Impact of surgeon’s dominant hand-side consistency with surgical approach on operational efficiency of unilateral biportal endoscopic lumbar discectomy: a prospective cohort study_Chinese Journal of Reparative and Reconstructive Surgery

Authors：

LI Wenqing ¹ , GAO Meng ¹ , ZHANG Linlin ¹ , YU Qihua ² ,  CHEN Xiaolong ²

1. The First Clinical Medical College Affiliated to Anhui University of Chinese Medicine, Hefei Anhui, 230031, P. R. China;
2. Department of Orthopedics Ⅱ, the Seventh Affiliated Hospital of Anhui University of Chinese Medicine, Taihe Anhui, 236600, P. R. China;

Corresponding?author：

CHEN Xiaolong, Email: 3181349039@qq.com

Keywords：

Unilateral biportal endoscopy; dominant hand-side; core endoscopic operation time; influencing factor

DOI：

10.7507/1002-1892.202512075

Video：

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Objective To investigate the impact of the surgeon’s dominant hand-side on the operational efficiency and safety of primary lumbar discectomy under unilateral biportal endoscopy (UBE). Methods A prospective cohort study was conducted in 60 patients with single-level lumbar disc herniation who underwent UBE lumbar discectomy between August 2024 and August 2025 by the same right-handed surgeon, including 30 patients with non-dominant (right approach) (non-matched group) and 30 patients with dominant (left approach) (matched group). No significant difference was observed between the two groups in baseline data including gender, age, body mass index, herniated segment distribution, disease duration, and preoperative visual analogue scale (VAS) score and Oswestry disability index (ODI) (P>0.05). The total operation time, core endoscopic operation time, intraoperative blood loss, and related complications were recorded and compared between the two groups. A self-developed surgeon’s operational fluency assessment score was used for auxiliary subjective evaluation. VAS score and ODI were used to assess pain and functional improvement preoperatively and at 1 and 3 months postoperatively. The modified MacNab criteria was used to evaluate overall surgical outcomes at 3 months postoperatively. Results There was no significant difference in the total operation time and intraoperative blood loss between the two groups (P>0.05). The core endoscopic operation time of the matched group was significantly shorter than that of the non-matched group, and the operational fluency assessment score of the matched group was significantly higher than that of the non-matched group (P<0.05). All patients were followed up 3-6 months, with an average of 4.2 months. Complications occurred in 2 cases (6.7%) in the matched group, including 1 case of dural tear and 1 case of postoperative transient nerve root palsy, and 1 case (3.3%) in the non-matched group, which was postoperative epidural hematoma. There was no significant difference in the incidence of complications between the two groups (P>0.05). The VAS scores and ODI of the two groups decreased at 1 and 3 months after operation, and improved further at 3 months after operation compared with 1 month after operation, and the differences were significant (P<0.05), but there was no significant difference between the two groups after operation (P>0.05). Modified MacNab standard was used to evaluate the curative effect at 3 months after operation, and there was no significant difference in the evaluation grade and excellent and good rate between the two groups (P>0.05). Conclusion Consistency between the surgeon’s dominant hand side and the surgical approach side significantly improves core endoscopic operational efficiency and surgical fluency in UBE lumbar discectomy, without compromising clinical efficacy or safety. It is suggested that this matching factor should be prioritized in surgical scheduling and beginner training to optimize the operative experience and shorten the learning curve.

Citation： LI Wenqing, GAO Meng, ZHANG Linlin, YU Qihua, CHEN Xiaolong. Impact of surgeon’s dominant hand-side consistency with surgical approach on operational efficiency of unilateral biportal endoscopic lumbar discectomy: a prospective cohort study. Chinese Journal of Reparative and Reconstructive Surgery, 2026, 40(4): 610-615. doi: 10.7507/1002-1892.202512075 Copy

