 900 to 2 100 mL, with a mean of 1 458.75 mL; the number of resected vertebral plates ranged from 4 to 8, with a mean of 6.1; dural tears and cerebrospinal fluid leakage occurred in 3 cases, and the incisions healed by first intention. All 8 cases were followed up 12-26 months, with a mean of 18.3 months. There was no complication such as loosening of internal fixator, breakage of screws and rods, and no significant progress of ossification. At last follow-up, the VAS score was 1.4±0.7, the JOA thoracic spinal function score was 9.8±0.7, and the the kyphotic Cobb angle of the stenosis segment was (22.12±8.28)°, all of which significantly improved when compared with preoperative ones (t=11.887, P<0.001; t=13.015, P<0.001; t=7.395, P<0.001). The JOA improvement rate was 81.06%±10.93%, of which 5 cases were rated as excellent and 3 cases as good; the Cobb angle improvement rate was 36.51%±14.20%. Conclusion Laminectomy, posterior longitudinal ligament ossification block release combined with dekyphosis orthopedic surgery using ultrasonic bone scalpel system is a safe, effective, and simple method for the treatment of multisegmental T-OPLL, which is a feasible option.

Citation： LI Yuwei, YAN Xiaoyun, PAN Chuanhong, CUI Wei, WANG Haijiao. Application of ultrasonic bone scalpel system for laminectomy and posterior longitudinal ligament ossification block release combined with dekyphosis orthopedic surgery in treatment of multisegmental thoracic ossification of posterior longitudinal ligament. Chinese Journal of Reparative and Reconstructive Surgery, 2024, 38(9): 1086-1091. doi: 10.7507/1002-1892.202404106 Copy

1.	Tang R, Shu J, Li H, et al. Surgical technique modification of circumferential decompression for thoracic spinal stenosis and clinical outcome. Br J Neurosurg, 2023, 37(3): 503-506.
2.	翟書珩, 胡攀攀, 劉曉光. 術中超聲輔助下環形減壓術治療多節段胸椎后縱韌帶骨化癥. 北京大學學報 (醫學版), 2022, 54(5): 1021-1027.
3.	Liu X, Zhai SH, Song QP, et al. Long-term follow-up of multilevel thoracic ossification of the posterior longitudinal ligament following circumferential decompression via posterior approach: A retrospective study. Orthop Surg, 2022, 14(2): 298-305.
4.	劉法敬, 申勇, 丁文元, 等. 經關節突入路治療韌帶骨化型胸椎管狹窄癥. 中國修復重建外科雜志, 2011, 25(3): 311-315.
5.	Zhai J, Guo S, Li J, et al. Progression of spinal ligament ossification in patients with thoracic myelopathy. Orthop Surg, 2022, 14(9): 1958-1963.
6.	Morishita S, Yoshii T, Inose H, et al. Comparison of perioperative complications in anterior decompression with fusion and posterior decompression with fusion for thoracic ossification of the posterior longitudinal ligament—A retrospective cohort study using a nationwide inpatient database. J Orthop Sci, 2022, 27(3): 600-605.
7.	李玉偉, 王海蛟, 崔巍, 等. 超聲刮匙在頸椎前路椎間盤切除融合術中應用的安全性和有效性評價. 中華醫學雜志, 2020, 100(9): 669-673.
8.	Li C, Li Z, Li L, et al. Angled ultrasonic bone curette-assisted circumferential decompression for thoracic myelopathy caused by severely anterior ossification. Orthop Surg, 2022, 14(9): 2369-2379.
9.	孫垂國, 陳仲強, 李危石, 等. 后路椎管后壁切除、局限性后縱韌帶骨化塊切除聯合去后凸治療胸椎多節段后縱韌帶骨化癥. 中華骨科雜志, 2019, 39(4): 193-200.
10.	聶虎, 牛國旗, 周功, 等. 3D打印技術結合新型胸椎椎弓根螺釘釘道探測器輔助胸椎椎弓根植釘的臨床應用. 中國修復重建外科雜志, 2021, 35(5): 586-592.
11.	Eto T, Aizawa T, Kanno H, et al. Several pathologies cause delayed postoperative paralysis following posterior decompression and spinal fusion for thoracic myelopathy caused by ossification of the posterior longitudinal ligament. J Orthop Sci, 2022, 27(3): 725-733.
12.	Aizawa T, Hashimoto K, Kanno H, et al. Retrospective comparison of the surgical results for patients with thoracic myelopathy caused by ossification of the posterior longitudinal ligament: Posterior decompression with instrumented spinal fusion versus modified anterior decompression through a posterior approach. J Orthop Sci, 2022, 27(2): 323-329.
13.	Yang P, Ge R, Chen ZQ, et al. Treatment of thoracic ossification of posterior longitudinal ligament with one-stage 360 degree circumferential decompression assisted by piezosurgery. J Invest Surg, 2022, 35(2): 249-256.
14.	Min JH, Jang JS, Lee SH. Clinical results of ossification of the posterior longitudinal ligament (OPLL) of the thoracic spine treated by anterior decompression. J Spinal Disord Tech, 2008, 21(2): 116-119.
15.	Wang ZC, Li SZ, Qu XF, et al. Transdural circumferential decompression for thoracic spinal stenosis caused by beak-type ossification of the posterior longitudinal ligament: a technical note. Br J Neurosurg, 2023, 37(5): 1371-1374.
16.	Yoshihara H, Horowitz E, Nadarajah V. Prevalence and characteristics of thoracic ossification of the posterior longitudinal ligament in 3299 Black patients: a cross-sectional study of a prospectively registered database. BMJ Open, 2022, 12(8): e059238.
17.	Ando K, Nakashima H, Machino M, et al. Postoperative progression of ligamentum flavum ossification after posterior instrumented surgery for thoracic posterior longitudinal ligament ossification: long-term outcomes during a minimum 10-year follow-up. J Neurosurg Spine, 2021, 36(6): 986-996.
18.	Sun K, Zhang S, Yang B, et al. The effect of laminectomy with instrumented fusion carried into the thoracic spine on the sagittal imbalance in patients with multilevel ossification of the posterior longitudinal ligament. Orthop Surg, 2021, 13(8): 2280-2288.