1.	Demirta? OK, ?zer M?. Unilateral biportal endoscopic discectomy for lumbar disc herniation: Learning curve analysis with CUSUM analysis and clinical outcomes. Clin Neurol Neurosurg, 2025, 249: 108755. doi: 10.1016/j.clineuro.2025.108755.
2.	Hao J, Chen R, Zheng J, et al. Clinical outcomes of unilateral biportal endoscopic discectomy (UBE) compared with conventional open lumbar discectomy with 3D microscope (OLDM) assisted. Medicine (Baltimore), 2025, 104(6): e41440. doi: 10.1097/MD.0000000000041440.
3.	韓國嵩, 馬力, 祁家龍, 等. 經椎板間入路單通道內鏡與單側雙通道內鏡治療腰椎間盤突出癥的臨床比較. 實用醫學雜志, 2024, 40(11): 1542-1548.
4.	Liu Y, Li X, Tan H, et al. Learning curve of uniportal compared with biportal endoscopic techniques for the treatment of lumbar disc herniation. Orthop Surg, 2025, 17(2): 513-524.
5.	Kim HC, Lee JY, Cho HG, et al. Advanced technique of unilateral biportal endoscopy on revision surgery for recurred herniated interverbral disc: A technical note. Case Rep Orthop, 2024, 2024: 4095518. doi: 10.1155/2024/4095518.
6.	舒濤, 吳帝求, 滕飛, 等. 單側雙通道脊柱內鏡技術對側椎板下入路治療腰椎側隱窩狹窄合并同節段椎間孔狹窄的早期療效. 中國修復重建外科雜志, 2024, 38(7): 874-879.
7.	Xiang H, Latka K, Maste P, et al. C-arm Free Unilateral Biportal Endoscopic Discectomy: A Technical Note. Acta Med Okayama, 2024, 78(6): 475-483.
8.	Peng F, Gao M, Li Q, et al. Supraspinous ligament arc tangent guided freehand thoracic pedicle screw insertion technique: high parallelism between screws and upper endplate. Front Surg, 2023, 10: 1219816. doi: 10.3389/fsurg.2023.1219816.
9.	Akyolda? G, ?entürk S, Yaman O, et al. Can right-handed surgeons insert upper thoracic pedicle screws in much comfortable position? Right-handedness problem on the left side. J Korean Neurosurg Soc, 2018, 61(5): 568-673.
10.	Khalifa AA, Hassan AA. Surgeon handedness affects the acetabular cup positioning during primary total hip arthroplasty regardless of the surgical approach. a systematic review and metanalysis. BMC Musculoskelet Disord, 2024, 25(1): 792. doi: 10.1186/s12891-024-07868-2.
11.	Zhao Y, Guo Y, Pan X, et al. Bilateral synchronous UBE for unilateral laminotomy and bilateral decompression as a potentially effective minimally Invasive approach for two-level lumbar spinal stenosis. Sci Rep, 2025, 15(1): 2461. doi: 10.1038/s41598-025-86106-8.
12.	Oldfield RC. The assessment and analysis of handedness: the Edinburgh inventory. Neuropsychologia, 1971, 9(1): 97-113.
13.	Subramaniam MH, Moirangthem V, Ramakrishnan BS, et al. A clinically applicable predictive score in lumbar disc disease for formulating a surgical plan. Global Spine J, 2024, 14(2): 676-686.
14.	Zhang J, Li Q, Du Y, et al. Efficacy analysis of percutaneous endoscopic spinal surgery for young patients with discogenic low back pain. J Pain Res, 2022, 15: 665-674.
15.	Edwards AL, O’Sullivan PS, Rapp JH, et al. Development of the cognitive load inventory for surgical skills: preliminary validity evidence. Global Surgical Education-Journal of the Association for Surgical Education, 2023, 2(1). doi: 10.1007/s44186-023-00178-6.
16.	Wang YP, Qin SL, Yang S, et al. Efficacy and safety of unilateral biportal endoscopy compared with microscopic decompression in the treatment of lumbar spinal stenosis: A systematic review and updated meta-analysis. Exp Ther Med, 2023, 26(1): 309. doi: 10.3892/etm.2023.12008.
17.	Mehta N, Garg B, Gupta M. Comparison of free-hand and O-arm navigation guided pedicle screw placement in the lumbar spine: A prospective, randomized controlled trial. Brain and Spine, 2022, 2(S1). doi: 10.1016/j.bas.2022.101060.
18.	Moore J, Van de Graaf VA, Wood JA, et al. In functionally aligned total knee arthroplasty, femoral component rotation follows the transepicondylar axis to achieve flexion balance. Knee Surg Sports Traumatol Arthrosc, 2025, 33(5): 1784-1791.
19.	Suri I, Ezzat B, Suthakaran S, et al. Systematic review of surgical success, complications, revision rates, radiation dosage, and operative time of 3D-navigated versus non-navigated spinal procedures. World Neurosurg, 2025, 194: 123550. doi: 10.1016/j.wneu.2024.12.009.
20.	Bovonratwet P, Gu A, Chen AZ, et al. Computer-assisted navigation is associated with decreased rates of hardware-related revision after instrumented posterior lumbar fusion. Global Spine J, 2023, 13(4): 1104-1111.
21.	趙海恩, 任坤, 董鑫, 等. 單一體位下斜外側腰椎椎間融合術聯合椎間孔鏡下減壓治療L₅、S₁椎間盤突出伴椎管狹窄四例. 中國修復重建外科雜志, 2024, 38(7): 896-898.
22.	Dexheimer B, Sainburg R, Sharp S, et al. Roles of handedness and hemispheric lateralization: Implications for rehabilitation of the central and peripheral nervous systems: A rapid review. Am J Occup Ther, 2024, 78(2): 7802180120. doi: 10.5014/ajot.2024.050398.
23.	Zhang Y, Yang J, Han ZJ, et al. Study on the laparoscopic visual field adjustment method based on master-slave mapping. Proceedings of the Institution of Mechanical Engineers, 2024, 238(13): 6279-6289.
24.	Bapna T, Valles J, Leng S, et al. Eye-tracking in surgery: a systematic review. ANZ J Surg, 2023, 93(11): 2600-2608.
25.	Chen L, Zhu B, Zhong HZ, et al. The learning curve of unilateral biportal endoscopic (UBE) spinal surgery by CUSUM analysis. Front Surg, 2022, 9: 873691. doi: 10.3389/fsurg.2022.873691.
26.	Peng J, Lin R, Fang D, et al. Learning curve insights in Unilateral Biportal Endoscopic (UBE) spinal procedures: proficiency cutoffs and the impact on efficiency and complications. Eur Spine J, 2025, 34(3): 954-973.