1. Tang R, Shu J, Li H, et al. Surgical technique modification of circumferential decompression for thoracic spinal stenosis and clinical outcome. Br J Neurosurg, 2023, 37(3): 503-506.
2. 翟書珩, 胡攀攀, 劉曉光. 術中超聲輔助下環形減壓術治療多節段胸椎后縱韌帶骨化癥. 北京大學學報 (醫學版), 2022, 54(5): 1021-1027.
3. Liu X, Zhai SH, Song QP, et al. Long-term follow-up of multilevel thoracic ossification of the posterior longitudinal ligament following circumferential decompression via posterior approach: A retrospective study. Orthop Surg, 2022, 14(2): 298-305.
4. 劉法敬, 申勇, 丁文元, 等. 經關節突入路治療韌帶骨化型胸椎管狹窄癥. 中國修復重建外科雜志, 2011, 25(3): 311-315.
5. Zhai J, Guo S, Li J, et al. Progression of spinal ligament ossification in patients with thoracic myelopathy. Orthop Surg, 2022, 14(9): 1958-1963.
6. Morishita S, Yoshii T, Inose H, et al. Comparison of perioperative complications in anterior decompression with fusion and posterior decompression with fusion for thoracic ossification of the posterior longitudinal ligament—A retrospective cohort study using a nationwide inpatient database. J Orthop Sci, 2022, 27(3): 600-605.
7. 李玉偉, 王海蛟, 崔巍, 等. 超聲刮匙在頸椎前路椎間盤切除融合術中應用的安全性和有效性評價. 中華醫學雜志, 2020, 100(9): 669-673.
8. Li C, Li Z, Li L, et al. Angled ultrasonic bone curette-assisted circumferential decompression for thoracic myelopathy caused by severely anterior ossification. Orthop Surg, 2022, 14(9): 2369-2379.
9. 孫垂國, 陳仲強, 李危石, 等. 后路椎管后壁切除、局限性后縱韌帶骨化塊切除聯合去后凸治療胸椎多節段后縱韌帶骨化癥. 中華骨科雜志, 2019, 39(4): 193-200.
10. 聶虎, 牛國旗, 周功, 等. 3D打印技術結合新型胸椎椎弓根螺釘釘道探測器輔助胸椎椎弓根植釘的臨床應用. 中國修復重建外科雜志, 2021, 35(5): 586-592.
11. Eto T, Aizawa T, Kanno H, et al. Several pathologies cause delayed postoperative paralysis following posterior decompression and spinal fusion for thoracic myelopathy caused by ossification of the posterior longitudinal ligament. J Orthop Sci, 2022, 27(3): 725-733.
12. Aizawa T, Hashimoto K, Kanno H, et al. Retrospective comparison of the surgical results for patients with thoracic myelopathy caused by ossification of the posterior longitudinal ligament: Posterior decompression with instrumented spinal fusion versus modified anterior decompression through a posterior approach. J Orthop Sci, 2022, 27(2): 323-329.
13. Yang P, Ge R, Chen ZQ, et al. Treatment of thoracic ossification of posterior longitudinal ligament with one-stage 360 degree circumferential decompression assisted by piezosurgery. J Invest Surg, 2022, 35(2): 249-256.
14. Min JH, Jang JS, Lee SH. Clinical results of ossification of the posterior longitudinal ligament (OPLL) of the thoracic spine treated by anterior decompression. J Spinal Disord Tech, 2008, 21(2): 116-119.
15. Wang ZC, Li SZ, Qu XF, et al. Transdural circumferential decompression for thoracic spinal stenosis caused by beak-type ossification of the posterior longitudinal ligament: a technical note. Br J Neurosurg, 2023, 37(5): 1371-1374.
16. Yoshihara H, Horowitz E, Nadarajah V. Prevalence and characteristics of thoracic ossification of the posterior longitudinal ligament in 3299 Black patients: a cross-sectional study of a prospectively registered database. BMJ Open, 2022, 12(8): e059238.
17. Ando K, Nakashima H, Machino M, et al. Postoperative progression of ligamentum flavum ossification after posterior instrumented surgery for thoracic posterior longitudinal ligament ossification: long-term outcomes during a minimum 10-year follow-up. J Neurosurg Spine, 2021, 36(6): 986-996.
18. Sun K, Zhang S, Yang B, et al. The effect of laminectomy with instrumented fusion carried into the thoracic spine on the sagittal imbalance in patients with multilevel ossification of the posterior longitudinal ligament. Orthop Surg, 2021, 13(8): 2280-2288.

Chinese Journal of Reparative and Reconstructive Surgery

Application of ultrasonic bone scalpel system for laminectomy and posterior longitudinal ligament ossification block release combined with dekyphosis orthopedic surgery in treatment of multisegmental thoracic ossification of posterior longitudinal ligament

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