1. Demirta? OK, ?zer M?. Unilateral biportal endoscopic discectomy for lumbar disc herniation: Learning curve analysis with CUSUM analysis and clinical outcomes. Clin Neurol Neurosurg, 2025, 249: 108755. doi: 10.1016/j.clineuro.2025.108755.
2. Hao J, Chen R, Zheng J, et al. Clinical outcomes of unilateral biportal endoscopic discectomy (UBE) compared with conventional open lumbar discectomy with 3D microscope (OLDM) assisted. Medicine (Baltimore), 2025, 104(6): e41440. doi: 10.1097/MD.0000000000041440.
3. 韓國嵩, 馬力, 祁家龍, 等. 經椎板間入路單通道內鏡與單側雙通道內鏡治療腰椎間盤突出癥的臨床比較. 實用醫學雜志, 2024, 40(11): 1542-1548.
4. Liu Y, Li X, Tan H, et al. Learning curve of uniportal compared with biportal endoscopic techniques for the treatment of lumbar disc herniation. Orthop Surg, 2025, 17(2): 513-524.
5. Kim HC, Lee JY, Cho HG, et al. Advanced technique of unilateral biportal endoscopy on revision surgery for recurred herniated interverbral disc: A technical note. Case Rep Orthop, 2024, 2024: 4095518. doi: 10.1155/2024/4095518.
6. 舒濤, 吳帝求, 滕飛, 等. 單側雙通道脊柱內鏡技術對側椎板下入路治療腰椎側隱窩狹窄合并同節段椎間孔狹窄的早期療效. 中國修復重建外科雜志, 2024, 38(7): 874-879.
7. Xiang H, Latka K, Maste P, et al. C-arm Free Unilateral Biportal Endoscopic Discectomy: A Technical Note. Acta Med Okayama, 2024, 78(6): 475-483.
8. Peng F, Gao M, Li Q, et al. Supraspinous ligament arc tangent guided freehand thoracic pedicle screw insertion technique: high parallelism between screws and upper endplate. Front Surg, 2023, 10: 1219816. doi: 10.3389/fsurg.2023.1219816.
9. Akyolda? G, ?entürk S, Yaman O, et al. Can right-handed surgeons insert upper thoracic pedicle screws in much comfortable position? Right-handedness problem on the left side. J Korean Neurosurg Soc, 2018, 61(5): 568-673.
10. Khalifa AA, Hassan AA. Surgeon handedness affects the acetabular cup positioning during primary total hip arthroplasty regardless of the surgical approach. a systematic review and metanalysis. BMC Musculoskelet Disord, 2024, 25(1): 792. doi: 10.1186/s12891-024-07868-2.
11. Zhao Y, Guo Y, Pan X, et al. Bilateral synchronous UBE for unilateral laminotomy and bilateral decompression as a potentially effective minimally Invasive approach for two-level lumbar spinal stenosis. Sci Rep, 2025, 15(1): 2461. doi: 10.1038/s41598-025-86106-8.
12. Oldfield RC. The assessment and analysis of handedness: the Edinburgh inventory. Neuropsychologia, 1971, 9(1): 97-113.
13. Subramaniam MH, Moirangthem V, Ramakrishnan BS, et al. A clinically applicable predictive score in lumbar disc disease for formulating a surgical plan. Global Spine J, 2024, 14(2): 676-686.
14. Zhang J, Li Q, Du Y, et al. Efficacy analysis of percutaneous endoscopic spinal surgery for young patients with discogenic low back pain. J Pain Res, 2022, 15: 665-674.
15. Edwards AL, O’Sullivan PS, Rapp JH, et al. Development of the cognitive load inventory for surgical skills: preliminary validity evidence. Global Surgical Education-Journal of the Association for Surgical Education, 2023, 2(1). doi: 10.1007/s44186-023-00178-6.
16. Wang YP, Qin SL, Yang S, et al. Efficacy and safety of unilateral biportal endoscopy compared with microscopic decompression in the treatment of lumbar spinal stenosis: A systematic review and updated meta-analysis. Exp Ther Med, 2023, 26(1): 309. doi: 10.3892/etm.2023.12008.
17. Mehta N, Garg B, Gupta M. Comparison of free-hand and O-arm navigation guided pedicle screw placement in the lumbar spine: A prospective, randomized controlled trial. Brain and Spine, 2022, 2(S1). doi: 10.1016/j.bas.2022.101060.
18. Moore J, Van de Graaf VA, Wood JA, et al. In functionally aligned total knee arthroplasty, femoral component rotation follows the transepicondylar axis to achieve flexion balance. Knee Surg Sports Traumatol Arthrosc, 2025, 33(5): 1784-1791.
19. Suri I, Ezzat B, Suthakaran S, et al. Systematic review of surgical success, complications, revision rates, radiation dosage, and operative time of 3D-navigated versus non-navigated spinal procedures. World Neurosurg, 2025, 194: 123550. doi: 10.1016/j.wneu.2024.12.009.
20. Bovonratwet P, Gu A, Chen AZ, et al. Computer-assisted navigation is associated with decreased rates of hardware-related revision after instrumented posterior lumbar fusion. Global Spine J, 2023, 13(4): 1104-1111.
21. 趙海恩, 任坤, 董鑫, 等. 單一體位下斜外側腰椎椎間融合術聯合椎間孔鏡下減壓治療L₅、S₁椎間盤突出伴椎管狹窄四例. 中國修復重建外科雜志, 2024, 38(7): 896-898.
22. Dexheimer B, Sainburg R, Sharp S, et al. Roles of handedness and hemispheric lateralization: Implications for rehabilitation of the central and peripheral nervous systems: A rapid review. Am J Occup Ther, 2024, 78(2): 7802180120. doi: 10.5014/ajot.2024.050398.
23. Zhang Y, Yang J, Han ZJ, et al. Study on the laparoscopic visual field adjustment method based on master-slave mapping. Proceedings of the Institution of Mechanical Engineers, 2024, 238(13): 6279-6289.
24. Bapna T, Valles J, Leng S, et al. Eye-tracking in surgery: a systematic review. ANZ J Surg, 2023, 93(11): 2600-2608.
25. Chen L, Zhu B, Zhong HZ, et al. The learning curve of unilateral biportal endoscopic (UBE) spinal surgery by CUSUM analysis. Front Surg, 2022, 9: 873691. doi: 10.3389/fsurg.2022.873691.
26. Peng J, Lin R, Fang D, et al. Learning curve insights in Unilateral Biportal Endoscopic (UBE) spinal procedures: proficiency cutoffs and the impact on efficiency and complications. Eur Spine J, 2025, 34(3): 954-973.

Chinese Journal of Reparative and Reconstructive Surgery

Impact of surgeon’s dominant hand-side consistency with surgical approach on operational efficiency of unilateral biportal endoscopic lumbar discectomy: a prospective cohort study

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